AP Biology Final Review (Facts you missed) PPLau,Ph

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Holy of the holies in 2011 (last year)
AP Biology Final Review (Facts you missed and NOT straight out from the BOOK)
PPLau,Ph.D. 2011 HSHP (if you listened to my lectures you wouldn’t have missed)
Biochemistry
1. Substrate binds to enzymes by weak interaction not covalent bonds, H-bonds
etc.
2. Amylase digests carbohydrates (starch) to simple sugars (glucose, fructose etc).
Human have alpha amylase which digests starch. Cows have beta amylase that
digests cellulose.
3. Rate of enzyme reaction= change of substrate with time, or change of product
with time. The slope is the rate.
4. The initial rate is linear, and logistic afterwards due to substrate concentration
decreases.
5. Bell shaped curves for Rate vs pH or Rate vs Temp. The decline is caused by
enzyme denaturation (not degradation or dead)
6. More enzymes, higher the slope on the rate curve
7. NH2 is the amino group, COOH is the acidic group.
8. Primary structure for protein: the amino acids sequence, bound by covalent
bonds, named peptide bonds. (AAn, formed by dehydration, losing n-1 water.)
9. Secondary structure caused by H-bonding intramolecularly ( helix and  sheet)
10. Tertiary structure caused by H-bonds and S-S bonds intermolecularly.
11. quaternary structure caused by dimerization of the same peptides (two of the
same bound together by vanderwall, H-bonds, S-S bond, anything except
covalent); or trimers or tetramers.
12. Know the structure of the neutral fats: triglycerides (3 fatty acids bound by
glycerol) high energy molecules b/c they have a lot of hydrogens. Phospholipids
have two fatty acids and highly charged on the phosphate. They are in
phospholipid bilayer (cell membrane).
13. Know the structure of steriod (fused rings): sex hormones, cholesterol etc.
14. Know the structure of ATP and last (outtermost) phosphate bonds are highenergy.
Cell and trasport
1. know these organells: ribosomes, mitochodria, lysosomes, Golgi, rough and
smooth ER (roung makes proteins; smooth makes lipids.)
2. Prokaryotes have no membraneous organells. Nucleus is one of them. Ribosome
is not membraneous. Prokaryotes, also known as bacteria, have ribosomes. All
cells have cell membranes.
3. Know Nucleolus which is a compartment inside the nucleus and make ribosomes
and rRNA and all RNA. RNA are made inside the nucleus.
4. Bulk transport: phago (solid), pino( water), endo, exo-cytosis.
5. Mitochondria is for cell respiration only.
6. Chloroplast is for making only glucose.
7. Know your endosymbiosis theory: Circular DNA, rRNA, makes its own proteins, the
same size as bacteria,
8. Nephron uses facilliated diffusion (no energy needed )and active transport
(needs energy), regulated by hormones (ADH and aquaporins)
9. All pumps (proton, sodium, potassium) are active transports.
10. Gluose diffuses into cells by faciliated diffusion.
11. Chemiosmosis involves the movement of H+ across a enzyme complex called
ATP synthase (turbine). The force move the H+ is due to a concentration gradient
and an elctrochemical gradient. H+ has a possitive charge and the outside of
the thylakoid is negative.
12. Osmosis is the movement of water across a membrane due to differences in
solute concentration or water potential.
DNA replication
1. The goal is to make identical DNA. Double the amount.
2. DNA polymerase is an enzyme that base pairs a nucleotide with a nucleotide
that is complementary to it. (A to T, G to C)
3. Helicases are enzymes that unwind the DNA molecule into single strands of DNA
4. During DNA replication hydrogen bonds between nitrogenous bases are broken
not the sugar-phosphate bond of each strand.
5. A phosphodiester bond is a bond between two nucleotides linking 2 deoxyribose.
It connects a phosphate group of one nucleotide and connects to the next
nucleotide at the three prime end.
6. No enzymes are needed to form the hydrogen bonds as they form when the DNA
polymerase pairs the DNA nucleotides.
7. DNA replication is semi-conservative: a new strand is made on top of a old
strand. It is also anti-parallel.
8. Know your repliaton fork.
9. 32P radioactive labels DNA (phosphate), 35S labels proteins.
10. A mutation is a change in the DNA sequence of a gene
11. DNA doubles in S phase. (part of interphase)
12. nuclear membrane breaks down during prophase of mitosis.
13. apical meristem is where mitosis is occurring.
14. Mitosis is to make identical cells
15. Cancer cells are cells that have uncontrolled mitosis or cell division.
Photosynthesis
1. Know the lab: bromophenol blue is bleached by oxygen. So we can use it as an
indicator for photosynthesis (oxgygen released).
