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Pataasin ang iyong marka sa homework at exams ngayon gamit ang Quizwiz!

Damage to the brain that affects speech and language can produce the condition known as __________. Fill in the blank

aphasia

Depolarization of an axon is a positive feedback mechanism because ________. -as more sodium diffuses into the axon, the more voltage-gated sodium channels open -as more potassium channels open, the membrane potential decreases -as more sodium diffuses into the axon, the more voltage-gated potassium channels open -as more sodium channels open, the membrane potential decreases

as more sodium diffuses into the axon, the more voltage-gated sodium channels open

An electroencephalogram obtained from an adult who is thinking would probably display many ________ waves. theta alpha beta delta

beta

Ketone bodies are produced due to ________. excessive protein breakdown excessive carbohydrate breakdown excessive fat breakdown All of the choices are correct.

excessive fat breakdown

Glucose enters the cell through _____________ facilitated diffusion higher to lower thermal energy passive transport specificity

facilitated diffusion

The total amount of FADH2 produced by one turn of the citric acid cycle is ________. 15 molecules 30 molecules two molecules one molecule

one molecule

Movement of large molecules into a cell is called ________. Both endocytosis and bulk transport are correct. endocytosis exocytosis bulk transport

Both endocytosis and bulk transport are correct.

Removes phosphate groups is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Phosphatase

What amino acid is a precursor of dopamine? Serine Tyrosine Tryptophan Leucine

Tyrosine

The primary intracellular cation is ________. Mg2+ Ca2+ Na+ K+

K+

Adds phosphate groups is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Kinase

Active transport carriers are also called ________. channels receptors pumps vesicles

pumps

Match the class of enzyme with its function. 1. Adds water to split molecules 2. Removes phosphate groups 3. Removes water to join molecules 4. Removes hydrogens 5. Adds phosphate groups 6. Rearranges the atoms in a molecule

1. Hydrolase 2. Phosphatase 3. Synthase 4. Dehydrogenase 5. Kinase 6. Isomerase

Clinical Investigation: Parkinson's Disease Read the overview and complete the interactivities that follow. A physician examined Henry, a 66-year-old man, because he displayed symptoms of Parkinson's disease: resting tremor, muscle rigidity, and bradykinesia (slowness in the initiation and continuation of movement). This made it difficult for Henry to perform daily tasks such as getting dressed, bathing, and many other activities. Further physical examination and a thorough history, together with an MRI to rule out alternative possibilities, confirmed the diagnosis. The physician placed Henry on a dopamine agonist that can cross the blood-brain barrier, and said that this could be supplemented later by levodopa, an MAO inhibitor, anticholinergics, and other medications. A drug must be able to cross the blood-brain barrier to be effective in treating brain disorders such as Parkinson's disease. Dopamine agonist drugs enter the brain and stimulate dopamine receptors on postsynaptic neurons. This helps to stimulate those neurons of the basal nuclei (basal ganglia) that are normally activated by dopaminergic neurons of the nigrostriatal dopamine system. Dopamine is derived from L-dopa (levodopa), and is a monoamine degraded within presynaptic axons by the enzyme monoamine oxidase (MAO). Dopaminergic neurons produce effects that are antagonized by ACh released by other neurons that synapse in the basal nuclei. Getting You Thinking: What are the monoamines? What is the blood-brain barrier? How would a dopamine agonist, levodopa, and an MAO inhibitor benefit a person with Parkinson's disease? What is an anticholinergic drug, and how would such a drug benefit a person with Parkinson's disease? Aside from motor control, what other known functions are served by dopamine in the brain? 1. What is the nigrostriatal tract? Neural tracts that release dopamine Neural tracts that release serotonin Neural tracts that release dopamine and are involved in motor control Neural tracts involved with mood and emotion 2. What amino acid is a precursor of dopamine? Tyrosine Tryptophan Leucine Serine 3. What degrades and inactivates dopamine after it has stimulated the postsynaptic neuron? Norepinephrine Monoamine oxidase Serotonin Acetylcholinesterase 4. Where is dopamine needed to relieve the symptoms of Parkinson's disease? Basal nuclei Skeletal muscles Substantia nigra Red nucleus

1. Neural tracts that release dopamine and are involved in motor control. 2. Tyrosine. 3. Monoamine oxidase. 4. Basal nuclei.

