Questions
[ECF] of Na+ = 145 mM, and K+ = 4.6 mM [ICF] of Na+ = 9...

[ECF] of Na+ = 145 mM, and K+ = 4.6 mM

[ICF] of Na+ = 9 mM and K+ = 155 mM

  1. How much more permeable (answer will be a whole number followed by the word "times") would the above cell be to potassium than sodium if the measured resting membrane potential was -61 mV?      

  1. Identify the analogous hormone in the thyroid axis to ACTH in the adrenal axis.

  1. Identify the protein that clears the 2nd messenger produced by the activation of a beta 1 adrenergic receptor.

In: Anatomy and Physiology

Describe and name the arterial and venous coronary circulation of the heart

Describe and name the arterial and venous coronary circulation of the heart

In: Anatomy and Physiology

1. What are three ways in which vesicles in a cell are moved using directed motion....

1. What are three ways in which vesicles in a cell are moved using directed motion.

2. What is the average size of a myosin motor step along an actin filament in nm)? What is the average size of a kinesin motor step along / (across) a tubulin dimer (in nm)?

3. Write the definition of the rate of ATP hydrolyzation Rin your own words. How would you calculate the rate of ATP hydrolyzation, you know the step size of the motor proteins and the average vesicle velocity. Write the equation here.

4.Use the equation from Question 3 and your answer to Question 2 to calculate the rate of ATP hydrolyzation, R. For step size, assume the vesicle is being transported by a myosin motor protein. (Hint: make sure you convert values to the appropriate units) The units for rate of ATP hydrolysis are s-1

In: Anatomy and Physiology

Discussion Question: 1.  Matt talks a lot about "Fair Market Rent" and how realtors and landlords make...

Discussion Question:

1.  Matt talks a lot about "Fair Market Rent" and how realtors and landlords make more money in poor neighborhoods than in nicer ones.  How is it possible to make more profit from renting run-down properties to poor people than from renting luxury apartments to wealthy people? What does this tell us about the relationship between wealth and poverty?

In: Anatomy and Physiology

Topic 9: Oxygen-hemoglobin dissociation curve Define what the oxygen hemoglobin dissociation curve is and describe why...

Topic 9: Oxygen-hemoglobin dissociation curve

Define what the oxygen hemoglobin dissociation curve is and describe why it is physiologically important. explain the significance of the sigmoidal shape, including the physiological significance of the plateau and step portions, and the relationship between oxygen loading/unloading with changes to po2

Give an example of a situation/condition that would result in a right shift of the oxygen hemoglobin dissociation curve. explain what causes the shift and relate it to oxygen binding affinity, loading-unloading of oxygen, and changes in po2

In: Anatomy and Physiology

how smooth increase in muscle force is produced

how smooth increase in muscle force is produced

In: Anatomy and Physiology

Topic 11: Nephron physiology Describe in detail the physical of all components of the nephron Glomerular...

Topic 11: Nephron physiology

Describe in detail the physical of all components of the nephron

  • Glomerular capsule

  • Proximal convoluted tubule

  • Loop of Henle

  • Distal convoluted tubule

  • Collecting duct

In your discretion be sure to include the various permeability and movements of the following

  • Water

  • Potassium

  • Sodium

  • Glucose

  • Hydrogen ions

Also, include

  • How the vertical osmotic gradient is established and why this is significant

  • The role of antidiuretic hormone (ADH) vasopressin and the renin-angiotensin-aldosterone system (RAAS) in urine formation.

In: Anatomy and Physiology

1. Predict the effect of hypothermia and dehydration (low blood flow) on release of neurotransmitter (ACh)...

1. Predict the effect of hypothermia and dehydration (low blood flow) on release of neurotransmitter (ACh) on the muscle fiber?

(Think about the relationship of aerobic mechanism, ATP, mitochondria, exocytosis, active and transport)

a. more ACh releases

b. less ACh release

c. same amount of ACh releaes

d. none of the choices

2. Acetylcholine is released from a neuron /

a. Through exocytosis when a vesicle fuses with the membrane.

b. by rapid diffusion when a voltage-gated ion channel opens for it.

c. by conduction through a gap junction from nerve to muscle.

d. by a primary active transport pump.