2. LDR (light dependent reaction) releases oxygen (byproduct) and the hotties
NADPH and ATP. The hotties are used to power the Calvin cycle. The oxygen
comes from splitting the water. Chemiosmosis happens with the H+ built up and
diffuse through the protein channel of ATP synthase to make ATP.
3. Cyclic electron flow only happens in Photosystem I and makes more ATP but not
NADPH. No oxygen is produced either.
4. The pigments are chlorophylls (absorb red and blue lights, not green) and
carotennoids (only blue ight). Electron from the Mg in the porphyrin jumps to
higher excited state and was accepted in the reaction center. The electrons
released from the split of water supplement the loss of that electron.
5. Calvin cycle: a carbon fixation cyclic process: CO2 bond with the two timer
(RubP) which is 5-C, with the enzyme Rubisco to make a 6 C compound which
splits right away into two 3-C compounds. Wtih ATP and NADPH, the 3-C
compound turns into 6 G-3-P. One G-3-P (or called PGAL) leaves the chloroplast
and form dimer to make one glucose (6C compound). The rest of the 5 cycles
back to become RuBP again with ATP.
6. Photorespiration: Stomata close during hot and sunny day to conserve water.
Thereby short of CO2 and a rise of O2. All the RuBP are converted to respiration
because the Rubisco enzyme is not specific to CO 2. O2 binds to RuBP and losing
the 5-C compound and therefore energy. Photorespiration does not make ATP
unlike respiration.
7. C4 adaptation (spatial): CO2 binds to PEP ( a 3 C compound) in the mesophyll
and form a 4 C compound. As it reaches the bundle sheath cells, it breaks down
to CO2 and a pyruvate ( 3C compound). The CO2 is released and goes into
Calvin cycle.
8. CAM adaptation (temporal): CO2 binds to organic acid CAM at night and
release CO2 at night. Then CO2 can be used at night for the Calvin cycle to
make sugar.
Respiration
1. Study the comparison of Chemiosmosis in chloroplasts and mitochondria. Text
p188.
2. All cells have the biochemical pathway glycolysis, which would make it a very
ancient biochemical pathway. Not all cells have the Krebs cycle and the
electron transport chain. In terms of evolution, glycolysis (anaerobic respiartion) is
probably more ancient than aerobic respriation. ( Glycolysis occurs in the
cytoplasm ). Glycolysis: splitting glucose into two pyruvate (3C compound) in the
cytosol.
3. Fermentation only nets two molecules of ATP compared to approximately 36 in
aerobic respiration, which oxidizes glucose to 6 molecules of carbon dioxide and
6 molecules of water
4. Oxygen is used in cellular respiration (metabolism) as the final electron acceptor
at the end of the electron transport chain.
5. The electrons originate from either NADH or FADH in the electron transport chain
6. the pH is lowered and a proton gradient is established where there are more
electrons in the outer compartment of the membrane than in the inner
compartment. The outer compartment is positive relative to the inner
compartment.
7. Aerobic respiration is considered to be more efficient as it results in many more
molecules of ATP (approximately 36 ATP) than fermentation (2 ATP).
8. -Carbon dioxide is formed in the Kreb’s cycle.
9. -Carbon dioxide does not combine with lactic acid to form pyruvic acid.
10. -Oxygen does not catalyze the glycolysis reaction
11. The more hydrogen an organic molecule has, in general, the more energy it will
contain.
12. In general the smaller the endothermic animal, the greater their need for energy
and increased cellular respiration.
13. The rattlesnake will have the slowest rate of respiration because it is a ectotherm
and does not produce heat to maintain a constant body temperature.
14. Negative feedback occurs when one of the products of a biochemical pathway
is an inhibitor or negative modulator for one of enzymes in the pathway.
Phylogeny or Taxonomy (adaptations of animals and plants)
1. Study vertebrate and invertebrate phylogeny trees from the Brown book,
including p 193.
2. Some simple facts: Arthropods have the three germ layers, bilateral symmetry, a
true coelom and an exoskeleton; Flatworms have the three germ layers, bilateral
symmetry; however they do not have any sort of body cavity of coelom;
earthworms have closed circulatory system and nephridia; fungi are heterotrophs,
plants are autotrophs
3. trachophytes are plants with vascular tissues
4. Nitrogenous wastes are released as ammonia, urea, or uric acid. Ammonia and
urea are soluble in water, but uric acid is not. Of the three, ammonia is the most
5.
6.
7.
8.
9.
10.
11.
12.
13.
toxic and needs to be excreted quickly. Freshwater fish quite often excrete
nitrogenous waste as ammonia. Urea is less toxic but still needs to be excreted
with water (forming urine). Many marine and terrestrial animals excrete urea.