Clinical Application Read the overview and complete the interactivities that follow. Renal failure results in the accumulation of waste products in the blood that are normally removed by the kidneys. Individuals with renal failure develop conditions including edema and metabolic acidosis. Substances that normally filter through the nephron are no longer able to do so at the same rate, and therefore accumulate in the blood. One treatment modality for this condition is to put a patient on dialysis. In this process, waste molecules are removed from the blood by having them diffuse through an artificial porous membrane. The wastes pass into a solution called dialysate, which surrounds the dialysis membrane. Molecules needed by they body, however, are kept in the blood by including them in the dialysate. This prevents their net diffusion by abolishing their concentration gradients. Getting You Thinking: What would results if dialysis was not performed in the body? What types of molecules will move through the membrane? What types of molectules will not be abe to pass through the membrane? What is edema? Why would metabolic acidosis be harmful to the body? 1. What normally prevents blood cells and proteins from diffusing into the filtrate in the urine? They are in a higher concentration in the filtrate They are charged They are too large 2. Hydrogen ions can pass through a dialysis membrane because: They are actively transported with the sodium ions They are moving down their concentration gradient The positive charges are attracted to the negative interior 3. Edema occurs when: There is decreased fibrinogen production Tissue osmolality is too high Blood osmolality is too high There is excessive albumin production 4. Which of the following would be used to reduce cerebral edema? Ringer's lactate Normal saline Mannitol 5% dextrose

1. They are too large. 2. They are moving down their concentration gradient. 3. Tissue osmolality is too high. 4. Mannitol.

There are ________ pairs of cranial nerves and ________ pairs of spinal nerves. 12; 31 15; 31 31; 12 12; 25

12; 31

he total percentage of blood flow to the body per minute that goes to the brain is 15 25 20 30

15

A six molar sucrose (molecular weight = 342g) solution would contain ________. 1026g sucrose per liter 57g sucrose per liter 2052g sucrose per liter 342g sucrose per liter

2052g sucrose per liter

The Na+/K+ pump transports ________ into the cell and ________ out of the cell per cycle. 2Na+; 3K+ 2K+; 3Na+ 3Na+; 2K+ 3K+; 2Na+

2K+; 3Na+

What percentage of energy released by aerobic respiration of glucose is captured by ATP? 25-30% 42-46% 38-40% 30-34%

38-40%

How much of the total body water content is in the intracellular compartment? 33% 50% 80% 67%

67%

How many grams of sucrose (molecular weight = 342g) would need to be added to 1L of water to produce a 2.5 Osm solution? 342 855 500 2.5

855

A 0.5M glucose (molecular weight = 180g) contains ________ grams of glucose per liter. 6.02 × 1023 360 90 180

90

Which of the following is NOT true of a person who is dehydrated? Hypothalamus stimulates release of ADH Increased osmolality causes thirst ADH causes the kidneys to excrete water Plasma osmolality increases

ADH causes the kidneys to excrete water

The transport of protons from the intermembrane space to the mitochondrial matrix occurs via ________. FADH-coenzyme Q reductase complex ATP synthase lactate dehydrogenase transaminase

ATP synthase

The hypothalamus and the limbic system are in _________. aggression fear sex goal-directed behavior All of the choices are correct.

All of the choices are correct.

Which of the following are natural analgesics? Endorphins Enkephalins Dynorphins All of the choices are correct.

All of the choices are correct.

What structure connects Wernicke's area to the motor speech area? Corpus callosum Corpus striatum Angular gyrus Arcuate fasciculus

Arcuate fasciculus

Which division of the nervous system innervates involuntary effectors? Central nervous system Somatic nervous system Autonomic nervous system

Autonomic nervous system

NAD is derived from the vitamin ________. B-2, riboflavin B-6, pyridoxine B-12, cobalamin B-3, niacin

B-3, niacin

Where is dopamine needed to relieve the symptoms of Parkinson's disease? Substantia nigra Skeletal muscles Basal nuclei Red nucleus

Basal nuclei

If the dorsal root of a spinal nerve were to be cut, the individual would ________. have no motor responses for that nerve have no sensory perception from that nerve have no reflexes involving that nerve Both have no sensory perception from that nerve and have no reflexes involving that nerve are correct.

