PYSC 220 Exam 2

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The receptive field of a typical bipolar and ganglion cell

Co-centric receptive field

Transduction

a process by which light is converted into electrical signals in the rod cells, cone cells and photosensitive ganglion cells of the retina of the eye; photoreceptors detect light then create a neural memo and sends it back to the rest of the brain

even long after the sensitive period

a prolonged experience of no visual stimulation produces a measurable effect on the visual cortex

Nerve Growth Factor (NGF)

a protein that promotes the survival and growth of the axon - neurotrophin

simple V1 neurons converge their data onto one complex V1 neuron to result in

a receptive field which is rectangular with no stat "on" or "off" region

several V1 complex cells converge their data onto one hypercomplex V1 neuron to result in

a receptive field which may respond movement as well as length of line

LGN neurons converge their data onto one V1 cortical simple cell to result in

a receptive fields which looks like a rectangle with a surround

negative color afterimage

a replacement of red with green, green with red, yellow and blue with each other, and black and white with each other

Foveal Vision Brightness sensitivity

Distinguishes among bright lights; responds poorly to dim light

chemoreceptors

a sensory receptor that transduces a chemical signal into an action potential. In more general terms, a chemosensor detects certain chemical stimuli in the environment

phantom pain elimination

using an artificial limb can make the brain attribute the sensations to the artificial limb, displacing the abnormal connections that causes phantom sensations

Brains of adults can reorganize with special training but...

usually not enough to show changes on an MRI

Koniocellular Neurons Respond to

varied

people's ability to recognize faces

varies because they don't care or don't pay attention

Problem with place theory

various parts of the basilar membrane are bound together too tightly to resonate like a piano string

to what is the organization of the auditory cortex similar?

very similar to the organization of the visual cortex → auditory cortex also has dorsal and ventral streams (and some of these areas overlap with the visual areas)

size of the vestibular system

very small in almost all creatures

vestibular pathway

vestibular hair cells sends info to → brainstem & cerebellum • (e.g., projections to brainstem = nausea/vomiting) • (cerebellum = balance)

monocular cues

• relative size height in plane • linear perspective • texture gradient • interposition • light and shadow

vestibular organ consists of

• saccule • utricle • three semicircular canals

primary tastes & molecules

• salty • sweet • bitter • sour • umami

C fibers and pain

• smaller diameter than A-δ fibers; unmyelinated, bit slower • dull, aching pain (tooth ache, post-operative pain)

properties of vision stimulus

• wavelength • Frequency • amplitude • purity

Surrounding the primary auditory cortex

additional auditory areas that respond best to auditory "objects" • i.e. animal cries, machinery noises, music, etc.

DNA contains four "bases"

adenine, guanine, cytosine, and thymine

neurons make...

adjustments to maintain a nearly constant level of arousal • learning arouses your brain so after learning strengthens one set of synapses, others weaken and vice versa

olfactory stimuli

airborne chemicals • odorants (volatile substances with molecular weights of 15 to 300 daltons)

olfaction processes...

airborne chemicals that do not range along a single continuum

damage to MT aka V5

akinetopsia/motion blindness

Why have pain?

alert us when something is wrong

amygdala and pain

fear emotions

glutamate and pain

feel a little pain

during reproduction

female gives an X and the male gives an X or a Y which determines the gender of the offspring - Exceptions are possible but uncommon

Sensitive period

a period of time when experiences have a particularly strong and enduring influence • ends with the onset of certain chemicals that stabilize synapses and inhibit axonal sprouting

spina bifida

a portion of the neural tube has failed to become submerged properly and has grown on the outside of the fetus - nervous tissue must be put back in but children will never be the same/have all control - FOLIC ACID

Most cells in the primary auditory cortex have...

a preferred tone

different parts of the brain's visual system get information on a

need-to-know basis

Information from the auditory system...

passes through subcortical areas, axons cross over in the midbrain to enable each hemisphere of the forebrain to get most of its information from the opposite ear

Color constancy

the ability to recognize colors despite changing light • not easily explained by the trichromatic or opponent process theory

Color constancy lost when

the ability to recognize something as being the same color despite changes in lighting • lost if V4 is damaged

Blindsight

the ability to respond in limited ways to visual information without perceiving it consciously (insist they are "just guessing"

Motion Blindness

the ability to see objects but impairment at seeing whether they are moving or, if so, which direction and how fast - caused by damage to MT and MST - severe impairment - Saccades

effects of a stroke: edema

the accumulation of fluid • Increases pressure on the brain and the probability of additional strokes

three semicircular canals for...

the three planes • saggital (nodding) • transverse (cartwheeling) • horizontal (turning head)

horizontal cells

type of cell that receives input from receptors and delivers inhibitory input to bipolar cells

primary olfactory cortex

uncus located in the temporal lobe

damaged axons grow back...

under certain circumstances

where do we have trouble localizing low and medium frequency sounds?

underwater

Genes

units of heredity that maintain their structural identity from one generation to another; part of a chromosome composed of the double stranded molecule deoxyribonucleic acid (DNA) • Come in pairs aligned along chromosomes

c fibers

unmyelinated nerves that slowly transmit pain signals • free nerve endings

taste transduction: umami

unsalted meat flavor, savory - receptor linked to transducin & gustducin (just know that the receptor is therefore metabotropic but you don't have to memorize "transducin" and "gustducin") - T1R1 + T1R3 - receptor can sense sweet or umami but not both • so again, taste depends on which receptors AS WELL AS the actual pattern of receptor firing

necrosis

unwanted death; bad rotting

humans can recognize

up to 10,000 odorants (though we are bad at labeling the odors specifically; usually just know we have smelled it before)

foliate papillae

up to 1300 taste buds

circumvallate papillae

up to 250 taste buds

fungiform papillae

up to 8 taste buds (you don't have to memorize this information—just know that there are different types of "bumps" and they are associated with different numbers of taste buds)

Current theory: frequencies higher than 4000 Hz

use a mechanism like place theory → the highest frequency sounds vibrate hair cells near from base where the basilar membrane is still and the lower frequency sounds vibrate hair cells farther along the membrane where is gets floppier

evolutionary psychology is

useful but must be tested to find out if it's true

Transcutaneous electrical nerve stimulation

uses low-voltage electrical current for pain relief • may be because the electricity from the electrodes stimulates the nerves in an affected area and sends signals to the brain that block or "scramble" normal pain signals • the electrical stimulation of the nerves may help the body to produce natural painkillers called endorphins, which may block the perception of pain

cell bodies of Parvocellular Neurons

Smaller

Color sensitivity of Koniocellular Neurons

Some are

sometimes genes...

Sometimes several genes overlap on a stretch of chromosome - Means genetic outcome depends on parts of two or more chromosomes • Part of a chromosome alters the expression of a gene without coding for any protein of its own

ventral MST

motion of objects relative to its background

in the PNS

motor and sensory axons grow back toward the periphery at about 1 mm per day

taste nerves project to the...

nucleus of the tractus solitarius (NTS

touch on the tongue processed by...

somatosensory cortex

Binocular input

stimulation from both eyes

taste results from...

stimulation of taste buds

sensation

stimuli and the receptors; the biology, physics, mechanics of it

Chromosomes

strands of genes that come in pairs • Male mammals → have an unpaired X and Y chromosome with different genes

NTS

structure in the medulla From here, info branches out reaching the pons, the lateral hypothalamus, the amygdala, the ventral-posterior thalamus, and two areas of the cerebral cortex: - Somatosensory cortex → touch on the tongue - Insula → primary taste cortex

stronger pain releases...

substance P and CGRP

sweet receptor stimuli

sugars, but also some amino acids

ferret study: damage to

superior colliculus (visual), occipital lobe (visual), inferior colliculus (auditory) (in one, e.g., left hemisphere) - destroyed target location for retinal nerves; kept auditory cortex intact

penumbra

surrounding area (also affected in a few days after stroke; may die or just not function normally)

olfactory receptors survive...

survive on average just over a month - at that point a stem cell makes a new olfactory cell in the same place that does the same thing • axon must connect to the same place

olfaction, emotions, and sweat

sweat from different emotions evokes different emotions in others

if experience is deprived from one eye in a young kitten

synapses in the visual cortex become unresponsive or go to the other eye and the deprived eye becomes unresponsive • less severe in older animals but still occurs

mcclintock effect

synchronization of menstrual cycles when females have a lot of contact with each other • Robust effect in humans

visible "light" for humans is between the range of

380 and 760 nanometers (billionths of a meter).

blueprint hypothesis

A growing axon follows a path of cell surface molecules attracted by some chemicals and repelled by others in a process that steers the axons in the correct direction Pioneer growth cones interact with NCAMS along the path to the target. Subsequent neurons follow this "blazed trail" (fasciculation)

estradiol and pain

facilitates opiate activity - women have a lot of estradiol when pregnant

unilateral deafferentiation of upper limb

numb limb, didn't like to use but actually could but only used normal arm

bilateral deafferentation of upper limbs

numb limbs, used both arms because they were both numb

Primate ganglion cells fall into 3 categories

parvocellular, magnocellular, and koniocellular

Neurogenesis/Proliferation

the production of new cells; very rapid - symmetrical and asymmetrical division

Free nerve ending

(unmyelinated or thinly myelinated axons) - located Near base of hairs and elsewhere in skin - responds to Pain, warmth, cold

Merkel's disks in men and women

Women have same number packed into smaller area than men so can detect smaller differences

Ewald Hering

19th century physiologist who proposed the opponent-process theory

adaptation of taste buds

(that is, a taste bud can quickly adapt to a particular taste); the fatigue of receptors sensitive to sour tastes • makes buffets dangerous because we quickly tire of one taste but not another and will move on to eating something else just for the new taste so we overeat

vestibular sacs: utricle

(tilting of head)

most receptors are

"mixed," "polymodal"

neural darwinism

"survival of the fittest" with neurons; neurons that are stronger/better are kept, weaker neurons are eliminated we start with more neurons and synapses than we can keep and then a selection process keeps some synapses and rejects other • the most successful axons and combos survive; others fail

current theory: for low frequency sounds

( up to 100 Hz) the basilar membrane vibrates in synchrony with the sound waves

outer hair cells

(12,000) - cause auditory acuity; if damaged can still hear just not as well

inner hair cells

(3,500) - very important; if damaged can't hear

Tympanic membrane

(aka eardrum) a membrane that vibrates at the same frequency as the sound waves that strike it • Connects to 3 tiny bones (Ossicles)

bitter receptor stimuli

(alkaloids, often poisonous)

syphilis

(bacteria)—Tuskegee tragedy • eat up neural tissue • penicillin found to cure syphilis but researchers did not share this with the black participants because they wanted to study the effects of syphilis

contusion

(bruise) • due to broken blood vessels • usually contrecoup injury → the injury is in the opposite side as where brain got hit, because brain bangs against opposite side of skull

90% of visual information goes through what pathway

(from retina, to LGN, to V1)

purity

(how complex is the waveform—that is, how many different types of sine waves make up this sound wave?) - timbre

amplitude

(how high/low peaks/troughs go) → brightness - stimuli of the same wavelength, but different amplitudes will look differently to us (aka brighter or dimmer)

purity

(how much of the same wavelength you're getting) → saturation - the more similar wavelengths are combined, the more vivid the picture looks to us - if you have many different wavelengths, it's going to look whitish like sunlight • additive color mixing • subtractive color mixing

belt region of the auditory cortex

(just surrounds the core region) first level of association cortex

Strabismus

(lazy eye) a condition in which the eyes do not point in the same direction • generally, children with this condition attend to one eye and not the other

The result of an experience...

(maternal deprivation, cocaine exposure, new learning, etc.) in some way alters the chemical environment within a cell

Evidence that plasticity occurs during the lifetime

(not just prenatally or several years after birth) • Enriched environment vs. impoverished environment vs. over-enriched environment

Frequency

(number of peaks/troughs) - Short wavelength = high frequency - Long wavelength = low frequency

wavelength

(peak to peak difference) → color/hue - R O Y G B I V (moving from long wavelength to short wavelengths)

Non-taster, taster, supertaster

- # of fungiform papillae near tip of tongue affect how well you taste - those who are more insensitive to taste have slightly more body weight

Pain perception pathway is different

- C fibers - A-δ fibers

Deafness

- Conductive deafness/Middle-ear deafness - Nerve deafness/Inner-ear deafness

Congenital insensitivity to pain with anhidrosis

- Defect from birth - Also associated with Anhidrosis → proplems with temperature control

sensations of the somatosensory system include

- Discriminative touch - Deep pressure - Cold/warmth - Pain vs. itch. Vs. tickle - Position and movement of joints

fetal alcohol syndrome damages the brain in several ways...

- Early stages → interferes with neuron proliferation - Little later → impairs neuron migration and differentiation - Still later → impairs synaptic transmission - Kills neurons by apoptosis by inhibiting glutamate (which upregulates glutamate receptors) and enhancing GABA receptors - As alcohol leaves, upregulated glutamate receptors are overexcited bringing in excess sodium and calcium which poisons the mitochondria resulting in cell death

Various experiences can ...

- Ex → offspring of malnourished rats are genetically predisposed to conserve energy so if rich food becomes available later in life, they're more likely to become obese - Ex → rats with little maternal care early in life have altered gene expression in the hippocampus leading to high vulnerability to emotional stress reactions later in life

Brain adaptations in people blind since infancy

- Fingers → more sensitive, especially in those who read Braille because they are used more • Touch and sound actually activates the occipital cortex in blind people which is usually devoted to vision alone - Lips → no more sensitive because they are not used more

somatosensory receptors

- Free nerve ending - Hair-follicle receptors - Meissner's corpuscles - Pacinian corpuscles - Merkel's disks - Ruffini endings - Krause end bulbs

chemical coding

- Labeled-line principle - Across-fiber pattern principle

Transduction in the light: When light hits the photopigments...

- Light converts 11-cis-retinal in rhodopsin to all-trans-retinal thus releasing energy that... - activates the G-protein transducin which... - helps activate/create the enzyme cGMP phosphodiesterase which... - breaks down cGMP which was previously holding the Na+/Ca2+ channels open, closing the channels which... - leads to hyperpolarization which leads to... - decrease in glutamate secretion by rods which results in depolarization/disinhibition (aka almost excitation) of bipolar cells - The disinhibition of bipolar cells excites the ganglion cells through a receptor potential leading to a ganglion action potential

Who experiences color-blindness more and why?

- Males experience colorblindness more than females because they only need one defective X chromosome to experience colorblindness whereas females would need two defective X chromosomes to experience colorblindness • Tested for with special circles • Colorblind people do see some color they just don't see them the same as other people - Red-green color blind is most common - Can reach a pretty late age without realizing you're color blind because can interpret some color but in different hues

What type of vision do cones provide?

- Needs more light than cones; day vision - Provides visual acuity, responsible also for color vision

Two reasons why we never notice our blind spots

- Our brains fill in the gap; brain automatically likes to fill things in; takes info from around it, extrapolates and completes the image - Anything in the blind spot of one eye is visible to the other eye; blindspot of one eye is not in the same place as the other eye and both eyes are looking at the exact same thing except for the extremes

Inner ear

- Oval window - cochlea

Outer ear

- Pinna - External Auditory Canal

What type of vision do rods provide?