Uric acid is the least toxic of the three. It is insoluble in water and is excreted as
solid crystals. Reptiles, birds and insects excrete uric acid. For birds and reptiles
this is beneficial because it is insoluble it can be stored in an egg in a special
membrane (allantois) as nitrogenous waste and not be toxic to the embryo. Also
birds need to be as light as possible so using uric acid as the nitrogenous means
there is no water component need to flush it out. Birds do not urinate. The white
material found in bird dropping is the uric acid
Characteristics of the various kingdoms: extreme environment (high temp, salt) is
a derived characteristic for Archaebacteria.
Fern, unlike angiosperms and gymnosperms do not produce seeds.
Gymnosperms are tracheophytes that produce naked seeds meaning they do
not develop inside a chamber or ovary. As a result, they do not develop fruit.
Angiosperm produce fruits.
Cnidarian include jellyfish and hydra. The jelly fish is like an inverted hydra.
Chordates have notochords.
Echinodermata includes sea stars and brittle stars. They have radial symmetry
and are sessile as adults.
Sponges or Porifera have no coelom and are asymmetrical.
Annelids are segmented worms and are also protostomes
Botany
1. Endosperm provides the food for a growing embryo. The endosperm was
created when it was fertilized by a second sperm cell.
2. Flowers are adaptations to ensure pollination and ultimately fertilization.
3. Fruit attracts animals to eat the fruit with the seed.
4. The female gametophyte in plants is produced in a protective jacket of cells
called the archegonia and in higher plants it may be replaced by the ovule
found in the ovary or carpel.
5. Xylem and phloem tissue are made as primary tissue by the apical meristem. It is
also made as secondary tissue by the vascular cambium.
6. The driving force of the movement of water through xylem is transpiration pull
7. Guttation is caused by root pressure. Root pressure may contribute to the push of
water up small, herbaceous plants but cannot supply enough to push the water
up a 15-meter tree
8. Parenchyma cells have the ability to divide and give rise to other types of tissue.
9. Sclerenchyma and xylem cells are dead at maturity. Both function in support.
10. Collenchyma tissue is alive at maturity and functions in support. Collenchyma
cells have thicker primary cells walls than parenchyma. They cells form cylinders
and are found the midrib of leaves. Collenchyma tissue does not divide.
11. Sieve cells are found in phloem tissues, and even though they do not have a
nucleus, they are metabolically active.
12. Meiosis occurs in the anther to produce microspores and in the ovule to produce
megaspores.
13. Anthocyanin is a plant pigment and not a hormone or plant-growth regulator
14. Ethylene is a simple gas that is a hormone for ripening
15. Indoleacetic acid is another name for the hormone called auxin, for elongation.
16. Abscisic acid is the hormone causes aging in a plant.
17. Cytokinnin is important is important in regulating cell division in roots and shoots
18. It is the length of the night that is responsible for short-day plants; length of the
night that triggers flowering not the length of the day.
19. The acronym to help you remember how water moves up xylem tubes is the
T.A.C.T theory. (T.ranspiration pull A.dehsion C.ohesion T.ension).
20. Phloem is responsible for the movement of water and organic nutrients (mainly
sugars) throughout the plant. This process is called translocation.
21. auxins cause cell elongation, and that gibberellins cause an increase in cell
division.
22. The order of seed germination
23. Fruit is derived from tissues of an ovary
24. Auxins activate proton pumps which causes the lowering of pH that activates
enzymes called expansins.
25. Many plant cells are terminal cells and do have the ability to reproduce
(replicate as in mitosis). Plant cells that have the ability to reproduce are called
meristematic cells. There are two types of meristematic tissue. The first is the
apical meristem and it is located in the tips of roots and shoots and produces
primary tissues. This causes the plant to increase in length. The second type of
meristematic tissue is lateral meristem which produces secondary tissue and
causes the plant to increase in girth. There are two types of lateral meristem
which is the vascular cambium and the cork cambium. The vascular cambium
produces the secondary vascular tissue of secondary xylem and secondary
phloem. Cork cambium produces cork cells which will make up the outer bark or
periderm.
26. The Carsparian strip is a waterproof band of material found on endodermal cells
27. Transpiration is the loss of water vapor through the stomata of the leaves.
28. The three parts to a seed is the seed coat derived from the ovule, the embryo,
and the food. The food is called endosperm and is triploid (3n) as a result of
double fertilization.
29. Water moves from high water potential to low water potential. (Osmosis)
30. learn the calculations of water potential in osmosis lab.
Body Systems (study the brown book or blue book)
a) Circulatory
1. The lungs of the frog are very primitive and simply amount to two sacs that
provide a surface for gas exchange compared to human lungs, which are
intricately subdivided into very small chambers for gas exchange. To supplement
the lungs, the skin of the frog and the lining of its mouth also provide a surface
area for gas exchange
2. During fetal circulation, the blood does not pass to the lungs for gas exchange.
There is an opening between the two atria called the foramen ovale. The blood
flows from the right atrium to the left atrium so that it does not flow to the lungs.