Both have no sensory perception from that nerve and have no reflexes involving that nerve are correct.

Hyperpolarization in the postsynaptic cell is caused by ________. Both inhibitory postsynaptic potentials and movement of K+ out of the cell are correct. movement of K+ out of the cell excitatory postsynaptic potentials inhibitory postsynaptic potentials

Both inhibitory postsynaptic potentials and movement of K+ out of the cell are correct.

Neural stem cells in adult mammalian brains are found in the ________. subgranular zone midbrain cerebral cortex subventricular zone Both the subventricular and subgranular zones.

Both the subventricular and subgranular zones.

Cerebrospinal fluid is found _______ Both within the central canal and within the ventricles. within the ventricles of the brain within the olfactory bulbs within the central canal of the spinal cord

Both within the central canal and within the ventricles.

Cerebrospinal fluid is found ________ within the ventricles of the brain within the central canal of the spinal cord within the olfactory bulbs Both within the central canal and within the ventricles.

Both within the central canal and within the ventricles.

Check all of the functions of Antidiuretic Hormone (ADH). Decrease blood osmolality Inhibit thirst Stimulate water intake Increase water retention Raise the osmolality of the cells

Decrease blood osmolality Stimulate water intake Increase water retention

Removes hydrogens is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Dehydrogenase

Which type of EEG pattern in an awake adult is indicative of brain damage? Beta waves Theta waves Alpha waves Delta waves

Delta waves

How many amino acids are essential for an adult? Eight Nine Ten Twelve

Eight

Which of the following statements about enzymes is FALSE? Enzymes decrease the free energy of activation of specific reactions. Enzymes increase chemical reaction rates. Enzymes are consumed during a chemical reaction. Enzymes have unique pH and temperature optima.

Enzymes are consumed during a chemical reaction.

Complete the following sentences to explain the graph showing the effect of pH on enzyme activity. Body fluid pH optimum alkaline narrow wide increase acidic 2 7 decrease 9 pepsin

Enzymes exhibit peak activity in a narrow pH range called the pH optimum. If the pH is not in this range the reaction rate will decrease. The pH optimum of an enzyme corresponds to the body fluid in which it is found. For instance pepsin has a pH optimum around 2 to allow it to work in the extremely acidic gastric juice; whereas trypsin has a pH optimum around 9 to allow it to work in the alkaline pH of the pancreatic juice.

The glucose carrier of skeletal muscle is designated as ________ . GLUT2 GLUT3 GLUT4 GLUT5

GLUT4

What structures are used for direct cell to cell signaling? Exocytosis vesicles Tight junctions Desmosomes Gap junctions

Gap junctions

Select the correct word from the list to complete each sentence about the facilitated diffusion of glucose

Glucose enters the cell through facilitated diffusion. Glucose diffusion involves traveling from a region of higher to lower concentration. The diffusion of glucose entering a cell utilizes thermal energy to power the process. Carrier-mediated transport of glucose into skeletal muscles is a form of passive transport. Carrier-mediated transport involves specificity, competition, and saturation.

Adds water to split molecules is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Hydrolase

Pancreatic amylase catalyzes the breakdown of oligosaccharides to disaccharides with the addition of water. What classification of enzymes would amylase be in? Hydrolase Dehydrogenase Synthase Isomerase

Hydrolase

What type of intravenous fluid would be given to reduce edema? Hypertonic Isotonic Hypotonic

Hypertonic

Check all that apply. If you could modify an axon so that it transmits impulses faster than before, which of the following modifications should you make? Decrease the diameter of the axon Increase the diameter of the axon Increase the myelination of the axon Decrease the temperature in the body Increase the temperature in the body Increase the amount of voltage gated channels within the Schwann cells

