BIO 201 Lecture Exam 1

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Action potential

"Nerve impulses" self-regenerating wave of electrochemical activity that allows neurons to carry signal over distance; pulse

Resting Period

-70mV the outside is positive and the inside is negative

List and describe the specialties of physiology

-Cell physiology: processes within and between cells -Organ physiology: functions of specific -Systemic physiology: functions of an organ system -Pathological physiology: effects of diseases

Membrane potential

3 Na out, 2 K in exchange pump, resting membrane potential of -70mV

How many Na and K ions does the Na/K pump move and in what direction do these tow ions move?

3 Na+ out 2 K+ in

About how many ATP are generated from one little molecule of glucose? The answer depends. Why?

36-38 ATP; it depends on the route the electrons take from NADH in cytosol

How many ATP are generated from the glycolytic pathway? How many ATP are used to get the process up and running? What is the significance of this? What then is the main purpose of the glycolytic pathway in aerobic creatures?

4 generated; 2 used to start reaction; makes 2 extra ATP, makes pyruvate which is used in the Kreb's Cycle. It helps to start ATP synthase and keep the cycle going to create the ATP

What portion of total body weight is represented by each of the 3 types of fluids?

40% intracellular 16% extracellular 4% plasma

List the main products of the Krebs Cycle. So, is there really all that much energy ATP produced during the Krebs cycle? What then is the main point of it?

6 NADH- 2 FADH2 2 ATP 4 CO2 The 6+2 NADH and 2 FADH are used in the electron transport chain, which makes all of the ATP. Only 2 ATP are produced.

List the major organs in each cavity.

??

What is a voltage gated channel?

A channel that responds to change in the transmembrane potential

How do ATPase and ATP synthase differ?

ATPase breaks bond to create energy; ATP Synthase adds phosphate to ADP to make ATP

Activation gates

Activated when the potential reaches a certain level

Why is a hydrolysis an important reaction type in regards to ATP?

Adding H2O; important because going from more complex to less complex, adding water

What is the structure of ATP?

Adenosine Triphosphate; organic molecule containing high-energy phosphate bonds

We are aerobic creatures. What does this mean?

Aerobic means that oxygen is needed to break down food and create energy

How are anatomy and physiology related?

Anatomy is the study of the internal and external parts of the body. Physiology is how living organisms perform their vital functions.

Compare and contrast catabolism with anabolism. Use examples to help understand the differences.

Catabolism: tearing down; decomposition of complex molecules within the body's cells or tissues(breaking down glucose) Anabolism: building up; synthesis of new molecules within the body's cells or tissues

Threshold

Causes voltage gated channels to open, exchange occurs at -60mV

Name the levels of structural organization that make up the human body and explain how they're related.

Chemical-cellular-tissue-organ-system-organism.

Compare and contrast the 3 types of ion channels.

Chemically gated: Opens as a response to ACh at binding site Voltage gated: Responds to changes in transmembrane potential Mechanically gated: Opens in response to distortion of the membrane by an applied pressure

What is crenation? Hemolysis?

Crenation: cell shriveling or shrinking Hemolysis: rupturing of red blood cells

Label the major structures found in a neuron and describe their functions.

Dendrite: Spikes off cell body, short, highly branched signal receptive regions - convey incoming messages toward cell body Cell Body: Flat part that dendrites come off of, receives messages Axon: Impulse generating and conducting region of the neuron Schwann Cell: One single cell in the axon Axon Terminal: The opposite end of the neuron, sends signal to body parts Nodes of Ranvier: In between Schwann Cells

Refractory period

Doors can't be stimulated again until they reset to original confirmation and do not allow the flow to go the opposite direction or re-stimulate the potential

what are the 2 major body cavities in a human?

Dorsal Ventral

What step of cellular respiration is the majority of ATP generated? Draw a quick sketch of this process, making sure to include ATP synthase in your drawing.

Electron transport chain produces almost all ATP.

What does it mean that the breakdown of glucose is exergonic as well as catabolic?

Exergonic - high energy glucose broken down into CO2 and H2O; produces more ATP than uses Catabolic - larger glucose breaks down into smaller molecules (CO2 and H2O)

Compare and contrast facilitated diffusion and active transport.

Facilitated diffusion: molecules too large to fit through channel proteins, they bond to receptor site on a carrier protein which allows it to go through Active transport: requires ATP, goes against the concentration gradient

Intravascular fluid

Fluid inside the capillaries; plasma

Is lactic acid fermentation or alcoholic fermentation efficient ways to generate energy? Explain.

Get 2 ATP out of each. Lactic acid turns into lactate and yeast turns into ethanol... Creates 2 ATP, but is used to try again with glycolysis to find an oxygen to keep the process moving

Where do all of the different processes of aerobic respiration occur (glycolysis, Krebs cycle, electron transport chain)? Be specific.