Gas exchange occurs in the placenta between the fetal blood and the maternal
blood. This opening closes once the baby is born the the blood goes from the
right atrium to the right ventricle and then to the lungs for gas exchange.
3. The reaction Hb(O2) 4 -> Hb + 4O2 happens is when tissues or cells need
oxygen. This release of oxygen happens in response to production of carbon
dioxide as cells produce ATP in cellular respiration. An increase in oxygen would
indicate that the cells did not need oxygen, and the hemoglobin would not
release the oxygen. PH tunrs acidic due to CO2 lower the affinity of hemoglobin
for oxygen and oxgygen comes off the complex: Bohr Shift (p243 of the brown
book or blue book)
4. If one is exercising strenuously, then there will be an increase in temperature. In
addition because of an increase demand in energy, there will be an increase in
cellular respiration. An increase in cellular respiration will produce more carbon
dioxide. The majority of carbon dioxide is carried in the blood as carbonic acid.
This increases the acidity of the blood.
5. One requirement of gas exchange is that the gas must be in solution and there
for the gas exchange membrane must kept moist.
6. Carbon dioxde dissolves into the blood plasma. Over 90% of the carbon dioxide
moves into the red blood cell where it is easily converted to carbonic acid
7. The counter-current exchange system found in the respiratory system of fish is the
movement of water in the gills of fish in the opposite direction of the blood flow in
the gills. This facillitates maximum pick-up of the gas.
8. grasshopper has an open circulatory system
9. The osmostic pressure exceeds the blood pressure at the venous end of a
capillary
10. right atrium is the chamber in which the pacemaker (S-A node) is located, right
atrium is the chamber that receives blood from the lungs
11. The right ventricle is the chamber that pumps blood to the lungs, The left ventricle
is the largest chamber of the heart.
12. The horizontal line represents osmotic pressure where the change of weight after
diffusion is zero in the dialysis bags of the sucrose diffusion experiment.
B) Digestion and Excretion system
1. The nephron is the filtering unit of the kidney. It works by filtering the blood in the
glomerulus. Once the filtrate is in the nephron, nutrients like glucose and amino
acids are reabsorbed into a capillary bed. Then there certain substances are
secreted into the nephron. This is called tubular secretion.
2. When animals (especially vertebrates) consumer proteins, the proteins are
digested (catabolism) and broken down to amino acids. Once the amino acids
are absorbed by the blood stream, they are delivered to the liver. If the amino
acids are needed for energy, the amine group (NH2) is removed (catabolism)
and turns into amonia and the liver will covert that to urea. (see Taxonomy 4.
Nitrogenous wastes are released as ammonia, urea, or uric acid.)
3. If there is less energy available due to a decrease in the rate of cellular respiration
when temperature is decreased, then it follows that the heart rate would also
decrease.
4. Mammals are endotherms, which means their physiology regulates their
temperature so that it stays rather constant. A decrease in temperature will
cause number of physiological events to occur such as 1)Blood vessels close to
the surface of the skin to constrict to conserve heat, not the blood vessels in the
deep muslces. 2) A release of thyroxine will increase the metabolic rate and
increase heat production. 3)Increased secretion of epinephrine increases the
amount sugar release into the circulatory system to give energy to shivering
muslces.
5. Blood cells and plasma proteins are too large to pass into Bowman’s capsule and
do not enter the nephron. The filtrate that enters Bowman’s capsule is essentially,
plasma minus the plasma proteins. It contains materials like glucose, urea, salts,
amino acids vitamins and other molecules. The beneficial material like glucose
and the amino acids are reabsorbed by the proximal convoluted tubule.
6. Essential amino acids are those amino acids that cannot be synthesized by the
organisms. We have 8.
7. Protein digestion begins in the stomach with pepsin but like all other nutrients, the
amino acids are absorbed in the small intestine
8. Gram for gram, fats or lipids have more calories than either proteins or
carbohydrates.
9. Filtering into the Bowman’s capsule by the hydrostatic pressure arising from the
heart beat.
10. Because animal cells do not have cell walls to prevent them from bursting, it is
important that interstitial fluid be either isotonic or hypertonic. If the fluid is
hypotonic, the cells will burst. If the fluid is too hypertonic, the cells will loose too
much water and die.
11. The loop of Henle is longer in animals found living in the desert and is shorter in
animals living in areas where water is plentiful.