Increase the diameter of the axon Increase the myelination of the axon Increase the temperature in the body

How do neurons code for a greater response? More active Na+/K+ pump Increased frequency of stimuli Greater amplitude of stimuli Greater Na+ concentration gradient

Increased frequency of stimuli

What structures affect cell motility, adhesion, and proliferation? Integrins Collagen IV Basal lamina Proteoglycans

Integrins

How do small molecules like Na+ of K+ pass through the plasma membrane? Ion channels Simple diffusion Gated channels Carrier proteins

Ion channels

Rearranges the atoms in a molecule is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Isomerase

Clinical Application: Hyperglycemia Read the overview and complete the interactivities that follow. Jessica, a 16-year-old physiology student, reports to her doctor that she drinks water constantly but it does not quench her thirst. During a physiology lab exercise involving tests of her urine, she discovers that her urine contains measurable amounts of glucose. Alarmed, she makes an appointment with her physician, who tests her blood and urine. It is determined that Jessica has Type I diabetes mellitus, in which the pancreas fails to produce enough insulin, which moves glucose out of the blood and into a number of tissues in the body. Getting you thinking: Is it OK to have small amounts of glucose in the urine? Why would higher or measurable amounts of glucose in the urine be an indication of problem? Why does the elevated level of glucose cause her to be so thirsty? How is the deficiency of insulin related to thirst?

Kidneys Hypothalamus Decreased plasma osmolality Decreased blood volume

Which of the following would be used to reduce cerebral edema? Mannitol Normal saline 5% dextrose Ringer's lactate

Mannitol

What degrades and inactivates dopamine after it has stimulated the postsynaptic neuron? Acetylcholinesterase Monoamine oxidase Norepinephrine Serotonin

Monoamine oxidase

During an action potential ________. Na+ influx causes depolarization Na+ efflux causes depolarization K+ influx causes after-hyperpolarization K+ influx causes repolarization

Na+ influx causes depolarization

What is needed to return a membrane to its resting membrane potential, with all ions in the correct locations? Outflow of Na+ ions via passive ion channels Outflow of K+ ions via passive ion channels Na+/K+ pump action Influx of negatively charged ions into the cell

Na+/K+ pump action

A drug that blocked ligand-gated ________ channels would prevent neuron ________. Ca2+; repolarization Na+; depolarization Na+; hyperpolarization K+; depolarization

Na+; depolarization

What is the nigrostriatal tract? Neural tracts that release dopamine Neural tracts involved with mood and emotion Neural tracts that release serotonin Neural tracts that release dopamine and are involved in motor control

Neural tracts that release dopamine and are involved in motor control

Which ion's movement is responsible for repolarization? Outward diffusion of K+ Influx of K+ Influx of Na+ Outward diffusion of Na+

Outward diffusion of K+

Select the correct word from the list to complete each sentence about the chemical signaling between cells. synaptic regulation receptor proteins within outside of synaptic clefts endocrine regulation

Paracrine regulation involves the release of regulatory molecules that act within the organ. In, synaptic regulation a neuron releases a neurotransmitter, which acts on a target cell. In, endocrine regulation a hormone is released into the blood and is carried to a target organ. Target cells must have receptor proteins in order to respond to a hormone, neurotransmitter, or paracrine regulator

What type of cell signaling occurs through the extracellular matrix to nearby target cells? Synaptic signaling Endocrine signaling Paracrine signaling Gap junctions

Paracrine signaling

In what condition would a diet low in phenylalanine be recommended for a young child? PKU MI Prostate cancer Paget's disease

Phenylketonuria (PKU)

Check all that apply regarding the hypothalamus. Responds to changes in ambient temperature Regulates the release of thyroid stimulating hormone Regulates sleep and wakefulness Evokes nausea during anxiety Secretes the hormone melatonin Relays sensory information to the cerebrum

Responds to changes in ambient temperature Regulates the release of thyroid stimulating hormone Regulates sleep and wakefulness Evokes nausea during anxiety

Which of the following types of transport does not require membrane proteins? Bulk Active Simple diffusion Facilitated diffusion