- Provides night vision as it does not need as much light as cones - Provides basic outlines of objects (contrast information)

What causes damage in closed head injuries

- Rotational forces that drive brain tissue against the inside of the skull - Blood clots that interrupt blood flow to the brain

cutaneous mechanoreceptors

- Ruffini's endings → sustained pressure - Meissner's corpuscle → changes in texture, slow vibrations - Pacinian corpuscle → deep pressure, fast vibrations - Merkel's disc → sustained touch and pressure - Free nerve endings

pain pathways

- Spinothalamic tract - Spinomesencephalic tract

Humans differ from chimpanzeesin two genes responsible for glucose transport:

- We have more of the protein that transports glucose into the brain - We have less of the protein that transports glucose into the muscles • Meaning we devotes more energy to our brains and less to physical strength

Sperry's eye rotation experiment

- Worked with newt/salamanders - Points in our visual field next to each other are organized next to each other in the brain - Cut the connection between the retinal area and the Tectum; then he twisted the eye around so that the retina was reversed

Color vision deficiency

- aka color blindness • except very few people actually see only in black and white - results when people with certain genes fail to develop one type of cone, or develop an abnormal type of cone

Properties of the stimulus (and how they influence perception)

- amplitude - frequency - purity

Functions of vestibular sensation

- balance; keeping head upright • in relation to gravity - adjustment of eye movements to compensate for the head movements

strabismus treatment

- treatment is to put a patch over the active eye and force attention to the other eye • works to some extent if begun early and if children comply with patch procedures - new treatment is to make kids play action video games which require the attention of both eyes

children born with cataracts not removed until age 7

- can see pictures but cannot understand them - had difficulty feeling a building block and pointing to a picture of it • a week later this skill improved • many other aspects of vision also improved - Motion perception and depth perception remained permanently impaired

tickle

- cannot tickle yourself like you cannot surprise yourself because it's expected - poorly understood sensation

V4

- color constancy (Retinex theory) • colors change in different lights - visual attention • certain things draw our attention

synesthesia fMRI cases studies

- different brain areas may be activated (than expected) - suggests some axons from one area have branches to other cortical regions (at least in some cases) OR you are on a hallucinogen! • are the brain areas involved cause or effect?

Reproduction

- egg survives 24-48 hours - sperm survives for 72 hours and in some cases 5-7 days • there is a pretty extended period of time during which you can get pregnant

pheromones in animals

- finding/attracting mate - identifying enemies/competition • male mice covered in female mouse urine will not be fought by other male mice

Where are neurotrophic factors from?

- glial cells, esp. astrocytes - target cells - incoming axons

pain chemicals

- glutamate - substance P

pioneer neurons

- growth cones (special parts of an immature axon or dendrite) • filopodia - needle like projections • lamellipodia - fanlike thin membrane - chemical signals in the environment that pulls neurons in the right directions; guided by chemokines - left by pioneer neurons?

taste transduction: sourness

- hydrogen ions (H+) with anions in acidic - close K+ channels resulting in action potential

a bipolar cell that receives excitation from a short wavelength cone (blue) and inhibition from long (red) and medium (green) wavelength cones

- increases its activity in response to short (blue) light and decreases in response to yellowish light - after prolonged exposure to blue light, the fatigued cells decreases its response - because a low level of response by that cell usually means yellow, you perceive yellow - see nothing at basal rate of firing - cannot see both blue and yellow at the same time with one neuron • different neurons can detect blue and yellow • because it takes opposing actions to convey message to the brain

meningitis --> encephalitis

- inflammation, infection of the meninges - flu-like symptoms - neck pain - if gets really inflamed, swelled causes pressure on the brain - can spread to the brain causing infection known as encephalitis

the earlier the training (aka therapy), the better

- just because someone isn't doing an ability doesn't mean they can't do it - is effort based though; more disfunction occurs when people feel tired, etc. • requires cognitive functioning

Phototransduction cascade

- light hits rhodopsin - breaks apart rhodopsin because the shape of rhodopsin is changing from 11-cis-retinal to all-trans-molecule - transducin is activated which activates cGMP phosphodiesterase which makes the channels close so glutamate is not released - hyperpolarization of rod decreases glutamate secretion, disinhibiting bipolar cells • bipolar have receptor potentials • ganglion cells have action potentials

Hair-follicle receptors

- located in Hair-covered skin - responds to Movements of hair

Krause end bulbs

- located in Mostly or entirely in hairless areas, perhaps including genitals - responds to uncertain

later mechanisms of recovery

- many surviving brain areas increase or reorganize their activity following damage, taking over the functions of the damaged area - OR they do not take over the functions of the damaged area, but compensate in other ways

omega-3 fatty acids during stroke

- may block apoptosis? - just is beneficial; don't know why

Taste transduction: salt

- metallic cation with small ion , e.g., NaCl - Na+ channels open because of Na in NaCla, causing action potential

when must tPA be administered

- must be administered within the first several hours because the cell is not going to last very long without oxygen and you're not going to get these cells back after they die so to prevent other deaths from happening, get rid of the clot

fetal alcohol syndrome (class)

- need a lot of alcohol; have mental abnormalities (smaller, less convoluted, asymmetrical brains [structure influences function]); have certain physical characteristics • Dose-response relationship

primary scents

- no primaries discovered • i.e. smell pizza but can't break it down into basic units that combine together to make the smell

Chemicals which increase pain

- nocebos - damaged tissue - strong, repeated stimulation

visual modules

- ocular dominance columns - orientation columns

Behavior in old age

- old people's memory and reasoning begin to fade - neurons lose some of their synapses and the remaining synapses change more slowly than before, etc. - exercise can help slow this - even the blood contains chemicals impairing cognitive function - BUT old people have more experiences • they do better than young people on certain kinds of questions • their brains become more active in some areas to compensate for loss of activity in others

vestibular sacs: saccule

- otolithic membrane (gelatinous membrane) with otoconia (little stones) • if membrane shifts due to gravitational force, little stones (otoconia) shift and pull on membrane which causes shearing of the hair cells and transduction to occur • otoconia can become misplaced and people can feel rattling/dizziness is head

Ventral stream receives

- parvocellular input = details - magnocellular input = movement - mixed input = brightness, color, & some shape

Pitch perception theories

- place theory - frequency theory - volley theory

stimuli of the somatosensory system

- pressure, mechanical deformation of skin - temperature - tissue damage/noxious stimuli - body position/movement of joints, tendons, muscles - lining of organs

MT/V5 (middle temporal cortex) and an adjacent region area MST (medial superior temporal cortex)

- receive input from the magnocellular path which detects overall patterns, including movement over large areas but is color insensitive - allow you to distinguish between the result of eye movements and the results of object movements

3 long fluid-filled tunnels

- scala vestibule - scala media - scala tympani

pregnancy tests

- use a pregnancy test after your missed period • measure HCG which is released from the embryo so you must be far along enough in your pregnancy to have an embryo and for HCG to accumulate

receptive field of End-stopped or hypercomplex cells

- size: larges of the V1 cells - rectangular - excitatory/inhibitory zones

itch pathways are...

- slow to respond and transmit at an unusually slow velocity - useful because it directs you to scratch the itchy area and remove whatever is irritating your skin

Bottom-up processing

- spots of light detected by photoreceptors → lines detected by cells in V1 → location of object by parietal lobe & form of object by temporal lobe - BUT: no "grandmother cell" • binding problem again

Pain modulation pathway: PNS trigger

- stimulate A beta fibers by rubbing skin around an injury but no the actual information → transmission neurons • will help interneurons to release interneurons to block the transmission of pain information - alpha beta fibers which transmit touch information

timbre

- timbre (quality) is how you can tell the difference between different types of sounds, e.g., violin vs. voice - tone quality or tone complexity

Herpes (virus)

- transmitted through Skin to skin contact even when nothing is visible - No affinity for eating neural tissue, but it hides out in the nervous system and travels out through the PNS to cause an outbreak • No cure - highly contagious

Retinal design does not interfere with visual acuity because the cells/neurons in front of the photoreceptors are

- transparent - small and unmyelinated in front of the fovea (dead center of the eye where cells move away to give a clear passageway) - dispersed away from the fovea

vestibular sacs

- utricle - saccule - depolarization, no action potentials

color vision

- visible lights consists of electromagnetic radiation within the range from less than 400 nm to more than 700 nm - ROYGBV • shortest visible wavelengths → violet • longest visible wavelengths → red - other species can see other wavelengths such as UV rays

3 kinds of evidence that determine heritability

1. Compare monozygotic ("from one egg") twins and dizygotic ("from two eggs") twins 2. Studies of adopted children 3. Identify specific genes linked to some behavior

two explanations for Blindsight

1. small islands of healthy tissue remain within an otherwise damaged visual cortex, not large enough to provide conscious perception but enough to support limited visual functions 2. the thalamus sends visual input to several other brain areas outside V1 including parts of the temporal cortex; after V1 damage, the connections to these other areas strengthen enough to produce certain kinds of experience despite a lack of conscious visual perceptions

Humans hear between

15-20 and 20,000 Hz • children hear higher frequencies • ability to perceive high frequencies decreases with age and exposure to loud noises

proteins consist of

20 amino acids and the order of those amino acids depends on the order of DNA and RNA bases

start of 4th week of fetal growth

3 swellings (forebrain, midbrain, hindbrain, then spinal cord)

Info from receptors below the head enters the spinal cord and passes toward the brain through

31 spinal nerves

7th week of fetal growth

5 swellings: • telencephalon (cerebral hemispheres) • diencephalon • mesencephalon (midbrain) • metencephalon • myelencephalon (medulla) • spinal cord

Continuous flash suppression

50% of people presented with visual stimuli in one eye while focusing on flashing stimuli with the other who did not have time to consciously perceive the not flashing stimuli, they correctly guessed where it was in their visual field

the first muscle movements occur at age...

7.5 week to stretch the muscles • spontaneous activity in the spinal cord drives all muscle functions at that age • sensory organs are not yet functional

topographic gradient hypothesis

According to this hypothesis, axons growing from one topographic surface (ex-the retina) to another (ex-the optic tectum) are guided to specific targets that are arranged on the terminal surface in the same way as the axons cell bodies are arranged on the original surrface. Growing axons are guided to their destinations by two intersecting signal gradients ( ex- an anterior-posterior gradient and a medial-lateral gradient.) • neurons are arranged in a particular way in relation to each other, on a coordinate system resulting from (at least) two intersecting chemical gradients. Thus, axons from these neurons form synapses which are arranged in the same way. • dorsal-ventral (top to bottom) gradient of protein muscles • medial to lateral (side to side) gradient of protein molecules (in retina) • third-dimensional layer • these two or three gradients are imposed and provide an individual set of coordinates for each • axons retain the spatial relationships based on two intersecting molecular gradients in the new location

Neuronal fatigue

After staring at one color in one location long enough, you fatigue that response and tend to swing to the opposite

What can interfere with receiving neurotrophic factors?

Alcohol - CNS depressant; if neurons are depressed, they are not stimulated meaning they're less likely to connect/active and exchange neurotrophic factors

insertional plaque

At an insertional plaque is an ion channel.

Transduction in the dark: In the dark when rod is at rest...

At rest, the rod continuously releases glutamate which acts as an inhibitor (NOT exciter like normal) and is slightly depolarization (-40mV) - cGMP holds cation channels open which allows for Na+ and Ca2+ inflow - rhodopsin (11-cis retinal + opsin) is found in the rod at rest - Na+ & Ca2+ cation channels are kept open via cGMP, allowing inflow into the rods, causing partial depolarization - Rods continuously releasing glutamate which, in this case, has an inhibitory effect on the bipolar neurons - Because bipolar neurons are inhibited, they cannot send receptor potentials to ganglion cells so no ganglion action potentials will occur

Complex Cell receptive field

BUT no opponent fashion receptive field; all areas seem to be receptive - size: simple cell < complex cell < hypercomplex cell - rectangular - no fixed excitatory/inhibitory zones

Simple cells Receptive field

Bar- or edge-shaped, with fixed excitatory and inhibitory zones

Complex Cell Receptive field

Bar- or edge-shaped, without fixed excitatory or inhibitory zones

Before Mendel, it was thought that inheritance was...

Before Mendel, it was thought that inheritance was a blending process in which the properties of the egg and the sperm mixed like paint

biologists infer evolution from

Biologists infer evolution from fossils and comparisons of living species

neurons/axons are guided by...

Cell Adhesion Molecules (CAMs) such as immunoglobulins, as well as neurotrophic factors.

Where are cones concentrated?

Concentrated in center of retina; Fovea only contains cones

Where are rods concentrated?

Concentrated right outside the fovea; that is, more in the periphery; extreme periphery of retina does not have photoreceptors

Foveal Vision Receptors

Cones

When are cones super activated

Cones are super activated when detects favorite wavelength; still responds a little bit to other wavelengths but not as much as to its favor wavelength

How do the cones signal to the bipolar neuron that it detects blue?

Cones have increased activity at blue cone and decreased activity at green and red cones

How do the cones signal to the bipolar neuron that it sees yellow?

Cones have increased activity at green and red cones and decreased activity at blue

Parvocellular Neurons Respond to

Detailed analysis of stationary objects

Foveal Vision Convergence of input

Each ganglion cell excited by a single cone

Peripheral Vision Convergence of input

Each ganglion cell excited by many receptors

mTOR

FACILITATES axon regrowth; unsure why

Ferret Experiment: birth

Ferrets are born so immature that their optic nerves (from the eyes) have not yet reached the thalamus

Brain reorganization can go too far, especially in musicians

Focal hand dystonia

Cone convergence

Fovea: cones have a 1:1 convergence onto bipolar cells (no information is lost as it is past; very acute vision giving you details)

Foveal Vision Color vision

Good (many cones)

Foveal Vision Sensitivity to detail

Good detail vision because each cone's own ganglion cell sends a message to the brain

acid receptor stimuli

H+ (in acidic solution)

Retinal location of Parvocellular Neurons

In and near fovea

morphine and other pain-decreasing measures and itch

Morphine and other measures that tend to decrease pain tend to increase itch • means itch is not a type of pain

Law of Specific Nerve Energies

Johannes Muller's (1838) insight that whatever excites a particular nerve establishes a special kind of energy unique to that nerve • the brain somehow interprets the action potentials from the auditory nerve as sounds, those from the olfactory nerve as odors, and so forth • Ex → you see flashes of light when you rub your eyes because you have mechanically excited the visual receptors in your eyes

LGN converges they info onto...

LGN converges their information onto fewer simple cells; LGN neurons converge their data onto one V1 cortical simple cell

Receptive fields of Magnocellular Neurons

Larger

cell bodies of Magnocellular Neurons

Larger

What type of cones are most abundant?

