YummyKrackers for Bio

Question 1

What is the function of paracrine system?

Answer 1

local mediators (proteins, amino acid derivatives, fatty acids) are released by cells into the interstitial fluid (the autocrine and paracrine thing, not as fancy communication as the nervous system or endocrine system)

Question 2

What kind of energy source does neurons use most?

Answer 2

Glucose! They don’t even need insulin to transport glucose in.

Question 3

What is the order of neuron activation?

Answer 3

1. Dendrites receive signal to be transmitted
2. The cell body senses disturbance and notifies axon hillock.
3. Axon hillock generates an action potential down axon, which may or may not have myelin sheath.
4. Once at the axon terminal, a signal can be transmitted to a synapse where neurotransmitters may be released to send a signal to another dendrite or something

Question 4

What is the purpose of the Na+/K+ pump on membranes of neurons?

Answer 4

It pumps 3 Na+ outside cell and 2 K+ into the cell

Question 5

What causes hyperpolarization?

Answer 5

The slow potassium channels are less sensitive to voltage change and they take longer to open, after the depolarization step (now cell is + inside), but they are such slowpokes that they also take a long time to close and they let too much K+ flow out of the cell and this causes the inside of the cell to be even more negative than the resting potential.

Question 6

What causes depolarization?

Answer 6

When voltage across the membrane is disturbed from a signal and activates sodium channels to change configuration and open -> more positive ions flow into the cell and further disturb voltage across membrane.

Question 7

How are neurotransmitters released?

Answer 7

Actional potential at synapse activates Ca2+ to flow into the cell and this sudden influx of calcium ions cause the neurotransmitter vesicles to be released into the synaptic cleft

Question 8

What is the function of acetylcholine as a neurotransmitter?

Answer 8

It has an inhibitory effect on the heart but an excitatory effect on visceral smooth muscle of the intestines

Question 9

Myelin is made by what in each nervous system?

Answer 9

Oligodendrocytes in central nervous system
Schwann cells in peripheral nervous system

Also! Myelin is what causes white matter vs. gray matter. So white matter has lots of myelinated axons!

Question 10

What is saltatory conduction?

Answer 10

Myelin speed up action potential by allowing action potentials to jump from node to node

Question 11

What happens during a simple reflex arc?

Answer 11

1. Sensory (afferent) neurons receives signal from receptor cells
2. Interneuron transfer signal from neuron to neuron.
3. Motor (efferent) neuron carries signal to muscle or gland, aka the effectors

Usually CNS has interneurons and PNS has sensory and motor functions

Question 12

Which neurotransmitter does each autonomic nervous system usually use?

Answer 12

Acetylcholine is used by all preganglionic neurons in ANS and postganglionic neurons in parasympathetic system. So all of parasympathetic uses acetylcholine.
Epinephrine or norepinephrine is used by postganglionic neurons in sympathetic nervous system.

Question 13

Light first strikes the eye at what part?

Answer 13

The cornea, and the cornea does most of the light bending

Question 14

What is the function of lens in the eye?

Answer 14

To focus light. Ciliary muscles help contract and relax the lense. Our eyes are like converging lens.

Question 15

What vitamin is good for the eye?

Answer 15

Vitamin A because it is a precursor to the pigment cells, rods and cones

Question 16

Discuss the pupil reflex?

Answer 16

In bright environments, the circular muscles contract the iris to constrict the pupil and to screen out light (parasympathetic). In dark environments, the iris contracts and dilates the pupil to allow more light to enter (sympathetic).

Question 17

What structure in the ear detects sound and converting it into a neural signal?

Answer 17

Cochlea, pressure is detected by vestibular membrane and the “hair” cells convert this to a neural signal

Question 18

What structure in the ear is for maintaining balance?

Answer 18

Semicircular canals

Question 19

What does the medulla oblongata do?

Answer 19

Controsl involuntary breathing movements

Question 20

What is the difference between exocrine and endocrine glands?

Answer 20

Exocrine glands release enzymes into external environment through ducts.
Endocrine glands release hormones directly into body fluids like bloodstream

Question 21

Difference between peptide hormones and steroids?

Answer 21

Peptide hormones are water soluble and move freely through the blood but can’t diffuse through he cell membrane of the target cell so they need to bind to a membrane-bound receptor -> either pemeability of ion channel increases or intracellular second messengers creates a cascade of events.