12. The digestive tract of the omnivore was about three times longer than their body
length. The digestive tract of the herbivore was about ten times longer than their
body length. Plant matter is much more difficult to digest than annimal matter
C) Hormones and development
1. The ovary is where primary oocytes are located.
2. Placenta: fetal blood is kept in capillary beds. This prevents the mixing of the
maternal and fetal blood unless the capillary bed is broken open. This
arrangement allows for gas exchange between maternal and fetal blood and a
way for the fetus to get rid of nitrogenous waste products. The formation of the
placenta originates from both embryonic and maternal tissues. Placenta
produces prostaglandins, which are hormones and help stimulate with
contractions of the uterus during childbirth.
3. Antidiuretic hormone (ADH) is produced by the pituitary gland and increases the
permeability of the collecting tubule. As the filtrate moves through the collecting
tubule, it causes water to move into the renal tissues into the capillary bed. The
net effect of this will concentrate the urine and retains more water for the
organism. Aquaporins play a major role in reabsorption of water in the tubule
through the action of ADH.
4. The acrosome as seen is at the tip of the head of the sperm cell. It contains
hydrolytic enzymes that aid in the sperm penetrating the egg.
5. The uterine lining thickens for the implantation of the embryo after fertilization
occurs trhough the action of estrogen and progestrin.
6. Fertilization in humans normally occurs in the oviducts.
7. One major difference between plant embryonic development and animal
embryonic development is a major movement of cells in animal development.
There are two major movement of cells. The first movement of cells is called
gastulation forming the 3 germ layers: ecto endo and mesoderm. The second
major movement of the cells is neurulation which results in the establishment of
the neural tube.
8. Progesterone is secreted by the ovaries. It promotes the uterine lining growth and
is responsible it maintenance during the pregnancy; regulated by FSH and LH.
9. Human identical twins develop when the embryo splits and each portion
continues to develop. Usually this is at the two-cell stage. In order to identical
twins, the twins have the identical DNA. So this must happen after fertilization
occurs.
10. The fish does not lay amniotic eggs and therefore does not have an amnion.
Aminion is a water sac for shock absorption. Fish don’t need them. They have
external fertilizaton.
11. Insulin lowers blood glucose levels in the blood a number of ways. One of which
is the conversion of glucose to glycogen in the liver and muscles.
12. The release of adrenalin from the adrenal glands causes the “fight or flight
response”. This response includes an increase in blood flow to the skeletal
muscles and skin
13. Animal hormones fall into one of three categories-modified amino acids
(glutamine), sterioids (sex hormones), or polypeptide chains (insulin as peptide)
14. The parathyroid gland produced parathyroid hormone (PTH) which regulates
calcium and phosphorous in the blood along with calcitonin produced from the
thyroid gland.
15. The placenta is used to obtain nutrients from the mother’s blood for the fetus. In
additon the placenta is used for gas exchange. The fetus has its own heart to
circulate its own blood.
16. Ectoderm gives rise to the nervous tissue, (brain, sense organ etc);Endoderm:
endothelial lining of vessels; mesoderm: muscles, bones excretory, reproductive
(p1007 textbook).
D) Immune system
1. Substances that are foreign to an organism and stimulate an immune response
are antigens. Antigens in can be proteins or carbohydrates.
2. Humoral immunity involves the production of antibodies in response to the
presence of specific antigen. An antibody is a protein secreted by plasma cells
(T-lymphocytes) and can chemically combine with a particular antigen to
immobilize the antigen so that it can no longer cause disease.
3. Interferon is a substance secreted as a part of the nonspecific immune response.
It induces neighboring cells to make substances that inhibit viral reproduction.
Therefore it makes sense that if interferon is effective against certain forms of
cancer, then viruses may cause certain forms of cancer.
4. HIV virus attacks white blood cells, more specifically help T-cells. The protein that
the HIV virus attacks is a protein called CD4.
5. The substance that causes the inflammatory response is histamine
6. T-cells are involved in the cell-mediated response producing cytotoxic T-cells. Bcells and plasma cells are involved in the humoral response.
7. All blood cells originate in the bone marrow. B-cells mature in the bone marrow
but T-cells mature in the thymus gland.
8. An antigentic determinant is that part of the antigent that elicits the production of
a certain antibody.
9. When the immune system is exposed to a disease for the first time, as the cell
mediated and humoral response is initiated, there a memory cells made. The
memory cells are used, they quickly produce B-lymphocytes and T-lymphocytes
to start the immune response. This is much faster then the primary immune
response and most often the person does not even know that they have been
exposed to that disease.
10. Plasma cells are selected B-lymphocytes involved in the production of antibodies
in the immune response.
11. The function of helper-T-cells is to select the (right antigen) specific B-cell and the
specific Tc (cytotoxic T) cells for proliferation (multiplying). Tc cells kill infected cells
and B cells make antibodies (circulating in the blood, therefore humoral).