Long (red) and medium (green) wavelength cones are far more abundant than short wavelength (blue) cones and are distributed more haphazardly across the retina whereas the short cones are distributed about evenly • Variations, though, produce only small differences in people's color perception

two especially important areas for motion perception

MT/V5 (middle temporal cortex) and an adjacent region area MST (medial superior temporal cortex)

Punch-drunk Syndrome aka Pugilistic Parkinson's syndrome

Mohammad Ali → has symptoms that look like Parkinson's and cognitive malfunctions as well; got this from too many concussions from boxing

Receptive fields of Koniocellular Neurons

Mostly small, variable

Magnocellular Neurons Respond to

Movements and broad outlines of shape

receptive field of simple cells

NO longer circular - size: LGN < simple cell < complex cell -rectangular - fixed excitatory/inhibitory zones similar to bipolar and ganglion

what is special about the olfactory system?

NOT routed through the thalamus - only sense not routed through the thalamus

salty receptor stimuli

NaCl (cation with anion)

How does the bipolar neuron then tell the brain that it sees blue?

Neuron is stimulated to show it sees blue

olfactory pathway II

Olfactory cilia → thru cribiform plate → ipsilateral olfactory bulb → pyriform cortex & entorhinal cortex (where the primary cortex for the olfactory system lies) & amygdala & hypothalamus & hippocampus & orbitorfrontal cortex

Cone sensitivity

Not as sensitive = 10s or 100s of photons needed; can quickly adapt to the dark but cannot adapt as thoroughly to dim situations (as compared with rods) (may miss some photons but know exactly where photon came from)

ferret study: test

Now do a test to answer your original question about the temporal cortex: Flash the red light in the right visual field so that the left (rewired) hemisphere see it. Which way with the ferret turn?

new neurons later in life: now know

Now know there are exceptions to this thought • Olfactory receptors in rodents • Hippocampal neurons in rodents

What does order of the bases determine?

Order of bases determines the order of corresponding bases along an RNA molecule → adenine, guanine, cytosine, and uracil

Divisions of the ear

Outer, middle, and inner ear

How do people communication with sound?

People communicate emotion by alterations in pitch, loudness, and timbre - prosody

Common misunderstanding about evolution

People have not stopped evolving even though we are no longer subject to survival of the fittest because people who have more children than others will still spread their genes more

transduction pathway

Photoreceptors → horizontal cells → bipolar cells → amacrine cells → ganglion cells → optic disk → optic chiasm → dorsal lateral geniculate nucleus (thalamus) → primary visual cortex (area V1 in the occipital lobe)

Peripheral Vision Color vision

Poor (few cones)

Peripheral Vision Sensitivity to detail

Poor detail vision because many receptors converge their input onto a given ganglion cell

Peripheral Vision Receptors

Proportion of rods increases toward periphery

simple cells respond to

Respond more to horizontal and vertical orientations than to diagonal ones

respond to pheromones...

Respond to pheromones in very low concentrations continuously even after prolonged periods of time

Peripheral Vision Brightness sensitivity

Responds well to dim light; poor for distinguishing among bright lights

cell bodies of Koniocellular Neurons

Small

Receptive fields of Parvocellular Neurons

Smaller

Where do rods converge their information?

Rods converge their info onto fewer bipolar cells (sometimes information gets lost so rods are not in charge of acute vision, details but are super sensitive)

End-stopped or hypercomplex cells Receptive field

Same as complex cell but with strong inhibitory zone at one end

herpes in men vs women

Seen in men on the skin but in women it often occurs on the cervix inside of them

2. Studies of adopted children

Similarities between adopted child and genetic mother could indicate genetic influences and prenatal environment

Sperry's chemoaffinity hypothesis

Sperry's hypothesis that each postsynaptic surface in the nervous system releases a specific chemical label and that each growing axon is attracted by the label to its postsynaptic target during both neural development and regeneration. This hypothesis does not account for the fact that some axons follow exactly the same circuitous route to reach their target rather than growing directly to it. - each post-synaptic membrane releases a chemical which attracts the growing axon. - neurons make connections with their targets based on interactions with specific molecular markers[1] and, therefore, that the initial wiring diagram of an organism is (indirectly) determined by its genotype - axons differentially recognize chemical signals produced by target matching cells. In this way, neurons connect only to specific cells or groups of cells.

Why is drinking alcohol during the early adolescent years also an issue?

Synaptogenesis - occurs during the early adolescent years • If alcohol is introduced to suppress CNS activity, synaptogenesis does not occur so neurons will die • Marijuana during adolescent years can cause a 10 point drop in IQ

taste transduction: sweet

T1R2 + T1R3 • big cats don't have sweet receptors

problem with tPA

TOXIC to brain cells → means clot in blood vessel is fine because BBB will prevent tPA from entering brain → but can't be used when attacking brain cells/hemorrhage - tPA would worsen hemorrhage because in thins blood which encourages bleeding

cilia

The cilia (hairs) exist in bundles where each cilium is tethered to its neighbor by a filament called a tip link. The cilia in a bundle are arranged in increasing length, from shortest to longest. The tip links join the tip of one cilium to the side of its neighbor, at a region called an insertional plaque

Optic Radiations

The geniculo-calcarine tract (also known as the optic radiation) is a collection of axons from relay neurons in the lateral geniculate nucleus of the thalamus carrying visual information to the visual cortex (also called striate cortex) along the calcarine fissure. There is one such tract on each side of the brain

Rita Levi-Montalcini

discovered that the muscles do not determine how many axons form, but how many survive

How does the nervous system determine the color and brightness of the light?

The nervous system determines the color and brightness of the light by comparing the responses of different types of cones

Proprioception

The unconscious perception of movement and spatial orientation arising from stimuli within the body itself. In humans, these stimuli are detected by nerves within the body itself, as well as by the semicircular canals of the inner ear - Mechanoreceptors • Muscle spindle receptors, Ruffini Corpuscles, Merkel cells, etc

Used to think genes had...

discrete locations → many genes do not have the discrete locations we once imagined

Retinal location of Magnocellular Neurons

Through the retina

Retinal location of Koniocellular Neurons

Throughout the retina

Middle Ear

Tympanic membrane

Simple cells location

V1

Complex Cell location

V1 and V2

End-stopped or hypercomplex cells location

V1 and V2

Microdeltion or microduplication

When happens to a tiny part - May explain schizophrenia

scala vestibule

has oval window on one end which the stapes bangs on moving fluid around; the upper bony passage of the cochlea

Rod sensitivity

Very sensitive = 1 photon is enough; can more thoroughly adapt to darkness May not know exactly where light came from

1. Compare monozygotic ("from one egg") twins and dizygotic ("from two eggs") twins

When monozygotic twins act similarly, it is likely due to genetics but it could be environment because people who look alike are often treated alike

scala media

Within the scala media → lie the auditory receptors on the basilar membrane; Organ of Corti located here

Will the nerves go back to the right place supporting the chemoaffinity hypothesis?

YES; doesn't matter where you start off, you're going to move up the chemical gradient and still find the correct space

Color sensitivity of Parvocellular Neurons

Yes

3. Identify specific genes linked to some behavior

\Risks reporting a false association → should not trust until replicated in other populations

Astigmatism

a blurring of vision lines in one direction caused by an asymmetric curvature of the eyes - occurs in 70% of infants - normal growth reduces the prevalence of astigmatism to about 10% in 4-year-old children

cochlea

a bony, spiral-shaped, fluid-filled tube in the inner ear through which sound waves travel and trigger nerve impulses; • 3 long fluid-filled tunnels

Simple cell

a cell with a bar-shaped or edge-shaped receptive field with fixed excitatory and inhibitory zones • The more light shines in the excitatory zone the more the cell responds and vice versa

Evolution

a change over generations in the frequencies of various genes in a population

Capsaicin and pain

a chemical in hot peppers that stimulates receptors for heat - Produces burning when rubbed on painful area followed by a longer period of decreased pain - Causes an excessive buildup of calcium in heat receptors and damages the mitochondria in those cells rendering them nonfunctional for a time - depletes substance P • causes receptors to deplete supply of substance p by causing a burning pain for a bit which is then followed by period of decreased/no pain because there is no substance p

neurotrophin

a chemical that promotes the survival and activity of neurons - The brain also responds to brain-derived neurotrophic factors (BDNF → important in depression) and several other neurotrophins - Essential for growth of axons and dendrites, formation of new synapses, and learning but do NOT control survival of neurons • Neurons may require input from other neurons to survive

itch

has special receptors and special spinal cord pathways

fetal alcohol syndrome

a condition marked by hyperactivity, impulsiveness, difficulty maintaining attention, varying degrees of mental retardation, motor problems, heart defects, and facial abnormalities caused by mothers who drink heavily during pregnancy • Thinning of the cerebral cortex that persists into adulthood • Directly correlated with amount mother drinks

phantom limb

a continuing sensation of an amputated body part • may be tingle or pain; occasional to constant; last days, week, or lifetime • develop when the relevant portion of the somatosensory cortex reorganizes and becomes responsive to alternative inputs - Ex → Axons representing the effects come to activate the cortical area previously devoted to an amputated hand • A touch on the face now produces a facial sensation but also a sensation in the phantom hand

Many older people have...

a decrease in their inhibitory neurotransmitters in the auditory portions of the brains → have trouble suppressing the irrelevant sounds and attending to important ones

tissue plasminogen activator (tPA)

a drug that breaks up blood clots - patients must receive 4.5 hours after a stroke but most stroke victims don't go to the hospital fast enough - could make hemorrhage worse if that's what's going on, but ischemia is so much more common that they risk it

how genes affect behavior

a gene that does something does not directly make it happen → produces a protein that makes it happen or produces a protein that under certain circumstances increases the probability of alcoholism

Dominant gene

a gene that shows a strong effect in either the homozygous or heterozygous condition o Ex → brown eyes; high sensitivity for PTC

Recessive gene

a gene that shows its effects on in the homozygous condition o Ex → blue eyes; low sensitivity for PTC

Phenylketonuria (PKU)

a genetic inability to metabolize the amino acid phenylalanine - If PKU is not treated → phenylalanine accumulates to toxic levels, impairing brain development and leaving a child mentally retarded, restless, and irritable - ~ 1% of Europeans carry this recessive gene (*Jewish?) - Can be modified by environmental interventions → diet low in phenylalanine • Diet is difficult to stick to and must be maintained for life

Mutation

a heritable change in a DNA molecules • Ex → changing one base in DNA to any of the other three types means that the mutant gene will code for protein with a different amino acid at one location in the molecule • Rarely advantageous

Dermatome

a limited area of the body which a certain spinal nerve innervates • Overlaps similar dermatomes 1/3 to 1/2

Oval window

a membrane of the inner ear which vibrates due to movements of the stirrup • The vibrations of the oval window occur at the entrance of the scala vestibule which sets into motion the fluid of the cochlea

homeobox genes

a series of genes that regulate the expression of other genes and control the start of anatomical development (i.e. front vs. rear) - All share a large sequence of DNA bases, a mutation of which could cause mental retardation and physical deformities

Volley principle: for slightly higher frequencies

a set of neurons may take turns firing, to represent the frequency of the soundwave (so now, a neuron may not fire at every peak, but may fire at every fourth peak, while other neurons are firing at the 2nd peak, the 3rd peak, etc.)

Vomeronasal organ (VNO)

a set of receptors located near, but separate from the olfactory receptors • Respond only to pheromones

closed head injury

a sharp blow to the head that does not puncture the brain (young people) - Repeated and severe head injuries are the most severe - contusion - concussion

suggests that practicing a skill

a skill reorganizes the brain to maximize the performance of that skill - OR that brain characteristics that were present from birth attract people to one occupation or another • not always adaptive → focal hand dystonia & writer's cramp

ischemia

a stroke that is the result of a blood clot or other obstruction in an artery - Neurons deprived of blood lose much of their oxygen and glucose supplies - e.g., atherosclerosis (blood vessel clogged with build up [cholesterol, other particles] which causes a blood clot over the plaque) → embolism (pieces of the blood clot/plaque fall off and travel through the blood stream) • problem when it gets to a small blood vessel because it may get lodged there and blood stops moving • brain cells can only live without oxygen for ~3 minutes

Hippocampal neurons in rodents

a supply of new neurons keep the hippocampus "young" for learning new tasks

Stroke

a temporary interruption of normal blood flow to a brain area (aka cerebrovascular accident); cerebrovascular accident → problem at much older age; same process that causes stroke is the same as what causes cardiovascular disease; differences → CVS results in the heart damage; stroke results in neuron damage • 3rd common cause of death

Lamarckian evolution

a theory that evolution occurs through the inheritance of acquired characteristics - common misunderstanding of evolution

fovea

a tiny area in the central portion of the retina packed tightly with receptors specialized for acute, detailed vision • almost devoid of bloods vessels and ganglion cells axons allowing for nearly unimpeded vision • Each receptor in the fovea connects to a single bipolar cells which connects to a single ganglion cell with an axon to the brain

Those deaf in one ear...

adapt to sound localization by recognizing louder sounds are nearer their intact ear and softer sounds are nearer their deaf ear

parietal cortex

location of objects, esp. in relation to our body

prefrontal cortex and pain

logic to avoid pain next time

Stereoscopic depth perception

achieved by comparing the inputs from the two eyes • requires the brain to detect retinal disparity

sour receptors detect...

acids

all cells have the same DNA as all other cells but

activity can vary→ except RBC which have no DNA

conscious visual perception requires

activity in area V1

viewing a complex moving pattern activates brain areas among

all four lobes of the cerebral cortex

taste info from the posterior tongue and the throat travels...

along branches of the 9th and 10th cranial nerve

Group selection

altruistic groups thrive better than less cooperative ones - True but problematic → even if cooperative groups do well, an uncooperative individual in the group gains an advantage - Does work when cooperative individuals do most of their interactions with one another • Works especially well for humans because we can punish or expel uncooperative humans

Bipolar cells make synapses onto

amacrine cells and ganglion cells

Altruistic behavior

an action that benefits someone other than the actor; helping a nonrelative without immediately getting something in return • Genes that encourage altruism help other individuals survive and spread their genes → humans certainly have this (donating to charities, helping others, etc.)