Simple diffusion

Which of the following organs do NOT normally have many aquaporins in the plasma membranes of their cells? Skin Kidneys Salivary glands Lungs

Skin

What type of cell signaling uses neurotransmitters to innervate its target organ? Paracrine signaling Endocrine signaling Synaptic signaling Gap junctions

Synaptic signaling

Removes water to join molecules is _____________. Hydrolase Phosphatase Synthase Dehydrogenase Kinase Isomerase

Synthase

Check all that apply. If astrocytes were damaged or lost, how would this impact CNS function? An individual may experience difficulty initiating movement, or slowness in movement. The composition of cerebral spinal fluid would be very similar to blood plasma. Production of CSF would be diminished. Toxic substances could easily build up in the brain.

The composition of cerebral spinal fluid would be very similar to blood plasma. Toxic substances could easily build up in the brain

Which of the following does NOT affect the activity of an enzyme? Concentration of cofactors and coenzymes Concentration of enzyme and substrate molecules pH and temperature The organ the enzyme is in

The organ the enzyme is in

Hydrogen ions can pass through a dialysis membrane because: They are actively transported with the sodium ions They are moving down their concentration gradient The positive charges are attracted to the negative interior

They are moving down their concentration gradient

What normally prevents blood cells and proteins from diffusing into the filtrate in the urine? They are in a higher concentration in the filtrate They are too large They are charged

They are too large

Check all that apply as characteristics of oligodendrocytes. They are a type of neuroglia found in the PNS. They would be affected by a demyelinating disease of the PNS. They can surround multiple axons in the CNS at the same time. They myelinate the cell bodies of neurons in the CNS. They contribute to the "white matter" of the brain.

They can surround multiple axons in the CNS at the same time. They contribute to the "white matter" of the brain.

Edema occurs when: Tissue osmolality is too high Blood osmolality is too high There is excessive albumin production There is decreased fibrinogen production

Tissue osmolality is too high

Choose the statement that correctly describes the structure or function of dendrites. Transmit graded electrochemical impulses toward the cell body Release neurotransmitters to initiate graded potentials in adjacent cells Transmit action potentials away from the cell body Are thin extensions of the axon

Transmit graded electrochemical impulses toward the cell body

What type of neurons are found in the precentral gyrus? Upper motor neurons Second-order sensory neurons Third-order sensory neurons Lower motor neurons

Upper motor neurons

Select the correct word from the list to complete each sentence regarding the steps of an action potential. (Open, Negative, Close, Less, Positive, More) When Na⁺ diffuses into the cell, the cell becomes ____________ depolarized. Na+ diffusing into the cell causes more Na+ gates to open, which is a ____________ feedback loop. When K⁺ diffuses out of the cell, the cell becomes ____________ depolarized. K⁺ diffusing out of the cell has a ____________ feedback effect on the initial depolarization. The voltage-gated Na⁺ channels ____________ when the cell membrane reaches threshold level as a result of a stimulus. The voltage-gated Na⁺ channels ____________ when the cell reaches +30 mV.

When Na⁺ diffuses into the cell, the cell becomes more depolarized. Na+ diffusing into the cell causes more Na+ gates to open, which is a positive feedback loop. When K⁺ diffuses out of the cell, the cell becomes less depolarized. K⁺ diffusing out of the cell has a negative feedback effect on the initial depolarization. The voltage-gated Na⁺ channels open when the cell membrane reaches threshold level as a result of a stimulus. The voltage-gated Na⁺ channels close when the cell reaches +30 mV.