Glycolysis: In the cytoplasm Krebs cycle: In the matrix of mitochondria Electron transport chain: occurs over the cristae

List and describe the specialties of anatomy.

Gross anatomy/macroscopic anatomy examines large, visible structures: -surface anatomy: exterior feat. -regional anatomy: body areas Systematic anatomy: groups of organs working together (skeletal system) -Developmental anatomy:from egg to maturity -clinical anatomy: medical specialties(surgical anatomy) Microscopic anatomy examines cells and molecules: -cytology: cells and their structures -histology: tissues and their structures

What ion is used to power ATP syntheses in order to regenerate ATP?

Hydrogen used to combine ADP and a free phosphate

Define intermediate

In between

What is a transmembrane potential? How is this important in terms of energy production?

In inter membrane space, there are lots of protons; the other side is negative, which creates a pull, or potential - the proteins shuttle H+ from matrix to inter membrane space, H+ can go through ATP synthase back to matrix to make ATP

Pure Covalent Bonds

In this type of bond electrons are shared equally. They have the same or similar electronegativity. The atoms charge is equal on both sides.

Polar Covalent Bonds

In this type of bond there is an unequal sharing of electrons. One atom has a stronger pull on the electron. Electrons spend more time with one atom.

Compare and contrast intrinsic and extrinsic regulation. Use examples to help understand the difference

Intrinsic regulation: autoregulation -levels decrease at a tissue Extrinsic regulation: more distant regulation -during exercise

Explain what will happen to a cell if it is placed in an isotonic solution, a hypotonic solution, or a hypertonic solution.

Isotonic: it will stay the same Hypotonic: Have less solute, so causes water to flow into cell, causing cell to expand too much Hypertonic: Have more solute, so causes water to flow out of cell into solution, causing it to shrivel

What is the fate of the lactic acid generated at the end of glycolysis? Can it be used to generate any more energy?

It can be fermented to get out 2 ATP when Oxygen is not present

What is the sodium-potassium pump, and why is it so important to nerve impulse transmission?

It helps take 3 Na+ out of the cell and puts 2 K+ back into cell. This helps get the cell back to -70mV at resting potential for the next impulse to come through

What is the fate of the pyruvate generated at the end of glycolysis? Where does it go next?

It is oxidized to Acetyl CoA, which goes into the Kreb's Cycle

What is meant by the term "polarity" in regards to the cell membrane of a neuron?

It is positive outside the cell membrane and negative inside. They are opposites which creates a potential to do work

What is a salutatory conduction?

It is the jumping of the action potential from one node of Ranvier to the next because the refractory periods restrict them

Explain in detail the difference between a solution with low vs. high osmolarity.

Low osmolarity: little solute, a lot of water High osmolarity: a lot of solute, little water

What is the significance of water in the human body?

Most cellular activities are performed in aqueous solutions Where Na is, water follows Changing is pH concentration either inside or outside the cell can affect excitability, function, or volume of fluid within the neuron

Which neurological disease destroys the myelin sheath of neurons in the CNS(Central Nervous System)? What might be some symptoms early on in this disease?

Multiple Sclerosis - it attacks the myelin sheath, it forms scar tissue, nerve impulses are distorted or interrupted Symptoms: blurred vision, double vision, lack of coordination, twitching, paralysis, weakness, losing function of nerves and functions

What is myelin and what is its primary function?

Myelin is a whitish fatty protein layer that serves to protect and electrically insulate axons, increases the speed of transmission of the nerve impulses, and is only around axons

NAD+ is reduced to ______ and FAD+ is reduced to___________.

NADH; FADH2

What are the major electrolytes found in the human body and what are the normal ranges of the concentrations of these electrolytes?

Na+, K+, Ca2+, Mg2+, Cl-

Compare and contrast negative and positive feedback. Use examples to help explain each.

Negative feedback: -includes homeostatic control mechanisms -shuts off the original stimulus, or reduces its intensity once balance in the body is reached Positive feedback: -increases the original stimulus to push the variable farther -in the body this only occurs in blood clotting and birth of a baby

Repolarization

Once it reaches +30mV, the Na+ gates close and the K+ gates open, flowing K+ out o the cell

Explain what is meant by, "An action potential is an all or none phenomenon".

Once the stimulus starts one axon to have action potential, it keeps moving all the way to the source and doesn't stop

Describe in detail the process of osmosis. Make sure you underwent what substance is moving and in which direction.

Osmosis: the diffusion of water across cell membrane, water is moving in to areas with high osmolarity and out of places with low osmolarity

How do osmotic pressure and hydrostatic pressure differ?

Osmotic pressure: Pressure within the capillaries due to proteins in the blood Hydrostatic pressure: like holes in a hose

What exactly is the difference between oxidation and reduction?