Lens/Ciliary Muscle and Ligaments

an adjustable structure that focuses the light to the back of the eye • when lense is curved incorrectly, nearsightedness or farsightedness

receptive field

an area in a visual space that excites or inhibits a receptor cell

Association Areas

extra striate cortex ventral pathway dorsal pathway

Visual agnosia

an inability to recognize objects despite otherwise satisfactory vision • usually results from damage in the temporal cortex • can describe the object but not name it

heterozygous

an individual with an unmatched pair of genes

nocebos

an inert substance or form of therapy that creates harmful effects in a patient - opposite of placebo

Pupil

an opening in the center of the iris where light enters

things in middle are

analyzed by both temporal hemi retinal areas

low frequency sounds are more...

anterior & lateral

anencephaly

anterior portion of the neural tube has not submerged properly; the brain is exposed to the environment - babies are either miscarried or stillborn

difference in time of arrival at the two ears

any frequency, but especially lower frequencies • auditory nerves are already slightly depolarized so that they can react super-sensitively to when sound starts and stop • a sound to the right will arrives at the right ear first and the left ear slightly later

human brains

are different in many ways that aren't understood well - Human have many genes active in brain development that do not occur in other mammals → genes exert their effects especially in the prefrontal cortex (memory, attention, speech, decision making)

Olfactory receptors in rodents

are exposed to the outside world (i.e. toxic chemicals) and have a ½ life of only 90 days - Stem cells in the nose remain immature throughout life and periodically divide so that one remains immature and one differentiates to replace a dying olfactory receptor which grows its axon backwards

Nontasters

are less sensitive than average to other tastes

blind spot

area at the back of the retina where the optic nerve exits; it is devoid of receptors meaning all light that hits this area is not converted into neural signals so it can't be "seen"

Aqueous Chamber

area behind the cornea before the pupil filled with fluid

Secondary visual cortex (area V2)

area of the brain which processes the information further and transmits it to additional areas

behavior changes as..

as people grow older

the ocular dominance & orientation columns are

at 90 degrees to each other

pain pathway decussates...

at the level of the spinal cord

what is also a mechanical sense?

audition is also one because the hair cells move but it is more complex and important so considered separately

Music training usually beginning in childhood

auditory cortexes of musicians were twice as strong as those in nonmusicians; temporal cortex of the right hemisphere is 30% larger; gray matter was thicker in several cortical areas of musicians and thinner in others

People vary substantially in the number of

axons in their optic nerve and the size of their visual cortex due to genes • Ex → top tennis and squash players have faster visual responses to stimuli

The sympathetic nervous system sends....

axons to muscles and glands forming far more neurons than it needs

not all RNA codes for proteins

many RNA molecules perform regulatory functions

newborn babies are predisposed to pay more attention to

faces than other stationary displays • this face simply must have the eyes on top to garner attention, but does not have to be realistic

in humans, pheromones...

can alter skin temperature & other ANS responses (e.g., hypothalamic activity)

Retina

back surface of the eye lined with visual receptors; several layers of neurons deep in the back of the eye; basically piece of brain in eye - light from the left side of the world strikes the right half of the retina and vice verse - light from above strikes the bottom half, and vice versa • this does not pose a problem because the visual system does not duplicate images but codes various kinds of neuronal activity

Pacinian corpuscles

bare ending surrounded by other cells that modify its function • Onion-like structure that provides mechanical support to resist gradual or constant pressure → insulates nerve against most stimuli - located in Both hairy and hairless skin

An axon that does not receive NGF...

because it does not connect to the right postsynaptic cell by a certain age degenerates/dies - Apoptosis: programmed mechanism of cell death • NGF cancels apoptosis

deaf people and supersensitivity

become more sensitive to touch and vision which become activated in the auditory (temporal) cortex

as visual info goes from the simple cells to the complex cells and then to other brain areas, the receptive fields

become more specialized

almost all survivors of brain damage show

behavioral recovery to some degree, some of which relies on the growth of new branches of axons and dendrites

new neurons later in life: late 1800s

believed all neurons were formed in embryological development or early infancy at the latest • beyond this, neurons could be modified but not created anew

Paul Weiss (1924)

believed axons grew attaching to muscles at random and then sent messages tuned to different muscles, like radios • this approach was WRONG • axons actually find the correct muscle they're supposed to control

Collateral sprouting

beneficial; neurons around the damaged one literally sprout out new branches like dendrites) • mTOR increases sprouting - kids have more mTOR than adults • neurotrophins - surviving cells • related axons • unrelated axons

Humans have

bigger and better brains than other species allowing us to create new solutions to problems we have never faced

for cats and primates, most neurons in the visual cortex receive

binocular input

enzymes

biological catalysts that regulate chemical reactions in the body

Opposite of motion blindness can occur

blind except for the ability to detect which direction something is moving; see motion without seeing the objects that are moving • even after extensive damage to V1, area MT which gets some input directly from the lateral geniculate nucleus of the thalamus could still get enough input to permit motion detection

NSAIDs and pain

blocks prostaglandins - Ibuprofen, motrin

Vision theory today

both are correct; depends on level we're talking about - photoreceptors → trichromatic theory • cones - bipolar cells onward → opponent process theory • how rest of neurons process color information

relative firing

brain cannot tell the color of light by just looking at one cone because all cones are activated by white light so brain must look at relative activity to see what color it is (all cones are activated means white/sunlight that has all color; recognizes one cone is active, two others aren't then its one color

chorda tympani

branch of the seventh cranial (facial) nerve

prefrontal cortex responds...

briefly to light, sound, touch but responds continuously as long as pain lasts

decrease stimulation during stroke by...

by blocking glutamate synapse or blocking calcium entry (glutamate inhibitor) - too much glutamate release causing overactivation; the idea is that inhibiting glutamate will decrease overactivation

frequency theory: change pitch

by changing frequency of action potential firing

frequency theory: change loudness

by changing number of neurons that are firing action potentials

effects of a stroke

can be barely noticeable to fatal - Edema - Impair the sodium-potassium pump - Combo of edema and excess sodium

pluripotent cells

can become still many things but now limited to each layer - the cells also differentiate, such that eventually, the embryo is composed of an endoderm, mesoderm, & ectoderm. - These cells are specialized - Can become endoderm, mesoderm, or ectoderm cells but NOT an entire organism as totipotent cells can become

otoliths

calcium carbonate particles that push against different sets of hair cells when the head tilts in different directions

mesoderm

can only become kidneys, reproductive organs, bones, muscles, vascular system

ectoderm

can only become skin, nervous system

endoderm

can only intestines, the lungs, & liver • due to differentiation

over-enriched environment

cannot bypass biological limitations that an organism might have • Over stimulation of premature infants can cause bleeding of brain

bodies

cause a stronger reaction than other stimuli in an area close the face area (part of the fusiform gyrus)

faces

cause a stronger reaction than other stimuli in part of the fusiform gyrus of the inferior temporal cortex, especially in the right hemisphere

1. A cut in the nervous system causes

causes a scar to form causing a mechanical barrier - Researchers developed a way to build a protein bridge, providing a path for axons to regenerate across a scar-filled gap

pictures of places

causes a strong response in the parahippocampal cortex (next to the hippocampus)

reliving recent break-ups

causes activity in the cingulate cortex and sensory areas responsive to physical pain

acceleration of the head

causes jellylike substance to push against the hair cells initiated action potentials

Adding Acetyl groups (COCH3) to the histone tail near a gene

causes the histones to loosen their grip on the DNA, and facilitates the expression of a gene

Removal of acetyl groups

causes the histones to tighten their grip on the DNA turning the gene off

behavioral deficits after stroke may be due to

cell death, as described above but also... - Diaschisis

in apoptosis...

cell will package up all bad chemicals neatly, so they have a good death and don't irritate nearby cells with chemicals - only problematic during stroke

what cells are affected during stroke?

cells in the acute area of stroke, as well as penumbra...

Complex cells

cells located in areas V1 and V2 that do not respond to the exact location of a stimulus but to a pattern of light in a particular orientation anywhere within its large receptive field

End-stopped or hypercomplex cells

cells that resemble complex cells except that they have a strong inhibitory area at one end of their bar-shaped receptive field - orientation & movement/direction preference - inhibitory zone (lines of certain lengths) • looking for end zone

itch axons activate...

certain neurons in the spinal cord that produce a chemical called gastrin-releasing peptide - blocking this peptide can decreases scratching in mice

Capsaicin

chemical found in hot peppers that stimulated the receptors for painful heat

taste stimuli

chemicals • molecules dissolved in saliva • primary tastes & molecules

Photopigments

chemicals in both rods and cones that release energy when struck by light

Cannabinoids and pain

chemicals related to marijuana that can also block certain types of pain • Unlike opiates, act mainly in the periphery of the body rather than in the CNS and work in different ways, managing pain that maybe opioids can't

pheromones

chemicals released by an animal that affect the behavior of other members of the same species

immunoglobulins and chemokines

chemicals that guide neuron migration • Deficit in these chemicals leads to impaired migration, decreased brain size, decreased axon growth and mental retardation

deafferentiation monkeys

choose not to use a Deafferented limb unless forced to - reflects that sometimes a person or animal with brain damage appears to be unable to use something but is simply not trying

hair cells have...

cilia (more fine hair cells)

brain damage in young people

closed head injury

receptive fields bipolar cells

co-centric receptive fields

cytochrome oxidase blobs

color analysis

Iris

colored muscular ring around the pupil that adjusts the pupil's size - different colored irises → genetic variation because color affects how much light is absorbed giving you clearer vision

orientation columns

columns of cells that each prefer a different orientation of line

ocular dominance columns

columns of cells that each prefer the same type of column; each cell prefers the same line orientation but receive different percentages of input from each eye

flavor

combination of taste and smell

determining the direction and distance of a sounds requires

comparing the responses of the two ears

Inferior temporal cortex

complex shape analysis - shape constancy

Photopigments consist of

consist of a derivative of vitamin a (11-cis-retinal)bound to proteins called opsins which modify the photopigments sensitivity to different wavelengths of light

cells that respond to the sight of a particular object

continue responding about the same way despite changes in its position, size, and angle - these cells learn to recognize all the different views as being the same object

auditory pathway connections

contralateral & ipsilateral connections but predominantly contralateral • 8th cranial nerve → ipsilateral cochlear nuclei (medulla) then splits apart....

Lateral inhibition provides...

contrast → the brain will be able to loudly hear the cells that has a message for the brain and the other cells will quiet

taste and smell axons...

converge onto many of the same cells in an area called the endopiriform cortex

prosody

conveying emotional information by tone of voice

why is olfaction critical

critical for finding food and avoiding danger • much of flavor is smell

the brain is very adept at

detecting biological motion

vestibular sensation

detects the position and movement of the head

The various areas of the somatosensory thalamus send their impulses to

different areas of the primary somatosensory cortex located in the parietal lobe • various aspects of body sensation remain mostly separate all the way to the cortex

different odors

different pattern of glomeruli (& thus, olfactory cortex) activation

taste: different chemicals excite...

different receptors and produce different rhythms of action potentials per unit of time

LGN (lateral geniculate nucleus of the thalamus)

different types of ganglion cells project to different parts of the thalamus

damage to the Inferior temporal cortex

damage = visual agnosia, prosopagnosia, lack of shape constancy • if only damage fusiform gyrus of the temporal cortex then you have not knowing instances of a particular category (i.e. can recognize a face is coming toward you but not which face) → prosopagnosia - causes objects to no longer be constant at they are moving away from you; they begin to look like different shapes

Motion deafness

damage in the superior temporal cortex causes people to be able to hear sounds but be unable to detect that a source of sound is moving

damage to the dorsal stream

damage to the dorsal stream means people can see objects but they don't integrate their vision well with their arm and leg movements

within a mature mammalian brain or spinal cord

damaged axons do not regenerate, or do so only slightly 1. cut 2. pull apart 3. glia

adult women react to sweaty men as...

danger signals - secrete cortisol

insensitivity to pain is...

dangerous but controlling it is adaptive

Nerve deafness/Inner-ear deafness

deafness causes by damage to the cochlea, the hair cells, or the auditory nerve; damage to cochlea/hair cells • can be inherited, result from disease, or exposure to loud noises • nerve damage is permanent • may use cochlear implant to stimulate nerves with sound • often produces tinnitus

Diaschisis and what can help

decreased activity of surviving neurons after damage to other neurons • if Diaschisis contributes to behavioral deficits following brain damage, then increased stimulation should help

prolonged exposure to a given visual feature

decreases sensitivity to that feature, as if it fatigued relevant detectors

hypnotic suggestion to feel no pain...

decreases the responses in the cingulate cortex without much effect on the somatosensory cortex - still feels the pain but reacts with emotional indifference

touch pathway decussates...

decussates at the level of the medulla (see above)

Auditory response to one sound is...

delayed and may partially overlap with another sound response

When one of its neurons forms a synapse onto a muscle...

delivers NGF

Gregor Mendel (late 1800s)

demonstrated that inheritance occurs through genes

when we're older learning occurs as...

dendrites grow new branches, not because your whole brain grows but when you're younger development is correlated with brain growth

shearing force on cilia in ampulla

depolarization, no action potentials here

family of 25 receptors...

detect bitterness • allows us to detect a great variety of dangerous chemicals BUT cannot detect them in low concentrations because there are so few of each type of receptor • may also trigger coughing and sneezing to expel them if smelled

Conductive deafness/Middle-ear deafness

diseases, infections, or tumorous bone growth can prevent the middle ear from transmitting sound waves properly to the cochlea; damage to ossicles • sometimes temporary • can be corrected by surgery or hearing aids • suffers can hear themselves clearly because the vibrations come from inside but they cannot hear others

Early in the development, the cells lining the ventricles of the brain...

divide • Some cells remain where they are as stem cells continuing to divide • Others become neurons and glia that migrate to other locations

symmetrical division

division of a founder cell that gives rise to two identical founder cells

Damage to area A1

does NOT cause deafness; people with damage here have trouble with speech and music but they identify and localize single sounds reasonably well • Means that cortex is necessary for processing hearing information but not necessary for actually hearing

Infant grasp reflex

doesn't help anything in humans today; but in monkey ancestors, babies needed to be able to hold onto their mothers when the mother ran from a predator or looked for food; a weak grasp would jeopardize their life

multipotent cell

doesn't matter what layer you're part of, but what system you're part of - i.e. cells in nervous system can only become more specialized nervous system cells - ~18 days after conception, the cells of the neural plate form. These cells are multipotent/neural stem cells - groove in ectoderm forms and thickens until it forms the neural tube

Your brain encodes sight information in a way that

doesn't resemble what you see → stores a representation of sights in terms of altered activity in many neurons

genes are...

dominant, recessive, or intermediate

concussion

don't necessarily see physical or structural evidence but... • there's a disturbance of consciousness → may be result of contusion - avoid stimulation of all sort to give brain a rest, to give it a chance to heal • Punch-drunk Syndrome aka Pugilistic Parkinson's syndrome

when is proliferation done by?

done by birth - (most things)

Placebos and pain

drugs or other procedure with no pharmacological effects but that can cause decreases in perceptions of pain and activity in parts of the brain that signal pain • do so in party due to relaxation and distraction but that's not the whole explanation • inhibits cingulate gyrus & increases opiate release

neural tube defects

e.g., spina bifida, anencephaly

Across-fiber pattern principle

each receptor responds to a wider range of stimuli, and a given response by a given axon means little except in comparison to what other axons are doing

Labeled-line principle

each receptor would respond to a limited range of stimuli and the meaning would depend entirely on which neurons are active

early development across species

early development is very similar across species

neuronal death/apoptosis

early on do not want, but later in life is used to mature the brain (maturation includes pruning synapses) - initially, 50% more neurons - does not occur uniformly - normal...sign of maturation

Bipolar cells are specially designed to detect

edges

Ruffini endings

elaborated neuron ending - located in Both hairy and hairless skin - responds to Stretch of skin

Meissner's corpuscles

elaborated neuron ending - located in Hairless areas - responds to Sudden displacement of skin; low frequency

Stimulus for Vision

electromagnetic radiation

mice with deletion of gene for K+ channels

enhanced smell - deleting potassium channel genes in mice caused them to be able to smell better

Physical activity in elderly people

enhances both cognitive processes and brain anatomy

A stimulating environment...

enhances sprouting of axons and dendrites in many species • stimulating can be interesting experiences and social interactions OR physical activity

Primary somatosensory cortex is...