Action potentials would be conducted most rapidly by ________. a 10 mm diameter myelinated axon a 10 mm diameter unmyelinated axon a 40 mm diameter unmyelinated axon a 40 mm diameter myelinated axon

a 40 mm diameter myelinated axon

Sweet smelling breath may be the result of elevated ________ in the blood. fructose glucose acetone cholesterol

acetone

The substrate binds to the ________ of the enzyme. neutral site acidic site allosteric site active site

active site

A defect in the enzyme that catalyzes the formation of melanin from DOPA results in ________. phenylketonuria albinism maple-syrup disease lactose intolerance

albinism

In order to prevent a patient from experiencing pain, local anesthetics must ________ in sensory neurons, which would prevent an action potential. inhibit the release of acetylcholine bind to potassium channels bind to sodium channels bind to calcium channels

bind to sodium channels

Neurotransmitter release would be inhibited by ________. blocking Ca2+ influx in the axon terminal blocking repolarization of the axon terminal stimulating protein kinase activity stimulating repolarization of the axon terminal

blocking Ca2+ influx in the axon terminal

REM sleep is unique from other stages in that ________. learning from activities during the day occurs breathing and heart rate mimic the patterns during waking hours memory consolidation can occur it causes ideal rest, without emotional activation

breathing and heart rate mimic the patterns during waking hours

Under normal conditions, ATP can only be produced through aerobic respiration by ________. cardiac muscle fibers skin cells red blood cells skeletal muscle fibers

cardiac muscle fibers

Individuals suffering from cystic fibrosis have defective ________ ion channels. potassium chloride calcium sodium

chloride

Metal ions such as magnesium or calcium can serve as enzyme ________. substrates cofactors ribozymes coenzymes

cofactors

A cell placed in a 9% saline solution (molecular weight = 58.5g) would ________. lyse not change crenate swell

crenate

The famous patient "H.M." could not remember events that occurred after his memory was damaged after he had brain surgery to treat his epilepsy. He retained his perceptual and motor skills, but lost his memory of new facts and events. Thus, H.M.'s deficit was in ________. nondeclarative or explicit memory declarative or explicit memory declarative or implicit memory nondeclarative or implicit memory

declarative or explicit memory

The amount of water in a cell placed in a 0.8 Osm solution would ________. remain constant increase decrease

decrease

Impaired motor coordination in Parkinson's disease is often due to ________. degeneration of the substantia nigra degeneration of the red nucleus damage to the caudate nucleus degeneration of the mesolimbic system

degeneration of the substantia nigra

In, ________ a hormone is released into the blood and is carried to a target organ. synaptic regulation receptor proteins within outside of synaptic clefts endocrine regulation

endocrine regulation

Botulism toxin prevents release of ACh, causing ________ flaccid paralysis hemiplegia spastic paralysis None of the choices are correct.

flaccid paralysis

During reduction, a molecule or atom ________. loses protons or gains electrons gains protons or gains electrons loses protons or loses electrons gains protons or loses electrons

gains protons or gains electrons

Ion channels that can be opened by physiological stimuli are said to be ________. hypertonic gated aquaporins polar

gated

A person fasting for several days would meet the majority of their blood glucose needs through ________. glycogenolysis lipolysis ketogenesis gluconeogenesis

gluconeogenesis

The opposite process of glycogenesis is ________. gluconeogenesis glycolysis glycogenolysis glyconeogenesis

glycogenolysis

Damage to the temporal lobe of the cerebrum would have the greatest impact on ________. voluntary skeletal muscle contraction distinguishin between different somatic sensations vision hearing

hearing

A red blood cell placed into a 0.3 m-solution of urea (a penetrating solute) will exhibit __________. crenation hemolysis no change

hemolysis

Glucose diffusion involves traveling from a region of _______________ concentration. facilitated diffusion higher to lower thermal energy passive transport specificity

higher to lower

A reaction which uses water to break bonds between molecules would be catalyzed by a ________ enzyme. isomerase synthase hydrolase dehydrogenase

hydrolase

Cerebral edema would be treated with a(an) ________ intravenous solution of mannitol. isotonic hypotonic hypertonic

hypertonic

Releasing and inhibiting hormones are produced in the ________. posterior pituitary gland pineal gland hypothalamus anterior pituitary gland

hypothalamus

A chemical reaction rate can be increased by either ________ the temperature or ________ the activation energy increasing; decreasing increasing; increasing decreasing; increasing decreasing; decreasing

increasing; decreasing

The model that describes how an enzyme can adjust its shape to fit the shape of the substrate is the ________ model. induced-fit enzyme-substrate conformational lock-and-key