Steroid hormones are lipids so they require a protein transport in the blood stream but they can diffuse through the cell membrane easily and once in the cytosol they bind a receptor that brings it to the nucleus where it affects transcription levels.

Oh yeah! Also, tyrosine derivatives are either like peptides are lipids.

Question 22

How is hypothalamus and anterior pituitary related?

Answer 22

A nerve signal tells hypothalamus to synthesize releasing or inhibitory hormones that are carried to the capillary bed of anterior pituitary and then anterior pituitary release peptide hormones (ONLY PEPTIDE hormones, no steroids)

Question 23

What are the hormones released by anterior pituitary?

Answer 23

1. hGH (growth of almost everything everything)
2. ACTH (stress hormone, stimulates release of glucocorticoids at adrenal cortex )
3. TSH (release T3 and T4 and increases thyroid size)
4. FSH & LH (reproduction stuff)
5. Prolactin (lactation, usually inhibited until needed)

Question 24

What are hormones released by posterior pituitary?

Answer 24

1. Oxytocin (uterine contraction, milk ejection)
2. ADH (reduces water loss, concentrates urine, increases blood pressure.

Both of these hormones are synthesized in the hypothalamus first.

Question 25

What hormones are released by adrenal cortex?

Answer 25

Only steroid hormones!

1. Mineral corticoids like aldosterone (increase Na+ reabsoroption, increases blood pressure)
2. Glucocorticoids (aka cortisol, increases blood glucose and degrades fats and proteins for energy in liver, anti-inflammatory, immune system :(, stress hormone)

Question 26

What hormones are released by adrenal medulla?

Answer 26

Catecholamines
- epinephrine and norepinephrine (vasoconstrictors of interanl organs/skin, vasodilators of skeletal muscles, stress hromone)

Question 27

Stress hormones come from what gland usually?

Answer 27

Adrenal gland

• adrenal cortex does cortisol
• adrenal medulla does norepinephrine and epinephrine

Question 28

What are other names for norepinephrine and epinephrine

Answer 28

Noradrenaline and adrenaline (because they are from adrenal medulla!)

Question 29

What hormones are released by thyroid gland?

Answer 29

1. T3 & T4 (increase basal metabolic rate)
2. Calcitonin (peptide!!, decreases blood calcium, decreases osteoclast activity/bone resorption, stimulates bone formation)

Question 30

What hormones are released by pancreas?

Answer 30

1. Insulin (beta cells, lower blood glucose levels by making cells highly permeable to glucose when bound to insulin)
2. Glucagon (alpha cells, raise blood glucose levels, stimulates glycogenolysis and gluconeogenesis in liver, breaks down adipose tissue to fatty acids)
3. Somatostatin (gamma cells?, inhibits insulin and glucaon)

Question 31

What hormone is released by parathyroid glands?

Answer 31

PTH (increases blood calcium levels, increases osteoclast activity/bone resorption, decreases bone formation, increases reabsorption of renal calcium, vitamin D helps increase calcium and phosphate uptake from gut)

Question 32

Is acetylcholine mostly a neurotransmitter or hormone?

Answer 32

Neurotransmitter

Question 33

What is the path of sperm through male reproductive system?

Answer 33

1. Sperm produced in seminiferous tubules of testes (FSH stimulates Sertoli cells to nurture the spermatocyte)
2. Matures at epidymus
3. Sperm is propelled through vas deferen and through urethra during ejaculation.

Question 34

All the eggs of a female are arrested at what stage at birth until puberty?

Answer 34

At the primary oocyte stage

Question 35

In males, LH stimulates release of what?

Answer 35

Stimulates Leydig cells (in interstitium) to release testosterone

Question 36

What does FSH and LH do in females during puberty?

Answer 36

1. FSH stimulates growth of primary and secondary follicle. [Follicular phase]
2. LH secretes estradiol that prepares the uterine wall for pregnancy.
3. Just before ovulation, estradiol levels rise and cause the luteal surge (increase in LH secretion) in positive feedback (estradiol inhibits LH when it is not ovulation)
4. LH surge causes follicle to burst and egg is released into Fallopian tube/oviduct and the remaining follicle becomes corpus luteum
5. Corpus luteum secretes estradiol and progesterone during pregnancy, or if there is no fertilization of egg then it degrades [Luteal phase, steps 3-5]
6. Menstrual flow, shedding of uterine lining

Question 37

What causes the LH surge?