Oxidation: removing electrons Reduction: adding electrons LEO says GER

List the two major types of transport across the cell membrane and the subtypes for each.

Passive: simple diffusion, channel-mediated diffusion, carrier-mediated transport, facilitated diffusion Active: vesicular (bulk) transport, receptor mediated endocytosis?

Compare and contrast pinocytosis, phagocytosis, and exocytosis.

Pinocytosis: Cell drinking - endosomes drink extracellular fluid Phagocytosis: Cell eating - engulf large bacteria and other objects in phagosomes Exocytosis: reverse of endocytosis - out of cell

Describe the importance of selective permeability in regards to the cell membrane.

Proteins restrict and control what goes in and out of the cells based on size, electrical charge, molecular shape, and lipid solubility.

Identify the major organs located in each of the 9 abdominopelvic regions.

RHR none RLR none RIR none LHR spleen LLR none LIR none ER stomach liver UR large and small intestine HR appendix, bladder

Identify the major organs located in each of the 4 abdominopelvic quadrants.

RUQ liver, gallbladder, large and small intestine. RLQ appendix LUQ stomach, spleen LLQ urinary bladder

List and describe the three control systems involved in maintaining homeostasis

Receptor (sensor) -respond to changes in the environment -sends info to control center Control Center (intergrator) -determines set point -analyzes info -determines appropriate response Effector -provides a means for response to the stimulus

Depolarization

Rising phase, activated by -60mV and Na+ gates open and Na+ flows into cell

Compare and contrast simple diffusion with channel mediated diffusion.

Simple: flowing freely Channel-mediated: have to go through a specific channel created by proteins that allow only certain things to pass

What are some factors that affect diffusion?

Size - big molecules take longer Concentration gradient - they want to go where the least solute is Charge - they want to be balanced - opposites attract Distance - shorter distance is faster Solubility - likes soluble materials because the membrane is lipid, so if it is lipid soluble it will go through

What is meant by the term "propagation" in regards to an axon?

The advancement of the action potential moving through the axon... Moving along

What are the differences between axons and dendrites?

The dendrites receive and transport information to the other parts of the cell and the axons transport it to the axon terminal that sends it to the next neuron.

Intracellular fluid

The fluid inside the cell

Extracellular fluid, also called ________.

The fluid outside of the cell; interstitial fluid

How do sodium and potassium leak channels play a role in the development of the negative membrane potential of the axolemma?

The leak channels make sure that the cell gets back to its resting membrane potential and regulate the amount of each substance

What is tonicity?

The osmotic effect of a solute on a cell - "toned" muscles or saggy muscles? If it is hypo/hyper/isotonic. The status of the cell- if it is swollen, crenated, or normal.

Along the axons of myelinated neurons there are gaps in the myelin where the axolemma (Cell membrane of the axon) is exposed. What is the name given to these gaps in myelin? What is the significance of these gaps in the myelin sheath?

They are called Nodes of Ranvier and are between the Schwann Cells

What is the fate of all of that NADH and FADH2 generated during glycolysis and the Krebs cycle. What is is used for?

Used to carry electrons to the electron transport chain and get electron removed - oxidation - to go down the chain

Inactivation gates

When potential gets to certain levels, the gates shut

Hypothesize how genetic mutations that code for proteins in the electron transport chain as well as various poisons could be fatal.

With poisons or mutations, you do not have oxygen or usable energy to keep the electron transport chain running. It block the last protein in the chain which stops the ATP synthase from doing its job

Ventral is the same as _______ when describing a region on a human.

anterior/the front side

Define deep

away from the body surface

Define medial

close to body

Define proximal

closer to body-in terms of arm would be shoulder

Define lateral

farther away from body

Define distal

farther from body-in terms of arm would be fingers

Describe a person in anatomical position

hands at sides palms facing forward feet together on back

Define homeostasis and explain its importance

is the property of a system in which variables are regulated so that internal conditions remain stable and relatively constant.

Describe a human in supine position

lying with the front or face and hands facing up

Describe a human in prone position

lying with the front or face down and hands facing upward

Dorsal is the same as ________ when describing a region on a human.

posterior/the back side

What are the 9 abdominopelvic regions?

right hypochondriac region right lumbar region right inguinal region left hypochondriac region left lumbar region left inguinal region epigastric region umbilical region hypogastric region(pubic)

What are the 4 abdominopelvic quadrants?

right upper quadrant right lower quadrant left upper quadrant left lower quadrant

List the three anatomical planes/sections

sagittal midsagittal frontal transverse

Cranial is the same as ________

skull area

Caudal is the same as ________

tail bone area

Define posterior

the back side

Define metabolism.

the chemical reactions occurring in the cells and tissues of the body

Define Anterior

the front side

Define superficial

toward or at the body surface


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