essential for touch information • activity in cortex responds to what you experience not what is stimulated in receptors • damage → impairs body perceptions

receptive fields hypercomplex cells

even larger, inhibitory zone

receptive fields complex cells

even larger, no fixed excitatory/inhibitory zones

Lateral inhibition: the receptors send messages to

excite the closest bipolar cells and also send messages to slightly inhibit them and the neighbors to their sides - this heightens the contrast between an illuminated area and its darker surroundings

pain

experience evoked by harmful stimuli, directs your attention toward a danger

Why is alcohol an issue with prenatal neural development?

fetal alcohol syndrome

several V1 complex cells also converge their information onto

fewer hypercomplex cells; several V1 complex cells converge their data onto one hypercomplex V1 neuron

Distribution of receptors: hairy skin

fewer number and fewer variety of receptors - free nerve endings, Ruffini corpuscles, Pacinian corpuscles - but can tell when people are just above hairy skin because hair movement is detected by receptors around base of hair (hair shaft sensory receptor

Epigenetics

field of study that deals with changes in gene expression (that alter gene expression for longer periods of time)

hair cells do NOT

fire action potentials

farsightedness

focuses light past back of eye • can do corrective surgery or wear corrective lenses

nearsightedness

focuses light short of back of eye • much more common

How does the basilar membrane work in place theory?

for very high frequencies of sound, the basilar membrane works like keys on a piano • that is, the neurons along the length of the basilar membrane all have a preference for a particular frequency of sound

some proteins

form part of the structure of the body, become enzymes

What type of detectors are simple cells

form/orientation detectors; sensitive to line orientation

Roger sperry

former student of Weiss that showed how sensory axons find their correct targets; chemoaffinity hypothesis • Weiss cut the optic nerve and inverted the eye of salamanders → the axons grew back to their original targets, NOT to the targets corresponding to the eye's current position • target membranes release a specific chemical which attracts a particular axon (or type of axon) to grow towards it - diffusible chemical

Charles Darwin

founder of evolutionary theory

Tinnitus

frequent or constant ringing in the ears

hair cells lined up from

from tallest to smallest and are mechanically gated • movement causes ion channel to open or remain closed

people who develop expertise at almost any type of visual stimulus show

fusiform gyrus responses when they look at items within their field of interest

the bipolar cells send their messages to

ganglion cells

Optic Nerve

ganglion cells axons that exit through the a hole in the back of the eye called the optic disk and continue to the brain

pheromones in humans vs animals

generally more subtle in humans and stronger in animals

Everything you do depends on

genes and their environment

Autosomal

genes on all other autosomal chromosomes

Sex limited genes

genes present in both sexes but active mainly in one sex - Ex → genes that control the amount of chest hair in men, breast size in women, amount of crowing in roosters, egg production in hens • Both sexes have these but sex hormones activate the genes in one sex or the other • Many show their effects at puberty

brown/black eyes

give you better vision and is dominant

Cytosine, Adenine, Guanine

glutamate

mild pain releases...

glutamate

umami receptor stimuli

glutamate

Dorsal stream goes to

goes toward dorsal side

Ventral stream goes to

goes toward ventral side

tangential migration

going parallel to the length of the neural tube; skimming the sides

Cortical plasticity

greatest in early life, but never ends

cells with similar properties

group together in the visual cortex in columns perpendicular to the surface • cells within a given column process similar information

taste buds

groups of receptors on the tongue

brain cooling in one woman

had a hiking accident and fell by an icy waterfall; ended up with no brain damage because when she had the loss of oxygen her body temperature was so low that there was hardly any brain damage occuring

Organ of corti

hair cells located here - basilar membrane is on the bottom - tectorial membrane is on the top

every species system has

has a different critical period • Brain damage in children will likely heal better than in adults

ferret study: auditory cortex

has no input (b/c the fibers coming from the inferior colliculus in the left hemisphere are no longer there)

Why does making a connection increase likelihood of a neuron's survival?

has to be a used synapse for the neuron the survive; one of the things that these young immature neurons need to survive is a chemical called neurotrpic factors • neurotrophic factors

dose-response relationship

have a little alcohol, have a little variation; have more alcohol; have more variation

adults with cataracts not removed until adulthood

have even more trouble

people with brain damage may

have lost some ability totally or may be able to find it with some effort • much recovery depends on learning to make better use of the abilities that were spared

ferret study: retinal nerves...

have nowhere to go (b/c their targets in the left hemisphere, e.g. superior colliculus & primary visual cortex, have been lesioned)

fat receptors

haven't discovered in humans but have discovered in rats

hearing aids

hearing aids make sounds louder for older people but the older people still have trouble understanding speech, especially in a noisy room or if someone speaks rapidly - brain areas responsible for language comprehension have become less active • might be natural deterioration or a reaction to prolonged degradation of auditory input

less common type of stroke

hemorrhage

difference in intensity/loudness between the ears

high frequencies & sound shadows • for high frequency sounds, with a wavelength shorter than the width of the head, the head creates a sound shadow, making the sound louder for the closer ear • head filters out sound so by the time it reaches the other ear you just a sound shadow a portion of the sound hitting the other ear

parabelt region of the auditory cortex

highest level of processing

itch: some spinal cord pathways respond to...

histamine itch and others respond to cowhage itch

damaged tissue

histamine, nerve growth factor

damage or inflamed tissue releases

histamine, nerve growth factor, and other chemicals that help repair the damage but also magnify the responses of nearby heat and pain receptors

How gene expression is regulated

histones

horizontal cells run

horizontally between the bipolar cells & the photoreceptors

how far you see depends on

how far the light travels before it strikes the eyes

Pitch

how we perceive frequency • Sounds higher in frequency are higher in pitch • Pitches animals can hear often relates to size

However, what does the brain need after birth to maintain and fine-tune its connections?

however, the brain needs visual experience after birth to maintain and fine-tune it's connections

Homozygous

identical pair of genes on the two chromosomes

discriminative touch

identify shape of object

target cells

if a neuron connects with someone else, the neuron gives it neurotrophic factors; neurons exchange neurotrophic factors

lack of two eyes

if completely closed during critical period then sight will never be regained but if reopened during critical period then some sight may occur

area A1 responds to...

imagined sounds as well as real ones

stem cells

immature; vary in how much they can continue to change - totipotent cells - pluripotent cells - multipotent cells

Prosopagnosia

impaired ability to recognize faces

behavior in adolescence

impulsive, prone to seek immediate pleasure • have stronger brain responses than adults when anticipating rewards and weaker responses in the prefrontal cortex, responsible for inhibiting behavior • heightened impulsivity occurs almost exclusively in social settings

pain & touch pathways decussate

in different areas

Koniocellular information goes

in-between (ventral) the layers described above - 4A

Estradiol and taste

increases acuity to taste - Adaptive because present in pregnant woman who want to avoid illness while pregnant from things that taste/smell bad/unsafe

immature brain is also highly responsive to...

influences from mother • Stress on the mother → changes her behavior in ways that change her offspring's behavior

David Hubel and Tortsten Wiesel (1959)

inserted thin electrodes to record activity from cells in cats and monkeys' occipital cortex while they shined light patterns on the retina and found that the cells had bar-shaped receptive fields • distinguished several types of cells in the visual cortex

primary taste cortex

insula • Receives input from both sides of the tongue • Has areas that respond to one type of taste and multiple types of tastes

Amplitude

intensity (i.e. loudness); height of each wave

sometimes, bottom-up processes & top-down processes

interfere with each other

Gustatory pathway is mostly...

ipsilateral connection - anterior of tongue: 7th cranial nerve (chorda tympani) - posterior of tongue: 9th cranial nerve - throat: 10th cranial nerve

ampulla

is in the semicircular canal filled with fluid; ampulla's cilia (hairs) are embedded in the cupula (bulge in the semi-circular canal)

necrotic death

is quite sudden and cell tends to leach out everything in its gut; some of these chemicals are harmful and can cause other cells to die or to inflame and become irritated occurs during stroke (along with apoptosis); any type of sudden death

blue, etc.

is worse but more recessive genetically

most common type of stroke

ischemia

Lateral inhibition: When a bipolar cell is activated

it sends information to horizontal cells (e.g.) which will then inhibit the neighboring bipolar cells. The inhibition strength decreases, the farther away it is from the particular amacrine cell

when an olfactory receptor is stimulated

its axon carries an impulse to the olfactory bulb

After a cell loses input from an axon

its secretes neurotrophins that induce other axons to form new branches or collateral sprouts that take over the vacant synapses • can be helpful or harmful depending on whether the sprouting axon conveys info similar to those that they replace

Ganglion cell axons

join together to form the optic nerve and travel back to the brain

delay getting hearing aid

language cortex doesn't get normal input and becomes less responsive

receptive fields LGN cells

larger co-centric receptive fields

receptive fields simple cells

larger, rectangular, fixed excitatory/inhibitory zones

End-stopped or hypercomplex cells Size of receptive field

largest

LGN info enters through

layer 4 and stays separate • remember that there are 6 layers in most areas of the cerebral cortex • parvocellular info goes into 4Cβ • koniocellular info goes into 4A • magnocellular info goes into 4Cα

other neurons

lazy neurons; not pioneers, just followers • fasciculation - following the chemical trail of the pioneer neurons

effects of a stroke: Impair the sodium-potassium pump

leading to an accumulation of sodium inside neurons

chronic pain

leads to depression and decreased activity in the prefrontal cortex - a barrage of painful stimuli potentiates its synaptic receptors so that they respond more vigorously to the same input in the future • the brain learns how to feel pain, and gets better at it

things in right visual field are seen by

left side of brain

sound localization is...

less accurate than visual localization

In adult humans, taste buds...

lie along the edge of the tongue - often on the sides, but not in middle/top usually • tongue creates an illusion of taste all over the tongue by extrapolating tastes detected on side of tongue to the middle which saves body resources by not having to make as many taste receptors

you see something only when

light from it strikes your eyes and alters your brain activity

Route Within the Retina

light passes through the ganglion, amacrine, bipolar cells, and horizontal cells en route to the photoreceptors • then transduction occurs

Vitreous humor

light passes through this fluid and then hits the retina

ON center cells increase their activity when

light shines on the center, while decreasing their activity when light shines in the surrounding OFF area

The pathway of light through the eye

light → cornea → aqueous chamber → pupil/iris → lens/ciliary muscle and ligaments → vitreous humor → retina

Offspring generally resemble their parents for genetic reasons

like begets like

to prevent chronic pain,

limit it from the start - i.e. start taking morphine before the surgery and you need less of it afterward

in V2, many cells still respond best to

lines, edges, and sine waves but some cells respond selectively to circles, right angles, and other complex patters and texture

axons carrying pain info have...

little or no myelin so they conduct impulses relatively slowly but brain processes them more rapidly • thicker, faster axons convey sharp pain • thinner ones convey dull pain

anatomy & physiology of the vestibular system

located in the inner ear next to the cochlea • semicircular canals - three • vestibular sacs - two

humans proliferate...

longer than chimpanzees • Nearly all neurons form within the first 28 weeks of gestation → premature birth before that time inhibits neuron formation

for the hemi-nasal retinal areas

look at the edges of the visual fields; see SAME far side as eye but info is processed in OPPOSITE side of the brain • Notice that the neurons in the hemi-nasal retinal areas send their information to the opposite side of the brain. This is referred to as a contralateral connection

for the temporal-hemi retinal areas

look at the middle of the visual fields; sees OPPOSITE SIDE as eye but info is processed on SAME side - right eye sees from the middle to the mid left so the right side of the brain processes (almost) all left info - left eye sees from the middle to the mid right so the left side of the brain processes (almost) all right info • Notice that the neurons in the temporal-hemi retinal areas send their information to the same side of the brain. This is referred to as an ipsilateral connection. • Overlap between what the eyes see

Aguesia

losing ability to taste - Rare because there are 3 nerves related to taste and so many brain areas involved in taste

Damage to V4

loss of color constancy and/or visual attention

necrosis during stroke

loss of oxygen (& glucose) • impaired Na+ - K+ pump → increased Na+ inside of neuron • increased glutamate (excitatory) → overstimulation of the neuron • blocks mitochondrial metabolism • neuronal death • glial proliferation → scar tissue?

phase difference between the ears

low frequency sounds • ever sound wave has phases with consecutive peaks 360 degrees apart • how much out of phase depends on the frequency of the sound, the size of the head, and the direction of the sound • localize low-frequencies

magnocellular information goes to

lower layers (2 -1) - 4Cα

totipotent cells

make up ball - can become part of anything (embryo, supporting structures of embryo) - w/in 36 hours, the zygote multiplies into many cells

Growing up in constant noise...

makes it harder to identify and learn about individual sounds causing impairments in auditory development

scratched cornea

makes vision blurry because cornea is no longer completely transparent; painful - must just wait for eye to fix itself

in a newborn mammal

many of the normal properties of the visual system develop normally at first, before birth • waves of spontaneous activity sweep over developing retinas, synchronizing activity among neighboring receptors and enabling appropriate combos of receptors to establish connections with cells in the brain

taste transduction: bitter

many varieties of T2R • (so, I'm just pointing out here that the same family of receptors are involved: but the pattern of receptor activation determines the taste, e.g., whether sweet or bitter)

neuronal death/apoptosis in the prefrontal cortex

matures later than college; brains don't work as well until this part is completely mature which involves death of neurons - coordinates thoughts & actions, including: • working memory, attention, planning & carrying out sequences of actions, inhibiting inappropriate actions (impulse control), higher order thinking - does not mature until the late teens (~18 yrs. of age)

viral brain infections

may be less aggressive than bacterial but we don't have many anti-viral medications - e.g., rabies (virus) - e.g., Herpes (virus)

all these different migration theories...

may be valid depending on which area of the brain and which neurons we are referring to.

chemical sense...

may have been the first sensory system of the earliest animals

can test new neuron formation in humans by...

measuring the radioactive isotope of carbon 14C whose concentration in the atmosphere compared to other isotopes of carbon was almost constant over time until the era of nuclear bomb testing released a lot of radioactivity; now declining again • Found that skin cells reflect the 14C concentration of the current year, meaning they are replaced quickly • Muscle cells reflect the 14C concentration of 15 years ago so they're replaced slowly • Heart cells have 14C concentrations reflective of the persons birth year, meaning the body replaces no more than 1% of hear cells • Neurons and olfactory bulbs in humans also have 14C concentrations of the persons birth year o Means no new neurons are formed in the cerebral cortex under normal circumstances • Humans replace ~2% of hippocampal neurons per year

high frequency sounds are more...

medial & posterior

Complex Cell Size of receptive field

medium

men and menstruation

men can identify menstrual stage by smell at better than chance levels

blueprint hypothesis analogy

men lining up in order of tallest to shortest then pairing up with women who lined up tallest to shortest

Gender differences in casual sex

men want it more because more sex means a higher chance of propagating their sperm and increasing the spread of their genes whereas this is not the case for women

exposure to cannabinoids during stroke...

minimizes damage by decreasing the release of glutamate and are anti-inflammatory - only effective within the first hour - anti-oxidant and anti-inflammatory properties? - Also causes suppression of excitatory activity; but the problem is first stimulates then decreases

current theory of pitch

modification of both theories

Hermann von Helmholtz

modified Young's theory to the trichromatic or Young-Helmholtz theory of color • Trichromatic Theory

even traits with high heritability can be

modified by environmental interventions

Merkel's disks

modified dendrite - located in Both hairy and hairless skin - responds to Light touch