12. The inflammatory response increases permeability of the blood vessels in order
for the leukocytes and other proteins
13. Blood donors: A B donor has B antigens on the surface of their erythrocytes and
an O recipient does not and therefore will make antibodies againt the B antigen.
14. The cell-mediated immunity results in infected cells being lysed by cytotoxic Tcells because they have MCH receptor sites.
15. The antigen presenting cell first engulfs the pathogen, then destroys the antigen
and combines it with a MHC protein. This is done by phagocytosis by a
macrophage. The MHC protein with its antigen is then inserted into the plasma
membrane of the macrophage cell. It then looks for a T-cell that has the correct
receptor site for the MHC protein and antigen. (study the brown or text book)
E) Nervous and muscle systems:
1. There are ion gradients that exist along a neuron. In general there are more
positive ions outside the neuron because of a gradient of Na+ ions and on the
inside of the membranes there are more K+ ions but there are also proteins that
have net negative charge. This causes the outside of the neuron to be positive
relative to the inside of the neuron, which is negative. The interior of the neuron is
a -70 mV when compared to the outside of the neuron. This is called the resting
potential. It is because of the existence of sodium potassium pumps, that the
resting potential exists.
2. Increase blood flow to the skin will lower the body temperature of a mammal
because at the surface the air will remove the heat. If the mammal has sweat
glands, the water vapor of the sweat will carry the heat away. Water absorbs
considerable heat (more than air) when it evaporates.
3. In the spinal cord there is an association neuron (interneuron) which sends the
signal to both the brain via other interneurons and innervates the motor neuron.
The motor neuron innervates the effector (muscle) to contract.
4. The “all-or-none” response refers to a single neuron. In order for a neuron to
“fire” (send an impulse down the neuron), There is a change in the voltage across
the membrane. This is accomplished by sodium ions moving across the
membrane. It turns out there is a threshold level or critical voltage (-55mv) that
must be reached.
5. Smooth muscle is found in the digestive tract, urinary bladder, blood vessels, and
other internal organs. Autonomic nerves stimulate these muscles.
6. Neurotransmitters must be broken down or the post synaptic neuron will continue
to send an impulse down the neuron. Cholinesterase or acetylcholinesterase is an
enzyme that destroys acetylcholine so that the action potential stops.
7. The sympathetic nervous system causes the flight or fight response. This causes
things like dilation of the pupils, inhibits salivary glands, relaxes bronchi in the
lungs, accelerates the heart rate, inhibits digestion, inhibits emptying of the
bladder and lastly cause the liver to release glucose.
8. The corpus collosum contains a thick band of axons that allows the left
hemisphere to communicate with the right hemisphere in the cerebrum.
9. The medulla oblongata is the part of the brain stem and functions in the transfer
of information between the peripheral nervous system and the midbrain and the
forebrain. It also aids in large movements such a walking, running and swimming.
10. Neurotransmitters are found in small membrane-bound vessicles and are
molecules that diffuse from the presynaptic neuron to the postsynaptic neutron.
There is a small space between these two neurons called the synaptic cleft and
the movement of the neurotransmitters is passive diffusion.
11. Glycogen (a polysaccaride of glucose), an immediate source of glucose in
muscle cells, decreases when a person strenously exercises as it is converted to
ATP.
12. Glial cells are associated with neurons. They wrap themselves around the
neurons and form the myelin sheath.
13. Rod and cones are cells that can detect wavelengths of light. The rods are not
sensitive to color
14. muscle contraction needs calcium. EDTA stops the binding of calcium and
prevents the muscle from contracting but does not interfer with acetylcholine
which starts the action potential.
15. Acetylcholine is the neurotransmitter that attaches to receptor sites on the
membrane of the muscle.
Ecology
1. four trophic levels: the producers, primary consumers, secondary consumers and
tertiary consumers.
2. Decomposers are usually prokaryotes and fungi
3. the base (lowest trophic level) is the producer level. A producer is an organism
that can fix carbon dioxide into an organic compound like sugars and starches.
4. Competitive exclusion occurs most often results because of interspecifiic
competition.
5. the concept of competitive exclusion is the idea that if two species are
competing for the same limited resource, one species will be more efficient at
obtaining the resource than the other. This will effectively eliminate one or the
other species by extinction or emigration.
6. A density-dependent limiting factor is one that slows down population growth as
the population increases in size.
7. Nitrogen fixation is a biochemical pathway that is found in certain prokaryotic
cells (bacteria) and only prokaryotic cells. It takes atmospheric nitrogen N2 and
reduces it to ammonia. It is an endergonic reaction and requires 16 molecules of
ATP. N2 + 18 e- + 16 ATP -> 2 NH3 + H2 + 16 ADP + 16 Pi
8. Heterotrophs need organic molecules as a source for energy and building blocks.
Heterotrophs cannot make their own food and must get their energy from the
environment.