induced-fit

Being able to recognize the face of a schoolmate at your 30-year reunion would be a function of the ________. medial temporal lobes inferior temporal lobes occipital lobe anterior frontal lobes

inferior temporal lobes

A 0.1 Osm plasma sample would stimulate the action of osmoreceptors stimulate an increase in blood volume inhibit the release of antidiuretic hormone be hypertonic to the cells

inhibit the release of antidiuretic hormone

A 0.1 Osm plasma sample would ________. be hypertonic to the cells inhibit the release of antidiuretic hormone stimulate the action of osmoreceptors stimulate an increase in blood volume

inhibit the release of antidiuretic hormone

The ________ is a cerebral lobe that is involved in memory and integration of sensory information (mostly pain) with visceral responses. frontal parietal temporal insula

insula

The function of ________ is to link sensory stimuli with the appropriate motor responses. bipolar neurons pseudounipolar neurons motor neurons interneurons

interneurons

The Cori cycle converts ________ to pyruvate. lactate acetyl CoA glucose alcohol

lactate

Damage to the ________ will cause a lack of motivation and sexual desire as well as deficient cognitive functions. medial temporal lobe amygdaloid body lateral prefrontal area hypothalamus

lateral prefrontal area

After an accident, a patient has difficulty moving the limbs on his right side. Damage was most likely sustained by the ________. left cerebral cortex right cerebral cortex cerebellum left globus pallidus

left cerebral cortex

Blood glucose concentrations can be maintained by hydrolysis of glycogen in the ________. kidneys smooth muscle liver skeletal muscle

liver

During oxidation, a molecule or atom ________. loses protons gains electrons loses electrons gains protons

loses electrons

Energy lost during the process of aerobic cell respiration is given off as ________. water metabolic heat oxygen carbon dioxide

metabolic heat

Alzheimer disease is ________. -not associated with or mediated by any lifestyle changes -associated with excessive accumulation of cortical neurons, preventing proper synaptic transmission in the brain -a genetic disease with a clinical course similar to Parkinson's disease -multifactorial, involving potential changes in enzyme, protein and lipid activity in the brain.

multifactorial, involving potential changes in enzyme, protein and lipid activity in the brain.

The formation of new neurons from stem cells is called ____________. neural plasticity endogenesis neurogenesis embryogenesis

neurogenesis

The gap of exposed axon in the myelin sheath is the ________. white matter node of Ranvier sheath of Schwann neurilemma

node of Ranvier

Fatty acid metabolism ________. occurs via beta-oxidation occurs via oxidative deamination occurs via the Cori cycle occurs via glycolysis

occurs via beta-oxidation

The myelin sheaths of CNS neurons are produced by ________. oligodendrocytes leukocytes Schwann cells ependymal cells

oligodendrocytes

Each turn of the citric acid cycle directly produces ________ molecule(s) of ATP. one no four two

one

Passive transport of water is known as ________. osmosis a water pump facilitated diffusion filtration

osmosis

Ammonia is produced through the process of ________. glycogenolysis the Cori cycle transamination oxidative deamination

oxidative deamination

The final electron acceptor in aerobic cell respiration is ________. carbon dioxide oxygen ATP water

oxygen

Accumulation of lactate contributes to ________. glycogen synthesis decreased liver gluconeogenesis decreased brain function oxygen debt

oxygen debt

Carrier-mediated transport of glucose into skeletal muscles is a form of _____________. facilitated diffusion higher to lower thermal energy passive transport specificity

passive transport

Glucose transported via the GLUT carrier is characterized as ________. active transport passive transport co-transport receptor-mediated endocytosis

passive transport

The membrane of resting nerve cells is more permeable to ________ ions than ________ ions. potassium; sodium sodium; potassium chloride; potassium calcium; potassium

potassium; sodium

Riding a bicycle with ease after years of not riding is an example of ________ memory. working procedural semantic episodic

procedural

Unlike chemical synapses, electrical synapses ________. -are not dependent on the movement of ions across a plasma membrane -provide adjacent cells with the ability to act in a coordinated fashion -are the method of connection between adjacent neurons -allow communication between cells with larger distances between the membranes