Toward the periphery of the retina

more and more receptors converge onto bipolar and ganglion cells • as such, the brain cannot detect the exact location or shape of a peripheral light source • However, the summation enables perception of fainter lights in the periphery

cells in the MST respond best to

more complex stimuli such as expansion, contraction, or rotation

lack of one eye

more damaging because the one eye that was open took all the synapses it could so once the other eye of the cat was opened there was nothing for the second eye to connect to

enriched environment

more gray matter than in an impoverished environment

Distribution of receptors: glaborous skin

more number and variety of receptors - free nerve endings, Ruffini corpuscles, Pacinian corpuscles, Meissner's corpuscles, Merkel's discs

women detect odors...

more readily than men and brains responses to odor are stronger in women than in men • ↑ sensitization with practice & female hormones

opiates bind to receptors founds...

mostly in the spinal cord and the periaqueductal gray area of the midbrain

Dorsal stream receives

mostly magnocellular input = integration of form & movement

MT (aka V5)

motion of objects or still photographs implying motion

migration

movement of neurons; very rapid - Some neurons migrate faster than others; some don't reach destination until adulthood

radial migration

moving outward from the middle of the neural tube

Stronger support when

multiple kinds of evidence support it • Loneliness, neuroticism, television watching, childhood misbehavior, social attitudes, cognitive performance, educational attainment, and speed of learning a second language all have evidence of significant heritability • Religious affiliation has NOT shown a significant heritability

diversity of olfactory receptors makes possible...

narrow specialization of functions

any behavior characteristic of a species arose through

natural selection and presumably provided some advantage • Ex → some animals have better color vision/peripheral vision; some animals sleep less because they may be attacked at night

When light hits all of on center cell

near basal level activity because the on center and off ring cancel each other out

chemicals of similar smells excite

neighboring areas and chemicals of different smell excite separated areas

opiates act on...

nervous system rather than injured tissue

neuronal death during stroke is due to

neuronal death during stroke is due to: • necrosis → bad, unexpected • apoptosis → programmed cell death

olfactory cells

neurons responsible for smell that line the olfactory epithelium in the rear of the nasal air passages - each olfactory cell has cilia that extend from the cell body into the mucous surface of the nasal passage • olfactory receptors are located on the cilia

feature detectors

neurons whose responses indicate the presence of a particular feature

proliferation in the adult brain

new neurons in the olfactory bulb/system and hippocampus during adulthood - physical and mental exercise and happiness increase new neurons (found in rat studies) in these areas - more positive means being more creative • people perform better on tests when they're happy

Color sensitivity of Magnocellular Neurons

no

if neither eye is active

no axon outcompetes any other • for 3 weeks, the cortex remains responsive to visual input • longer than that, cortical responses start to become sluggish and lose their well-defined receptive fields • eventually, the visual cortex starts responding to auditory and touch stimuli instead

people with damage to area V1 report

no conscious vision, no visual imagery, and no visual images in their dreams

Weaknesses of the trichromatic color theory

no explanations for: - negative color afterimage (aka complementary afterimage) • color afterimage → see opposite color after looking at something long enough then looking away - mixed colors → i.e. reddish-green or bluish-yellow - primary colors → not made up of anything else • most people think yellow is primary but then why is there not a cone for yellow

Spinothalamic tract

nociceptors → spinal cord → ventral posterior nucleus (thalamus) → somatosensory cortex

Altruism is harder to find among

nonhumans although they do cooperate together (i.e. hunting, sharing food) - Monkeys and two ropes with food for one or food for two → monkeys pull whichever rope is on the right, suggesting right-handedness but not altruism

which pathway does normal behavior use

normal behavior makes use of both pathways/streams in collaboration and damage to either pathway affects all tasks to some degree and others more than others

mature brain

notice how the forebrain has grown so much that it now sits on top of the midbrain and hindbrain

Neurotropic factors

nurturing; help immature neuron to stay alive; suppresses apoptosis (cell suicide); without these, apoptosis will occur - e.g., neurotrophins such as nerve growth factor, brain-dervived neurotrophic fact (BDNF) (there are many others)

for what types of sounds do phase differences not work?

o does not work for high frequency sounds because the high frequency sine waves are very close together/compact for high frequency sounds, its hard to differentiate different phases because they're so tightly packed and may go through several more revolutions before it hits the other ear but its still in the same place on the sine wave

substance p and pain

often combined with glutamate to transmit high pain

olfactory receptors

olfactory cells

Olfactory pathway

olfactory cilia → thru cribiform plate → olfactory bulb

specific anosmia

olfactory dysfunction (~5%) → loss of certain types of smells

2. neurons

on the two sides of the cut pull apart

asymmetrical division

one cell becomes an immature neuron, another becomes a stem cell; division of a founder cell that gives rise to another founder cell and a neuron which migrates away from the founder to its final location in the brain • we are here longer than chimpanzees

synesthesia hypothesis

one hypothesis is that axons from one cortical area branch into another cortical area

scala tympani

one of the perilymph-filled cavities in the inner ear of the human. It is separated from the cochlear duct by the basilar membrane • transduces the movement of air that causes the tympanic membrane and the ossicles to vibrate, to movement of liquid and the basilar membrane.

the pain sensitive cells in the spinal cord relay information to several sites in the brain

one path extends to the ventral posterior nucleus of the thalamus then to the somatosensory cortex which responds to painful stimuli, memories of painful stimuli, and signals that warn impending pain

deafferentiation stroke

one treatment for stroke is to make people unable to use the normal limb so they have to use the weaker one

each olfactory receptor responds to...

only a few stimuli • combined activity of receptors identifies a chemical precisely

What gives rise to the receptive fields?

onvergence of information gives rise to the receptive fields

Place theory: the very highest frequencies of sound...

particularly stimulate the neurons which are nearest the beginning of the basilar membrane (so the base of the basilar membrane)

receptor potentials...

open voltage gated calcium channels; calcium ions then enter the cell and trigger the release of neurotransmitters at the basal end of the cell. The neurotransmitters diffuse across the narrow space between the hair cell and a nerve terminal, where they then bind to receptors and thus trigger action potentials in the nerve - convert mechanical sound signal into an electrical nerve signal

Stimulation of a touch receptor

opens sodium channels in the axon, thereby starting an action potential

What kind of receptive field do simple cells have

opponent fashion receptive field

The two optic nerves meet at the

optic chiasm where half of the axons from each eye cross over to the opposite side of the brain

three semicircular canals

oriented in perpendicular plans and filled with a jellylike substance are lined with hair cells - otolith

"top-down" processing

other brain areas interpret the visual stimulus and send messages back to reorganize the activity in the primary visual cortex • we are pre-wired to see objects as a whole (we do not necessarily build up an object in our minds from the basic features to the whole object)

the lateral geniculate sends axons to

other parts of the thalamus and the visual cortex

Brain evolved skill

our brains have evolved the ability to remodel themselves in response to experience

parvocellular information goes to

outer layers (6- 3) of LGN - 4Cβ

fovea representation in area V1

overrepresented in area V1 (25%)

nociceptors

pain

hippocampus and pain

pain memory

spinal paths for pain and touch are...

parallel, but the pain pathway crosses immediately from receptors on one side of the body to a tract ascending the contralateral side of the spinal cord - touch info travels up the ipsilateral side of the spinal cord to the medulla where is crosses to the contralateral side - so pain and touch reach neighboring sites in the cerebral cortex

cingulate cortex and pain

part of limbic system that remembers emotions • decrease negative emotional reaction to pain to decrease chronic pain

Primary Visual Cortex (area V1; striate cortex)

part of the occipital cortex; main brain area for vision

Most ganglion cell axons go to the

part of the thalamus (LGN) • A smaller number go to the superior colliculus and other areas

area V4

particularly important for color

Certain individuals reproduce more than others do, thus

passing on their genes to the next generation. Any gene that is associated with great reproductive success will become more prevalent in later generations. That is, the current generation of any species resembles the individuals who reproduced in the past. If the environment changes such that a different gene increases the probability of survival and reproduction, that gene will spread in the population

Helmholtz decided three kinds of cones because

people could match any color by mixing appropriate amounts of just three wavelengths • Short (blue), medium (green), and long (red) wavelength cone types

chemical pathfinding by axons

people often believe the nervous system to work like the prevailing technology of the time

Supertasters

people that are highly sensitive to all tastes and mouth sensations • Differences depend on the number of fungiform papillae near the tip of the tongue; supertasters have most • Women's taste levels change with cycles and are highest during early pregnancy

People who report synesthesia

people who report synesthesia have increased amounts of gray matter in certain brain areas and altered connections to other areas

other species may

perceive electromagnetic radiation in different ranges • meaning other species may perceive infrared radiation, UV radiation, etc.

orientation & location preference of complex cells

perceptive to line moving across the field in a particular direction

Sound waves

periodic compressions of air, water, or other media that vary in amplitude and frequency • Condensing & rarefying of molecules (in varying mediums) • 15 to 20,000 Hertz (cycles per second)

Mach bands

phenomenon resulting from lateral inhibition

where do pheromone receptors appear to be located in humans?

pheromone receptors appear to be located in olfactory mucosa for humans (so olfactory receptors)

hurt feelings do resemble...

physical pain in important regards → activate cingulate cortex • can be relieved with tylenol

frequency theory: the basilar membrane...

physically mimics the soundwave; some neurons at one end of the basilar membrane fire in rhythm with the physical waves (e.g., at every peak of the wave, for example) - actually a difficult process because many soundwaves have to be mimicked at once - only works up to a certain Hz

Artificial selection

plant and animal breeders choose individuals with a desired trait and make them the parent of the next generation

visual expertise depends on

practice

orientation & location preference of simple cells

prefers line stimuli in dead center of receptive field

Mechanical senses respond to

pressure, bending, or other distortions of a receptor

each eye sees

pretty much what the other eye sees, though from a different perspective. This figure is a bit misleading in that it looks as though each eye sees exactly what the other eye sees, but this is not the case. The right eye cannot see the extreme left and the left eye cannot see the extreme right (because your nose is in the way).

Magnocellular neurons

primate ganglion cells with larger cell bodies and receptive fields that are distributed evenly throughout the retina • larger cell bodies • larger receptive fields but not better • evenly throughout retina • processing movement info and overall contrast • to LGN, other thalamic areas • movement • overall patterns (very sensitive to contrast between light & dark)

Parvocellular (midget) neurons

primate ganglion cells with small cell bodies and small receptive fields located mostly in or near the fovea • smaller cell bodies • small receptive fields; detailed vision • in or near fovea • only send info to the LGN • visual details • color (red, green)

Koniocellular neurons

primate ganglion cells with small cell bodies but they occur throughout the retina; granular appearance • small cell bodies • granular appearance • throughout retina • varies (somatosensory-propioception? Color [blue]) • to various areas 9eg.g. LGN, other thalamic areas, superior colliculi

what kind of romantic partners do we prefer?

probably prefer romantic partners that smell differently from you or your family members • reduces inbreeding • increases variety of immunities in children because chemicals from the immune system contribute to body odors

Prolonged experience of a particular type...

profoundly enhances the brain's ability to perform the same function again, especially if training begins early in life

processes in the development of neurons

proliferation, migration, differentiation, myelination, and synaptogenesis

Thomas Young (1773-1829)

proposed that we perceive color by comparing the responses across a few types of receptors, each of which is sensitive to a different range of wavelengths

Edward Land

proposed the retinex theory

Cornea

protective, non-adjustable outer layer of the eye that bends light into the pupil

histones

proteins that bind DNA into a shape that is more like string wound around a ball - These molecules have loose ends to which certain chemical groups can attach - To activate a gene, the DNA must partially unwind from the histones

evolutionary psychology

psychology concerned with how behaviors evolved with emphasis on evolutionary and functional explanations (that is, the presumed genes of our ancestors and why natural selection might have favored genes that promote certain behaviors)

glia-mediated migration

radial glia cells spanning from the inner portion of the neural tube to the outer portion of the neural tube that cells crawl on

Goose bumps in humans

raise our hairs when we are cold or frightened; in other animals make fur more insulating or make them look larger/more intimidating; leftover in humans

anosmia

rare (~1%) • Zycam up nose → some felt a burning sensation then lost smell

what occurs with sound localization with age?

recalibration occurs as you age because your head grows

Cells of the lateral geniculate nucleus have

receptive fields that resemble those of the ganglion cells (an excitatory or inhibitory central portion and a surrounding ring with the opposite effect)

Instead, the influx of positive ions from the endolymph in the scala media depolarizes the cell, resulting in a

receptor potential

Touch pathway

receptors → dorsal column of white matter → decussates at the level of the medulla → ventral posterior nuclei of thalamus → primary somatosensory cortex • 2 deep pressure, kinesthesia • 2 light touch on skin • there are more maps of the body (than what is mentioned above) • → secondary somatosensory cortex, etc.