9. Commensalism is type of symbiosis, in which one organism benefits and the other
organism is neither harms or does it benefit. Predation is an association in which
one organism benefits, and the other is harmed, as it is hunted and eaten.
Parasitism is a type of symbiosis in which one organism benefits and the other
organism is harmed. Mutualism is a type of symbiosis in which both organisms
benefits. Competition happens when two organisms are using the same resource
and are living in the same area
10. One major difference between the forest ecosystem and the grassland is the
amount of annual precipitation. The amount of annual precipitation varies from
30-100 cm. Where as in the temperate deciduous forest, the annual precipitation
varies from 70-over 200 cm.
11. Bacteria secrete exotoxins. They are usually protein and are usually very toxic.
Diseases caused by exotoxins include botulism, cholera, anthrax, and the plague.
12. Pollution: Biological magnification is process in which certain compounds
become more concentrated as it moves to higher trophic levels in the food
chain. That being the case, the vulture is at the top of the food chain and it
would be more concentrated in the vulture than in the other animals.
13. Net primary productivity, which is the total amount of carbon fixed by
photosynthesis over a given time period minus the amount oxidized during
cellular respiration. If the rate of carbon fixation is greater than the rate of cellular
respiration, then the biomass of the ecosystem will increase. If the rate of cellular
respiration of greater than the rate of photosynthesis, then the biomass is
decreasing. (one makes and one burns)
14. Ozone is composed of oxygen or O3 molecules. The biochemical pathway that
is responsible for putting oxygen into the atmosphere is photosynthesis.
15. Natural eutrophication is the process by which lakes gradually age and become
productive. This usually takes many years to achieve. This process can increase
by pollution. The pollution is in the form of adding nutrient enrichment for plants
and algae. The pollution comes in the form of nitrogen and phosphorous from
sewage and water run-off from places like golf courses. Eutrophication causes
algal blooms. While at first this seems like positive thing it is not. Because the
alage will die and then there is a “bloom” of decomposers. The decomposers will
remove oxygen from the water resulting in fish kills.
16. As energy is moved from one trophic level to the next a certain amount of energy
is not transferred. There are three reasons why this is the case.
17. Interspecific competition occurs when two similar species in the same location
are competing for the same resource. If the niches overlap too much, then it
could result in restricting the range of the species so they do not overlap, or the
migration of one species to another place.
18. Trial and error learning is a animal learning how to avoid the distasteful response.
19. A characteristic of a fast-moving stream includes high levels of dissolved oxygen.
Because the water is being constantly stirred up, it increases the amount of
oxygen able to dissolve in the water.
20. Denitrification is a biochemical pathway in which anaerobic bacteria are able to
use nitrate (NO3) in their respiration instead of oxygen and as product nitrogen
gas (N2) is released back to the atmosphere.
21. When using pesticides, it is possible that a number of pests may contain a gene
that makes is resistant to the effects of the pesticides. While the use of the
pesticide may temporarily reduce the number of pests, there will be a few that
survive and are resistant to the pesticide.
22. If a population of predators eliminates the population of prey, then the
population of predators will be eliminated for lack of food.
23. Below is a generalized list of characteristics of r-strategists versus K-strategists.
r-strategists
K-strategists
# of offspring
many
just a few
# reproductive
usually one
severalepisodes
type of population
boom-bust
logistic growth
growth pattern
# of time needed
short amount of time
takes years to mature
investment of
parental care
none
will take care of young
life span
short
longer- even years
body size
usually small
usually larger
24. producers are either phototropic or chemotropic in the oceans.
25. Biomes: The tundra is characterized by mainly herbacious grasses, mosses and
shrubs. There may be a few dwarf trees. Also there is a permanently layer of frozen soil
(perma frost) which gives rise standing pools of water in the short summers. The taiga is
characterized by long winters with plenty of snowfall and conifers (gymnosperms). The
desert is characterized by less than 10 inches of precipitation per year. The temperature
is variable. The extreme variation is 50oC during the day in the summer and -30oC during
the night in the winter.
26. In a population that is in equilibrium, it will fluctuate around the carrying capacity
depending on factors interacting with ecosystem. Things like weather, and availability of
food can have effects on the population and make it fluctuate around the carrying
capacity.
27. exponential growth: The line curves upward in this part of the graph going left to
right
28. Ecological succession is the process that occurs after the environment has been
disrupted usually from some natural disaster like fire, volcanoes or hurricanes. It is the
transition that takes place to climax community.
Evolution and hardy weinberg
1. sympatric crickets are those living in the same area. So if two similar species of
crickets are living in the same area, then there needs to be some way that the
can recognize one another so there are no mating mistakes. Difference in cricket
calls is an example of behavioral isolation alerting potential mates to their unique
song.