provide adjacent cells with the ability to act in a coordinated fashion

Acetyl CoA is generated from ________. citric acid water oxaloacetate pyruvate

pyruvate

Target cells must have___________ in order to respond to a hormone, neurotransmitter, or paracrine regulator synaptic regulation receptor proteins within outside of synaptic clefts endocrine regulation

receptor proteins

Anaerobic metabolism is the primary source of ATP production in ________. red blood cells neurons skeletal muscle cells white blood cells

red blood cells

The electron transport chain functions to ________. reduce oxygen molecules in order to create the energy to bind phosphate molecules together create a proton gradient across the outer mitochondrial membrane create a proton gradient across the cytoplasm that reduces oxygen molecules reduce oxygen molecules in order to create the energy to break down ATP

reduce oxygen molecules in order to create the energy to bind phosphate molecules together

A membrane that allows only certain molecules to pass through it is called________ countertransport selectively permeable porous permeable

selectively permeable

One glucose would generate ________ NADH molecules via the citric acid cycle. six three eight two

six

Muscarinic ACh receptors are found in all of the following locations EXCEPT ________. cardiac muscle smooth muscle glands skeletal muscle

skeletal muscle

A solution consists of a ________ which dissolves the ________. solvent; solute solute; solvent solvent; solid liquid; solid

solvent; solute

Regardless of solubility, a cell signaling molecule could not affect a target cell without ________. being attached to another cell a second messenger in the plasma membrane specific receptor proteins within the cell or in the plasma membrane All of the choices are correct.

specific receptor proteins within the cell or in the plasma membrane

Carrier-mediated transport involves ___________, competition, and saturation. facilitated diffusion higher to lower thermal energy passive transport specificity

specificity

Osmotic pressure is a measure of the force needed to ________. open aquaporins stop edema stop osmosis cause osmosis

stop osmosis

Reactant molecules of enzyme action are called ________. cofactors substrates products allosteric inhibitors

substrates

Visual reflexes would be impaired by damage to the ________. superior colliculi inferior colliculi medial geniculate nuclei red nucleus

superior colliculi

In, __________ a neuron releases a neurotransmitter, which acts on a target cell. synaptic regulation receptor proteins within outside of synaptic clefts endocrine regulation

synaptic regulation

A reaction which creates larger molecules from substrates and results in water as a byproduct would be catalyzed by a ________ enzyme. hydrolase dehydrogenase isomerase synthase

synthase

The primary site of ketone body synthesis is ________. the liver adipose tissue the lung the kidney

the liver

Check all that apply as characteristics of myelinated axons. -Myelinated axons transmit nerve impulses via continuous conduction. -Myelinated axons transmit nerve impulses in the same manner as unmyelinated axons. -Myelinated axons utilize fewer voltage-gated channels than unmyelinated axons of the same length and diameter. -Myelinated axons are more energy efficient than unmyelinated axons. -Myelinated axons would be unaffected by diseases that attack the CNS.

-Myelinated axons utilize fewer voltage-gated channels than unmyelinated axons of the same length and diameter. -Myelinated axons are more energy efficient than unmyelinated axons.

The diffusion of glucose entering a cell utilizes _____________ to power the process. facilitated diffusion higher to lower thermal energy passive transport specificity

thermal energy

The minimum depolarization needed to open Na+ gates is called the ________. refractory period threshold all-or-none law repolarization

threshold

To go through glycolysis, ________ ATP per glucose molecule must be "invested" in order to activate the glucose molecule. one four three two

two

Active transport ________. cannot transport molecules against a concentration gradient utilizes energy cannot reach a saturation point requires cofactors

utilizes energy

Ion channels that open in response to depolarization are called ________. voltage-gated channels ion-gated channels potential-gated channels stimulation-gated channels

voltage-gated channels

Paracrine regulation involves the release of regulatory molecules that act ________ the organ. synaptic regulation receptor proteins within outside of synaptic clefts endocrine regulation

within

The average resting membrane potential of an axon is ________. +30mV 0 mV −70mV −85mV

−70mV


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