Answer 37

Increasing estradiol levels, positive feedback

Question 38

Where does fertilization of egg take place?

Answer 38

Fallopian tubes

Question 39

When does the second meiotic division of eggs/oocyte happen?

Answer 39

After fertilization by sperm

Question 40

What exactly gets implanted in the uterus after fertilization?

Answer 40

Blastocyst (fluid filled hollow ball made of embryonic stem cells)

Implantation is when a female is considered to be pregnant.

Question 41

What is the purpose of HCG (human chorionic gonadotropin) during pregnancy?

Answer 41

Prevents degeneration of corpus luteum so it can keep secreting estrogen and progesterone during initial stages of pregnancy

Question 42

What takes over the job of secreting estrogen and progesterone by the end of the first trimester after HCG?

Answer 42

Placenta

Question 43

Describe the three primary germ layers during gastrulation and what they form in general?

Answer 43

1. Ectoderm
   - makes outer layers like skin, nails, tooth enamel
   - nervous system cells
   - sense organs
2. Mesoderm
   - stuff between inner and outer covering of body like muscles, bone, heart and stuff
3. Endoderm
   - lining of digestive tract and liver and pancreas
   - lining of respiratory tract

Question 44

What is induction during cell differentiation?

Answer 44

when one cell type affects the direction of differentiation fo another cell type

Question 45

What happens during neuralization of gastrula?

Answer 45

gastrula develops into neurula, notochord (from mesoderm) induces formation of neural plate (from ectoderm) and while notochord degenerates a neural tube forms and becomes the spinal cord/brain/nervous system

Question 46

How is apoptosis regulated? Transcriptional, translational level?

Answer 46

Regulated by proteins, so post-translational methods

Question 47

Which is larger? Cardiac output of right ventricle or left ventricle?

Answer 47

Trick question! It’s the same because the same amount of blood must pass through both sides of the heart or blood would back up in either the pulmonary or systemic circulatory system.

Question 48

Why don’t potassium leak channels cause spontaneous action potentials in neurons or muscle cells?

Answer 48

They allow potassium to leave the cell down a gradient so this polarizes the membrane even more.

Question 49

What happens when there are sodium leak channels in neurons?

Answer 49

Sodium will enter the cell and depolarize the membrane. The SA node in the heart has these sodium leak channels for rhythmic, automatic excitation.

Question 50

Are action potentials in the heart initiated by the autonomic nervous system?

Answer 50

Nope, the SA node controls it

the parasympathetic nervous system inhibits rapid firing rate of SA node though

Question 51

How can blood flow(Q) be changed?

Answer 51

delta(P) = Q * R

Only by changing blood pressure and resistance.
Pressure can be changed by increasing force or rate of cardiac contraction.
Resistance is mostly due to the degree of constriction of arteriorlar smooth muscle (precapillary sphincters) because if they contract that it makes it more difficult for blood to flow from arteries into capillaries so resistance goes up.

Question 52

During muscle contraction, do thin and thick filaments shorten?

Answer 52

Nope, thin and thick filaments slide across each other to shorten the sacrum err without themselves changing in length

Question 53

What are fibroblast?

Answer 53

Ability to secrete fibrous material like collagen. Ex. Adipocytes, Chondrocytes (cartilage), osteocytes (bone cells)

Question 54

Examples of loose connective tissue

Answer 54

Adipose tissue, extra cellular matrix with proteoglycans, and basement membrane

Question 55

Examples of dense connective tissue

Answer 55

Collagen, bones, cartilage, tendons, ligaments

Question 56

What is bone made up of?

Answer 56

Collagen and hydroxyapatite (calcium phosphate crystals)

Question 57

What is cartilage?

Answer 57

Strong but flexible extra cellular tissue secreted by chondrocytes; they are avascular so they have no blood vessels. Three types: hyaline, elastic, fibrous.

Question 58

What are osteoblasts?

Answer 58

Synthesizes bone, replace bones destroyed by osteoclasts

Question 59

What are osteoclasts?

Answer 59

destroy bones by dissolving hydroxyapatite crystals, cousin of macrophages