2. Genetic drift is a change in the population’s gene pool due to chance. This can
happen when the population is very small and the loss of genes can significantly
alter allelic frequencies.
3. Emigration and immigration can alter allelic frequencies but if the population is
large, then the impact on allelic frequencies is not significant.
4. Mutations provide the raw material for evolution but do not cause genetic drift.
5. Convergent evolution are two unrelated groups of organisms that are exposed to
the same selection pressures or environment. This causes the two groups the
have similar traits but not due to the fact they are closely related.
6. Divergent evolution is two closely related groups that are different from one
another due to different selection pressures or competition.
7. A species is a group of interbreeding organisms that produce viable, fertile
offspring in nature. So a new species is formed from another group when they no
longer can interbreed under natural conditions with other closely related
organisms.
8. Homologous structures are structures found on different species that may vary in
their function but these structures maybe closely related based on evolutionary
evidence of a common ancestor.
9. Sympatric speciation is the formation of a new species without geographic
isolation.
10. According to Hardy-Weinberg equilibrium, there is an equation which depicts the
genotypic ratios. p2 + 2pq + q2 =1 where p2 =WW, 2pq = Ww q2 =ww (all %
phenotypes) p and q are allelle frequencies.
11. The speciation of the finches on the Galapoagos Islands is due to allopatric
speciation.
12. gene flow is the movement of alleles from one population to another population
due to migration of individuals from one group to another group.
13. Bottleneck effect is results from genetic drift or significant changes in the gene
pool due to chance because the population is very small. Usually, the small size
of the population is due to a natural disaster or human intervention.
14. Hybrid sterility results in a sterile offspring that is the result of a mating from two
different species.
15. External fertilization is characteristic of vertebrates that live in water. Once
fertilization occurs, the embryo is surrounded by water and desiccation is not a
problem.
16. Sexual selection is a form of natural selection in which individuals with certain
inherited traits are more likely than other individual to obtain more mates.
17. Reproductive isolation occurs when individuals from different species cannot
successfully interbreed because of some biological barrier. This may include
barriers like gametic isolation, developmental isolation, hybrid inviability, and
hybrid sterility
18. Punctuated equilibrium is based on the fossil record in which there are long
periods of stasis followed by a rapid evolution of new species. It is thought to be
caused by some sort of natural disaster that starts the rapid speciation
19. Darwin did not know about DNA and how muttations in DNA can cause variatons
in phenotype. It was before his time.
20. Directional selection occurs when one trait changes in one particular direction.
21. Stabilizing distribution means that there will be an increase of the most common
phenotype because it is the most beneficial phenotype and has some sort of
reproductive advantage
22. Paleontology is the study of life and evolution based on the fossil record.
Protein Synthesis and Gene Expression
1. A plasmid is small circle of DNA found in prokaryotic cells. It is smaller than the
bacterial chromosome.
2. During development, individual cells of the same organism begin to produce
different proteins because specific genes are activated in the cell. This is called
cell differentiation.
3. transcription is to makes mRNA from a DNA gene
4. An operon is found in prokaryotic cells. It is a series of genes found in close
proximity to one another. They are controlled by repressor proteins. Trp operon is
operated by negative feedback (the product, trp, activates the inactive
repressor) to slow down synthesis; lac operon is positive feedback. (it inactivate
the repressor so that more product will be synthesized)
5. Histones are found only in eukaryotic cells not prokaryotic cells.
6. Reverse transcription is using RNA as a template and making a DNA molecule.
7. Only about 10% of the human genome is transcribe and translated.
8. In eukaryotic cells unlike prokaryotic cells, genes for related function, are often
located on different chromosomes. They do not share the same promoter and
operateor regions.
9. Frame shift mutation: changing the subsequent genetic codes of the sequence is
most detrimental.
10. Both DNA and RNA uses phosphate groups and neither one uses sulfate groups.
11. A codon consist three nucleotides that specify an amino acid. There are four
nucleotides so 4 x 4 x 4 = 64 combinations or codons.
12. Transcription occurs in the nucleus; Proteins are made in the cytoplasm
(translation);
13. mRNA is made in the nucleus and determines the sequence of amino acids of a
protein made in the cytoplasm
14. GTP is the energy used during translation
15. The enzyme that connects the right amino acid to the specific t-RNA is
aminoacyl-tRNA synthetase. There are 21 amino acids, therefore 21 of these
enzymes.
16. The process of the ribosome moving from one tRNA to another during process of
making a polypeptide chain is called translocation.
17. Learn to read the codon chart, from left to right.
Genetics
You need to study my special genetics review packet and x 2 analysis.
Labs
Study my 12 labs review packet. You need to check it out and return it after the test.
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