Melzack & Wall's Gate Control Theory

receptors all over our body can detect pain - gates in spinal cord but predominately in layers 1 and 2 of the dorsal horn • gate in the spine can close to stop pain when it needs to be

taste transduction: sweetness and bitterness

receptors linked to gustducin (G protein) → activates phosphodiesterase → ↓ cAMP → closing of K+ channels, action potential

connections in the visual cortex are

reciprocal • V1 sends info to V2 and V2 returns info to V1 • From V2 the information branches out in several directions for specialized processing

most common type of color deficiency

red-green colorblindness • occurs when long and medium wavelength cones have the same photopigment instead of different ones • more men (8%) are red-green colorblind than women (1%) because it occurs on the X chromosome so men need only one affected chromosome to have the deficiency

cross-adaptation

reduced response to one taste after exposure to another - toothpaste and oj?

cooling the brain during stroke...

reduces overstimulation, apoptosis, and inflammation - theoretical - slows down bodily activity → problem with stroke is overstimulation, so if we can slow down bodily activity in theory that seems like a good idea - have not yet figured out a way to cool people down low enough to help with stroke without killing people → hypothermia is worse than stroke

effects of a stroke: Combo of edema and excess sodium

release glutamate which overstimulates neurons damaging both neurons and synapses • Microglia proliferate to help this

dendritic branching mouse study

researchers injected a dye into a living mouse neuron and watched the dendritic spines extend and retract/disappear - 6% of dendritic spines appear or disappear within a month - the gain or loss of spines means a turnover of synapses which relates to learning

Pacinian corpuscles respond to

respond to Sudden displacement of skin; high frequency vibration bends the membrane enabling sodium ions to enter, depolarizing the membrane

cells in the inferior temporal cortex

respond to meaningful objects; respond according to what the viewer perceives not what the stimulus is physically

MSTd (aka dorsal MST)

responds to expansion, contraction, or rotation of visual scene

things in left visual field are seen by

right side of brain

what is risked during stroke if neuronal activity is allowed to continuing decreasing?

risking Diaschisis if activity continues to decrease; really want existing synapses to be active

two types of photoreceptors in vertebrate retina

rods and cones

genes influence behavior in

roundabout ways • Beautiful people are smiled at more → affects their personality • Very tall people are good at basketball early in life → may spend all time perfecting basketball skill

two modes of traveling in migration

somal translocation and glia-mediated migration

the primary visual cortex (V1) sends information to the

secondary visual cortex (V2)

folic acid

seems to prevent neural tube defects such as spina bifida; greatly reduces chances of neural tube defects • Prenatal vitamins - folic acid, calcium (pregnancy will suck calcium out of the female bones if there isn't enough in the body)

Kin selection

selection for a gene that benefits the individual's relatives • A gene spreads it if causes you to risk your life to protect your children, who share many of your genes, perhaps including a gene for altruism • In humans and nonhumans helpful behavior is more common toward relatives than nonrelated individuals

Most cells in MT respond

selectively when something moves at a particular speed in a particular direction • acceleration, speed • central to the experience of seeing motion

disconnect between

sensation and perception

Olfaction

sense of smell; the response to chemicals that contact the membranes inside the nose

Auditory where pathway

sensitive to sound location in the posterior temporal cortex and the parietal cortex

Auditory what pathway

sensitive to the pattern of sound in the anterior temporal cortex

strong, repeated stimulation

sensitization (potentiation)

The amount of response (how many action potentials a neurons sends per unit of time) affects

sensory coding/perception

messenger RNA

serves as a template for the synthesis of protein molecules

motion perception is set up to

set up to occur quickly and efficiently

humans likely have...

several hundred olfactory receptor proteins • rats have thousands

adult men react to sweaty women as...

sex signals

neurons differ in...

shape and chemistry

Where do simple cells converge their information

simple cells converge onto fewer complex cells; simple V1 neurons converge their data onto one complex V1 neuron • complex cells also have slightly larger receptive fields now

V1 cells

simple, complex, hypercomplex

Types of cells (feature detectors) in area V1

simple, complex, hypercomplex cells

Overall, the receptive fields of the ganglion cells are

slightly larger than that of the bipolar cells

endogenous opioids

slower pain; released naturally in body for any reasons • endorphins (e.g., beta-endorphins) • enkephalins e.g., met-enkephalin & leu-enkephalin • dynorphins • (nociceptin) • (endomorphin) • inescapable pain, sex, thrilling music, acupuncture, copulation, placebo (but NOT hypnosis)

Midget Ganglion Cells

small ganglion cells in the fovea of humans and other primates that responds to just a single cone resulting in each cone in the fovea having a single route to the brain • Provide 70% of the input to the brain → vision is dominated by what we see in the fovea

Simple cells Size of receptive field

smallest

what does olfaction play an important role in

social behavior

sodium taste receptors detect...

sodium in the food we eat and allows it to cross its membrane

somal translocation

soma with a weird appendage (like a sticky hand) throws itself out and drags itself over then repeats to continue moving - appendage is NOT always axon but can be

some individual differences in olfaction...

some due to genetic variation - common form of OR7D4 → androstenone smells like sweat or urine - less common form of OR7D4 → androstenone smells sweet or like flowers

Deterioration in Old age

some people have more genes that keep them healthy and alert at ages 85 and beyond but not everyone has these genes; may be because once we can no longer reproduce living is not advantageous (i.e. some fish/turtles who reproduce forever do not seem to age)

Diaschisis

something is not performing optimally because they're not having the same connections that they did before • Surviving neurons only function best when they're connected to other neurons • When connections are cut by cell death, the other neurons become weakened

Heritability is

specific to the population at a particular time

Some proposed evolutionary explanations are

speculative and controversial • Gender differences in casual sex • Deterioration in Old age

Gate Theory

spinal cord neurons that receive messages fro pain receptors also receive input from touch receptors and from axons descending from the brain - These other inputs can close the "gates" for the pain messages partly by releasing endorphins

chemical gradients...

steer axons that reach their targets to approximately their correct locations but not always with perfect accuracy - Each axon forms synapses onto many cells in approximately the correct location and each target cells receives synapses from many axons - Over time, each postsynaptic cell strengthens the most appropriate synapses and eliminates other • Adjustment depends on the pattern of input from incoming axons

founder cells

stem cells?; cells that divide and give rise to cells of the nervous system • inside-out growth of cerebral cortex (inner layers formed before outer layers)

those with physical eye damage

still dream and have visual imagery

damage to cingulate cortex

still feel pain but it no longer distresses them

why is tPA still most commonly used

still use because the vast majority of strokes are ischemic → can't waste time testing the type of stroke

Menthol

stimulates cool receptors

Opioid mechanisms

systems that respond to opiate drugs and similar chemicals to stop prolonged pain that is unnecessary after pain alerts you to danger

recovered behaviors that seem normal in those with brain damage are actually

taking extra effort • these behaviors decline more than in undamaged people when influenced by alcohol, physical exhaustion, or other kinds of stress that would minimally affect others • deteriorates with old age • learned behavior/compensation is effortful • alcohol • physical exhaustion • stress • age

two direction of travel in migration

tangential and radial migration or a combination of the two

taste receptors

taste buds are not true neurons but modified skin cells - have excitable membranes and release neurotransmitters to excite neighboring neurons which in turn transmit info to the brain - gradually sloughed off and replaced like skin cells • last for 10-14 days - different receptors for different tastes

variations in taste sensitivity

taste sensitivity varies among animal species and human individuals

PTC and PROP

tasters and nontasters are genetic

Taste is useful for...

telling us whether to swallow something or spit it out • like sweet and salty; dislike sour and bitter

thermoceptors

temperature

core region of auditory cortex

temporal cortex

~50 cilia per taste bud...

that have taste receptors on them and are enervated by taste nerves

3. the glial cells...

that react to CNS damage (Oligodendrocytes) release chemicals that inhibit axon growth

inconsistency of negative color afterimage among people suggests...

that the afterimage depends on the whole context, not just the light on individual receptors and that the cerebral cortex must be responsible not the bipolar or ganglion cells

Dorsal stream

the "how" pathway for vision that goes through the parietal cortex and is important for visually guided movements; this pathway stretches from the primary visual cortex (V1) in the occipital lobe forward into the parietal lobe • involved in spatial awareness and guidance of actions • parietal cortex

Ventral stream

the "what" pathway for vision that goes through the temporal cortex specializing in identifying and recognizing objects • associated with object recognition and form representation • Inferior temporal cortex • V4 • MT (aka V5) • MSTd (aka dorsal MST) • ventral MST

absolute pitch

the ability to hear a note and identify it • genetically predisposed but also increased with early music training • more common among people who speak tonal languages like Chinese

Information from the nasal half of each eye crosses to

the contralateral hemisphere

the responses of cells in V4 correspond to

the apparent or perceived color of an object which depends on total context

Volley Principle

the auditory nerve as a whole produces volleys of impulses for sounds up to about 4000 per second with individual nerves producing patterns of action potentials that summate to equal the sound wave (~300 - 4000 Hz)

hair cells

the auditory receptors that lie between the basilar membrane of the cochlea on one side and the tectorial membrane on the other - Vibrations of the hair cells caused by vibrations in the cochlear fluid excite the auditory nerve

place theoryr

the basilar membrane resembles the strings of a piano with each area along the membrane tuned to a specific frequency (~4000+ Hz) • each frequency activates the hair cells at only one place along the basilar membrane and the nervous system distinguishes among frequencies based on which neurons respond • the basilar membrane can only physically vibrate so much

Frequency theory

the basilar membrane vibrates in synchrony with a sound, causing auditory nerve axons to produce action potentials at the same frequency; analysis of the lower frequencies of sound (~15 - 400 Hz)

the point at which the optic nerve leaves the eye through the optic disk is

the blind spot because it has no receptors

info from the receptors in the anterior two-thirds of the tongue travels to...

the brain along the chorda tympani

External Auditory Canal

the canal that funnels sound waves from the pinna to the middle ear

Experience and dendritic branching

the central structure of a dendrite becomes stable by adolescence, but the peripheral branches of a dendrite remain flexible throughout life

Info from the touch receptors in the head enters the CNS through

the cranial nerves

the vestibular system detects

the direction of tilt and the amount of acceleration of the head

Retinal Disparity

the discrepancy between what the left and right eyes see; problem with binocular cues • Experience fine-tunes binocular vision and abnormal experience disrupts it

the human central nervous system begins to form when ...

the embryo is about 2 weeks old

Synesthesia

the experience some people have in which stimulation of one sense evokes a perception of that sense and another also - clusters in families frequently who also have absolute pitch

Heritability

the extent to which the variations in some characteristic depend on genetic differences (can be high or low)

Pinna

the familiar structure of flesh and cartilage attached to each side of the head • Helps us locate the source of sound by altering the reflections of sound waves

Synaptogenesis

the formation of synapses - Begins before birth, continues throughout life - Slows in older people as does the formation of new dendritic branches - throughout life (even though there is a huge amount of it prenatally as well as a few to several years after birth; there is also another surge of synaptogenesis during the early teenage years. Be sure not to mix up the terms "neurogenesis" with "synaptogenesis.") - connecting is important for a neuron's survival.

In the trichromatic theory the perception depends on the

the frequency of response in one cell relative to the frequency of another cell → we discriminate among wavelengths by the ratio of activity across the types of cones

evolution benefits

the genes of the species NOT the individuals

Sex-linked genes

the genes on the sex chromosomes (X and Y) • Female chromosomes → two X • Male chromosomes → one X, one Y

Reciprocal Altruism

the idea that individuals help those who will return the favor • People are more likely to help people who helped them previously or who they observed helping someone else • Requires an ability to identify individuals and remember them later - Humans are excellent at recognizing one another even after long delays

Viscera

the internal organs in the main cavities of the body, especially those in the abdomen • Mechanoreceptors • Chemoreceptors

Information from the temporal half of each eye goes to

the ipsilateral hemisphere

color of an object depends on

the light reflected from that object and how it compares with objects around it

Sweetness, bitterness, and umami receptors resemble...

the metabotropic synapses • molecule binds to one of these receptors, activating a G protein that releases a second messenger within the cell • each of these receptors releases ATP

endorphins

the nervous systems opiate-type chemicals that attach to the same receptors as morphine - Brain produces several types which relieve different types of pain - Inescapable pain stimulates endorphins and inhibits further pain - Also release during sex and when listening to good music

Place theory: when the particular frequency of sound is detected...

the neurons who have this preference will be most active, as compared with the other neurons on the basilar membrane

Frequency

the number of compressions per second, measured in Hz; number of waves per second - Pitch

fitness

the number of copies of one's genes that endure in later generations • Any gene that spreads is fit but these genes may turn out to be disadvantageous after a change in the environment meaning they may not be adaptive in the future so evolution does NOT always mean improvement

olfactory bulb sends axons to

the olfactory area of the cerebral cortex

The axon of the ganglion cells form

the optic nerve which leaves the retina and travels along the lower surface of the brain

Order of bases on RNA determines

the order of amino acids that compose a protein

receptive field of a rod or cone

the point in space from which light strikes the cell; the tiny portion of the visual field that the neuron can detect visual stimuli in

receptive field of bipolar and ganglion cells

the points in space from which light strikes the cells from which these cells receive connections; the sum of the receptive fields of their connected cells

Overall destination for auditory info is

the primary auditory cortex (area A1) in the superior temporal cortex

differentiation

the process by which a primitive neuron forms in axons and dendrites so that it becomes different from other neurons - Axons grow first and are often towed like tails during migration and point toward their target - Dendrites are formed when the neuron reaches its target - axonal, then dendritic growth • sometimes while migrating • axon grows towards target

myelination

the process by which glia produce the insulating fatty sheaths that accelerate transmission in many vertebrate axons - Forms first in the spinal cord then in the hindbrain, midbrain, and forebrain - Continues gradually through adolescence and adulthood - Vulnerable process → social isolation impair myelination - throughout life - myelination occurs from hindbrain to forebrain - it is a rough index of brain maturation; with myelination, the brain functions better

certain types of brain damage lead to...

the production of new neurons in the cerebral cortex of rodents • persisted for at least a year, but failed to differentiate, leading researchers to be unsure of purpose

Immature neurons experimentally transplanted from one part of the developing cortex to another develop...

the properties characteristic of their new location - neurons transplanted at a slightly later stage develop some new characteristics but keep some old • analogy → like the speech of immigrant children

messages go from

the receptors at the back of the eye back to through the horizontal cells to the bipolar cells

Problem with the frequency theory

the refractory period of a neuron is 1/1000 second, so the maximum firing rate of a neuron in this theory is about 1000 Hz, far short of the highest frequencies we hear

hemorrhage

the result of a ruptured artery • Neurons are flooded with blood and excess oxygen, calcium, and other chemicals • occurs when blood vessel system becomes weak in one area and explodes • may be genetic issue • really bad because its hard to fix esp. the farther interior it is

painful stimuli also activate a path that goes through

the reticular formation of the medulla and then to several of the central nuclei of the thalamus, the amygdala, hippocampus, prefrontal cortex, and cingulate cortex • react NOT to the sensation but to its emotional associations

Lateral inhibition

the retina's way of sharpening contrasts to emphasize borders of objects; the reduction of activity in one neuron by activity in neighboring neurons

neural tube

the start of the nervous system - The dorsal surface thickens - Long thin lips rise, curl, and merge to form the neural tube, which surrounds a fluid-filled cavity - As it sinks under the skin, the top part enlarges and differentiates into the hindbrain, midbrain, and forebrain - The rest becomes the spinal cord - The fluid filled cavity becomes the central canal of the spinal cord and the 4 ventricles of the brain with cerebrospinal fluid

ability to recognize faces correlates strongly with

the strength of connections between the occipital face area and the fusiform gyrus • Prosopagnosia

when just one eye is open in a kitten

the synapses from the open eye inhibit the synapses from the closed eye

A strand of DNA serves as a template for

the synthesis of ribonucleic acid (RNA) molecules, a single strand chemical

Somatosensory system

the system that detects the sensations of the body and its movements

the visual cortex returns many axons to

the thalamus • the thalamus and cortex are constantly feeding information back and forth

When you move your head,

the vestibular organ adjacent to the cochlea → monitors movement and directs compensatory movements of your eyes • head moves left, eyes move right; head moves right eyes move left to keep your eyes focused on what you want to see

current theory: as sounds exceed 100 Hz

the volley principle

if a kitten wears goggles with horizontal lines on them in its early sensitive period,

then nearly all its visual cortex cells become responsive only to horizontal lines • Astigmatism

endomorphin

theoretical; think its an opiate but unsure

When the cilia of a bundle are undisturbed

there is little tension on their insertional plaques by the tip links, so the ion channels are mostly closed, but not completely. Small amounts of K+ and Ca2+ flow in through the ion channel.

When the cilia in a bundle are bent towards the longest cilium - either by direct physical contact with the overlying moving tectorial membrane (outer auditory hair cells) or by the motion of fluid (inner auditory hair cells)

there is much tension on the insertional plaques by the stretching tip links, which leads to the opening of the ion channels. Thus, a lot of K+ and Ca2+ flow in and cause a depolarization of the membrane.

When the cilia in a bundle are bent towards the shortest cilium,

there is no tension on the tip links or insertional plaques so all of the ion channels are completely closed. Therefore, no K+ or Ca2+ flow in and the membrane becomes hyperpolarized.