3. Predict what will happen if most of the ACh-esterase were removed from synaptic cleft: less Ach will be available

a. More ACh will be available

b. Less ACh will be available

c. There will be more Na/K pump activity

d. There will be less Na/K pump activity

4. The sodium-potassium pump moves/

a. sodium into the cell and potassium out of the cell

b.sodium out of the cell and potassium into the cell

c. sodium and potassium into the cell

d. sodium and potassium out of the cell

In: Anatomy and Physiology

Distinguish between Bohr effect and chloride shift as they pertain to gas transport.

Distinguish between Bohr effect and chloride shift as they pertain to gas transport.

In: Anatomy and Physiology

Removing Pi from Na-K pump, the pump opens toward inside the cell. True or False? Enzymes...

Removing Pi from Na-K pump, the pump opens toward inside the cell. True or False?

Enzymes increase the speed of a reaction by decreasing the activation energy. Group of answer choices True False

The greater the lipid solubility of a substance, the slower the substance can diffuse through the membrane's lipid bilayer down its concentration gradient. Group of answer choices True False

By changing two Pyruvates to two AcoA, cell produces 2 NADH Group of answer choices True False

Secondary active transport usually occurs as a coupled transport process. Group of answer choices True False

You put one RBC in a 0.8 Osm solution. The RBC would Group of answer choices

crenate

remain constant

It ruptures there is not enough information to answer this question

In: Anatomy and Physiology

Suzy is a 14 year old with pulmonary fibrosis. This disease causes progressive scarring of the...

Suzy is a 14 year old with pulmonary fibrosis. This disease causes progressive scarring of the lungs and therefore, reduced inspiratory volumes and chronic hypoxemia. Suzy is very inquisitive. Due to her disease, she knows that when she breathes in, her lungs help to bring oxygen into her blood, and when she breathes out, she gets rid of carbon dioxide from her blood. At her appointment today, you note that she has cyanosis (blue coloration) and clubbing in her fingers and toes – symptoms of hypoxemia. When Suzy asks why her fingers and toes look the way they do, you tell her that she is not getting enough oxygen to them. This answer does not satisfy Suzy! She then asks:

1. “How EXACTLY does oxygen get into my blood and carbon dioxide get out of my blood when I breathe?” (How do I oxygenate my blood?)

2. “And how does the oxygen get from my blood into my toes and fingers so they won’t turn blue?” (How do I oxygenate my tissues?)

Be thorough (or Suzy will just keep asking “how…why?” She is annoying like that!)

For both 1 and 2: Be sure you describe the events in the correct sequence. Your answer should include the how each gas’s partial pressure affects its diffusion, and the chemical reactions that occur within the blood during gas exchange.

3. Concerned, the doctor asks you to determine Suzy’s inspiratory reserve volume (IRV). Using a spirometer, you measure her tidal volume (TV) at 100 mL, expiatory reserve volume (ERV) at 800 mL, and her vital capacity (VC) at 1100 mL. What is her inspiratory reserve volume?

4. Finally, you treat Suzy by giving oxygen via a mask. Explain why this would be helpful in oxygenating her blood even though her inspiratory volumes are reduced.

In: Anatomy and Physiology

discuss lungs volume

discuss lungs volume

In: Anatomy and Physiology

What would happen to a pregnancy if you removed the corpus luteum during the initial stages...

What would happen to a pregnancy if you removed the corpus luteum during the initial stages of conceptus development? Explain why

In: Anatomy and Physiology

What would happen to a pregnancy if you prevented hCG levels from rising during the initial...

What would happen to a pregnancy if you prevented hCG levels from rising during the initial stages of conceptus development?

In: Anatomy and Physiology

What are the different shock types, causes, and clinical manifestations?

What are the different shock types, causes, and clinical manifestations?

In: Anatomy and Physiology