Even when animals appear altruistic

they have a selfish motive • Crow finds food on the ground → caws for others not to share but because they are vulnerable on the ground alone

a delta fibers

thinly myelinated nerves that carry cold, pressure, and some pain signals

nature also selects

those who are more successful than others in finding food, escaping enemies, attracting mates, or protecting their offspring will be more able to reproduce and their genes will prevail

differentiation takes...

time - meaning our brain is variable for a long time which is adaptive

in adult humans, VNO is...

tiny and vestigial → has no receptors • but part of humans olfactory mucosa contains receptors that resemble other species' pheromone receptors

ossicles

tiny bones that transmit the vibrations to the oval window and increase force - hammer (malleus), anvil (incus), and stirrup (stapes)

treatments for stroke in humans

tissue plasminogen activator (tPA)

Our ancestors managed

to get enough nutrition to provide a big brain with all the food it needs

amusia

tone deafness; cannot tell when people are singing off key and have a hard time gauging emotion from voice • can still imitate other people's pitches though they can't say whether one is higher than another • runs in families • ears likely register information but they fail to process it

how is the auditory cortex arranged?

tonotopically arranged

tonotopically arranged

tonotopy is the spatial arrangement of where sounds of different frequency are processed in the brain. - Tones close to each other in terms of frequency are represented in topologically neighbouring regions in the brain.

olfactory bulb is...

topographically-organized ("olfactotopic") • receptors are randomly distributed but then organize into glomeruli bulbs

mechanical senses include

touch, pain, and other body sensations such as vestibular sensation

rats with damage to visual cortex

training can help to regain lost abilities/memories

Far transfer

training on one task and finding improvement in other tasks • weak effect • brain is not like a muscle; cannot be exercised to be bigger and stronger

near transfer

training on one task and finding improvement in similar tasks

electrical stimulation and pain

transcutaneous electrical nerve stimulation

Amacrine cells

transparent cells that get information from bipolar cells and send it to other bipolar, Amacrine, and ganglion cells • refine input to ganglion cells → enabling certain ones to respond to particular shapes, directions of movement, changes in light, color, and other visual features • amacrine cells run horizontally between the ganglion cells & bipolar cells

Bipolar cells

transparent type of neuron in the retina that receives input directly from the receptors; located closer to the center of the eye

Ganglion cells

transparent type of neuron in the retina that receives input from the bipolar cells; located closer to the center of the eye still than bipolar cells - Retina has more ganglion cells than bipolar cells

Uracil, Guanine, Guanine

tryptophan

brain damage

tumor, infection, radiation/toxin, degenerative conditions

Even when people have virtually the same genes and grow up in the same environment they can

turn out differently

Adding methyl groups (CH3)

turns genes off

Removing methyl groups

turns genes on • Ex → severe traumatic experiences in early childhood decreases methylation of many brain genes increasing later risk of depression, PTSD, etc.

Co-centric receptive field

two parts of a receptive field that cause neurons to respond differently; has a circular center with an antagonistic doughnut-shaped surrounds; excited in the center and inhibited in the surround (ON center) or the opposite (OFF center)

Retinex Theory

vision theory stating that the cortex compares information from various parts of the retina to determine the brightness and color for each area - We make inferences about things we see → visual perception requires reasoning and inference not just retinal stimulation

Cones

visual receptors abundant in and near the fovea that are less active in dim light, more useful in bright light, and essential for color vision - Cones → Color - Provides about 90% of the brain's input

Rods

visual receptors abundant in the periphery of the human retina that respond to faint light but are not useful in the daylight because bright light bleaches them - Outnumber cones 20 to 1

Saccades

voluntary eye movements • area MT and parts of the parietal cortex decrease activity during saccades → become temporarily motion blind

pheromone/VNO anatomy in animals

vomeronasal organ (VNO) - located near olfactory receptors - very few and very speciific (will hardly respond to other odors) - does NOT adapt

olfactory receptors are

vulnerable to damage because they are exposed to air

All parts of the brain make...

way too many neurons; each brain area has a period of massive cell death becoming littered with dead and dying cells - loss of less successful cells in a certain part of the brain often indicates maturation of more successful cells • Teenagers → lose cells in the prefrontal cortex while neuronal activity increases there

Because of our diet

we evolved such big brains without sacrificing other functions • Ancestors learned to cook • Hunted in groups, bringing back more food • Ate nutritional seafood

bacterial brain infections

we have antibiotics that we can use but we're becoming immune to them, esp. with age

Opponent Process Theory

we perceive color in terms of opposites; the brain has a mechanisms that perceives color on a continuum from red to green, another from yellow to blue, and another from white to black - Neuronal fatigue

Trichromatic Theory

we perceive color through the relatives rates of response by three kinds of cones, each one maximally sensitive to a different set of wavelengths; at least 3 different kinds of cones in our eyes and each different cone has different preference for wavelength

denervation supersensitivity

when a certain set of synapses becomes inactive the remaining synapses become more responsive, more easily stimulated (aka receptor Supersensitivity); when neurons are lost, function decreases so existing neurons become supersensitive to return to normal levels but sometimes they overshoot and go past normal levels • demonstrated mostly with dopamine synapses • sometimes enables people to maintain nearly normal behavior • sometimes causes chronic pain • can go from feeling numb to feeling pain because of Supersensitivity • can be good but can go awry • upregulation

Mutations recombinations, and microduplications of genes

• Mutations recombinations, and microduplications of genes introduce new heritable variations that help or harm an individual's chance of surviving and reproducing

Duplication

when during reproduction part of a chromosome that ordinarily appears once might instead appear twice

Deletion

when during reproduction part of a chromosome that ordinarily appears once might instead not appear at all

the developing nervous system faces a challenge when...

when it sends axons over great distances

illusion

when people misperceive a stimulus, the synesthetic experience corresponds to what the person though the stimulus was, not what it actually was • implies that the phenomenon occurs in the cerebral cortex, not in the receptors or their first connections to the nervous system

deafferented

when something has lost its afferent (sensory) input

what happens when women start taking birth control

when women start taking birth control, their preference for a different smelling mate decreases • may be because women who cannot become pregnant at the moment no longer face the risk of inbreeding

focal hand dystonia

when you cannot clearly feel the difference between one finger and another making it difficult to move them independently; one or more fingers may get into constant contraction - Used to treat the hand in the past - Now, give periodic bursts of vibration stimuli to various hand muscles and make musicians carefully attend to the stimuli, improving finger sensations for up to 24 hours - can develop brain so much that bran areas begin to overlap and brain becomes confused as to what it needs to do • usually people just need to back off, but sometimes brain does not go back

Calcarine fissure

where area V1 actually is

papillae

where mammalian taste receptors are on the surface of the tongue • papillae may contain 10 or more taste buds which contains 50 receptor cells - related to taste buds because taste buds are embedded on these bumps

Optic Chiasm

where the optic nerve crosses

Occipital Lobe

where the primary visual cortex is - aka V1, striate cortex, AKA primary visual cortex

Place theory: the lower of the high frequency range...

while stimulates the neurons at the apical end of the basilar membrane the most

The rods and cones of the retina make synapses

with horizontal cells and bipolar cells

pheromones and menstruation

women sync up menstrual cycles due to pheromones - mcclintock effect women cycle faster when constantly in the presence of men which increases chances of passing on genes

Complex Cell Binocular input

yes

End-stopped or hypercomplex cells Binocular input

yes

Simple cells Binocular input

yes

Animal Perspectives

• Many birds have two foveas and their eyes occupy most of the head • Many birds also have a high concentration of receptors on the top half of their retinas for constantly looking down at the ground • Many prey species like mice have more receptors in the bottom half of their retinas for looking up

if development is messed up early in life...

you're messed up

perception

your interpretation, experience of it

how long do olfactory neurons survive

~1 month survival → new one grows when lost

taste buds survive...

~10 days and are then reproduced

neural tube formed

~24 days after conception

how many olfactory receptors are there

~6 million receptors total; ~339 types of receptors

Anatomy of nose

• 1 square inch of mucous membrane up high in the nose that detects smell • cilia of olfactory bipolar neurons (part of brain) protrude through mucous

Organization of the primary visual cortex

• 6 layers (layer 1 = skull; layer 6 is deepest) • visual modules

what is the early brain highly vulnerable to?

• Brain is highly vulnerable to malnutrition, toxic chemicals, and infections that would only produce mild problems at later ages

2 triggers to close pain gates

• CNS trigger → brain registers that you should not be paying attention to pain • PNS trigger

herpes transmission

• Can pass from lips to genitals, vice versa • 60-80% of college students will get herpes

olfaction and binding problem

• Don't know how individual molecules combine to give us different smells like pizza vs. hot dog

ferret study: turns

• It turns Right—so what does this tell you about the answer to the above question? That the temporal cortex in the left hemisphere is processing this stimulus as a type of visual input NOT auditory input

A-δ fibers and pain

• Larger diameter, myelinated, faster • sharp pain (stabbed)

How does the bipolar neuron then tell the brain that it sees yellow?

• Neuron is inhibited which signals yellow

ferret study: now train

• Now train the ferret to be able to communicate with you by training it to turn left when it hears a tone - and learns to turn right when it sees a red light flashed briefly in the left visual field (stimulating the right hemisphere, which is wired normally)

Ferret Experiment: damage

• On one side of the brain, researchers damaged the superior colliculus and the occipital cortex, the two main targets for the optic nerves. On that side, they also damaged the auditory input. They left the other side intact.

Complex Cells respond to

• Responds more strongly to moving stimuli • motion detectors

Where do sex linked genes usually occur?

• Sex linked genes usually occur on the X chromosome because the Y chromosome is very small though it does influence genes on other chromosomes - Ex → red-green color blindness occurs on the X chromosome, meaning all men with the deficient X chromosome will be colorblind; women must have two deficient X chromosomes to be colorblind

Auditory pathway

• Sound enters the ear in the Pinna → travels through the external auditory canal → virbrates tympanic membrane (AKA eardrum) → ossicles (increases force; malleus, incus, stapes) pound on → oval window which virbates → cochlea (fluid-filled) → Organ of Corti (basilar membrane with hair cells & tectorial membrane; transduction occurs here) → 8th cranial nerve and round window

maturation of the vertebrate brain

• The dorsal surface thickens and then long thin lips rise, curl, and merge, forming a neural tube that surrounds a fluid-filled cavity • As the tube sinks under the surface of the skin, the forwards end enlarges and differentiates into the hindbrain, midbrain, and forebrain • The rest becomes the spinal cord • The fluid filled cavity within the neural tube becomes the central canal of the spinal cord and the four ventricles of the brain containing the CSF

Ferret experiment: result

• The ferrets turned the way they had been taught to turn when they saw something → the rewired temporal (auditory) cortex, receiving input from the optic nerve, produced visual responses

Ferret Experiment: the optic nerve

• The optic nerve could not attach to its usual target and the auditory area of the thalamus lacked its usual input • As a result, the optic nerve attached to what is usually the auditory area of the thalamus

Ferret Experiment: stimuli

• The researchers presented stimuli to the normal side of the brain and trained the ferrets to turn one direction when they heard something and the other direction when they saw a light. • Once learned well, the researchers presented a light that rewired side could see

Ferret Experiment: auditory thalamus and cortex

• What would have been the auditory thalamus and cortex reorganized, developing some (but not all) of the characteristic appearance of visual areas

things humans cannot smell

• air molecules (oxygen, nitrogen) • natural gas (we add smell to make gasoline to smell bad) • carbon monoxide

Extrastriate cortex

• aka V2 aka secondary visual cortex • responds to more complex stimuli • may play a small role in visual attention • strong feedback with V1

weight of the human brain at birth, age 1, and adulthood

• at birth, the average brain weighs 350 grams (2 1/3 apples)/.77lbs • at the end of the first year, it weights 1000 grams (2.2 lbs) • the adult brain weighs 1200-1400 grams (9 1/3 apples (2.65-3.09 lbs)

red or green opponent process

• by increasing activity, a neuron can signal that it detects red • by decreasing activity, a neuron can signal that it detects green • or vice-versa

treatments for stroke in lab animals

• decrease stimulation by blocking glutamate synapse or blocking calcium entry • cooling the brain which reduces overstimulation, apoptosis, and inflammation • exposure to cannabinoids minimizes damage by decreasing the release of glutamate and are anti-inflammatory • omega-3 fatty acids

ways to localize sound

• difference in time of arrival at the two ears • difference in intensity/loudness between the ears • phase difference between the ears

each spinal nerve

• each spinal nerve has a sensory and motor component • each spinal nerve innervates a dermatome

ex. of need to know basis

• ex → cells that help your hand muscles reach out to an object need to know the size and location but not the color; cells that help you recognize faces need to be sensitive to details of shape, but not to location

two kinds of itches

• itches causes by mild tissue damage that releases histamines that dilate blood vessels and produce an itching sensation • contact with certain plants (cowhage) produce itches

Spinomesencephalic tract

• nociceptors → spinal cord → reticular formation (medulla) → several central nuclei (thalamus) & amygdala & hippocampus & prefrontal cortex & cingulate cortex

Pain modulation pathway: CNS trigger (top down) (powerful method)

• opiates inhibit PAG interneurons • → thus disinhibiting other PAG neurons which release • →enkephalins to excite raphe nucleus (medulla) neurons to release • → 5-HT in spinal cord • → simulating spinal cord interneurons to release enkephalins which prevent the release of substance P (below is a figure which illustrates the role of the spinal interneuron)

There are several layers of the LGN

• outer layers (6- 3) • lower layers (2 -1)

face recognition depends on several brain areas including

• part of the inferior occipital cortex known as the occipital face area → parts of the face • the amygdala • parts of the temporal cortex, including the fusiform gyrus, especially in the right hemisphere → face viewed from any angle

only 3 types of objects produce specific responses

• pictures of places • faces • bodies

what methods of birth control do not work

• pull-out method • temperature tracking • calendar method

Epigenetics in humans

• when you learn something, activity in certain genes in certain cells is increased while in others it is decreased • drug addiction produced epigenetic changes • feeling socially isolated or rejected alters the activity of hundreds of genes

Visual field

→ everything you can see

Low blood glucose

→ impairs brain development in infants

Fever

→ impairs neuron proliferation in fetus

Impaired thyroid function (iodine deficiency)

→ lethargy in adults, mental retardation in infants (rare today)

additive color mixing

→ mixing light together, causes white

subtractive color mixing

→ mixing pigments together, causes black

gustatory pathways

→ nucleus of tractus solitarious (medulla) → pons • & lateral hypothalamus • & amygdala • & somatosensory cortex (tongue stimulation) • & ventral posteromedial thalamic nucleus (which also receives somatosensory information) → primary gustatory cortex (insular cortex) → secondary gustatory cortex (caudolateral orbitofrontal cortex)

auditory pathway: contralateral side

→ superior olivary (medulla) → lateral lemniscus → inferior colliculi (midbrain) →medial geniculate nucleus (thalamus) → primary auditory cortex (superior temporal lobe)

auditory pathway: ipsilateral side

→superior olivary (medulla) → inferior colliculi (midbrain) → medial geniculate nucleus → primary auditory cortex (superior temporal lobe)


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