BIOL 1201 Exam 2 Moroney LSU

what are the 3 phases of the Calvin cycle?

1. carbon fixation 2. reduction 3. regeneration

How many CO2 molecules will need to be fixed for a plant to make sucrose?

12

To what end of a DNA strand are new nucleotides added during DNA replication?

3' - the carbon with OH on it.

How many ATPs are made when one glucose molecule is utilized using aerobic respiration? none two six ten thirty six

36

the new strand of DNA is made in the __________ direction.

5' to 3'

How many carbons does glucose have?

6

how many CO2 molecules are produced when one glucose molecule is completely utilized in the process of aerobic respiration?

6

what is the balanced equation for photosynthesis?

6CO2 + 6H2O ------> C6H12O6 + 6O2 + 6H2O

which source of energy is most directly responsible for ATP synthesis in the chloroplast?

A pH gradient across the thylakoid membrane

what is hypertonic?

A solution with a higher salt concentration than in the cells. Water will move out of cell. Cell will shrink

what is isotonic?

A solution with the same salt concentration as in cells

a diagram of a metabolic path is to the right. Metabolite A is converted to metabolite D with metabolites A and B as intermediates. As metabolite D builds up in the cell it inhibits enzyme 1. when this happens what will happen to the amounts of metabolites A and B?

A will increase and B will decrease

The processes of active transport and the movement of motor proteins involved in cell motility both require

ATP

what is the equation of ATP hydrolysis?

ATP > ADP + Pi (inorganic phosphate)

Chemiosmosis drives _____ and occurs in ______.

ATP formation; the mitochondrion and the chloroplast

Which bases are purines?

Adenine and Guanine

What type of bonds hold the nitrogenous bases together? What about the phosphate and sugar?

Bases = hydrogen bonds; backbone = phosphodiester bond

Consider the energy profile to the right. which arrow shows the activation energy in the presence of an enzyme?

C

In an analysis of the nucleotide composition of DNA, which of the following is true? a. A=C b. A=G and C=T C. A+C = G+T d. G+A = C+T e. answers C and D

C. A+C = G+T d. G+A = C+T e. answers C and D

What type of photosynthesis is done by sugar cane?

C4-type photosynthesis

plants that fix CO2 into C-4 acids at night when stomates are open and carry out the Calvin cycle during the day when stomates are closed are called

CAM plants

in what type of photosynthesis are the leaf stomates open at night and closed during the day?

CAM type photosynthesis

what type of photosynthesis is done by Spanish moss?

CAM type photosynthesis

plant organelle where photosynthesis occurs

Chloroplast

In class, I did a demonstration of the following reaction: 2H2O2 --> 2H2O + O2. This reaction did not occur until the catalase was added. What did the catalase do? A. The reaction is normally endergonic, but the catalase changed the reaction and it became exergonic. B. The reaction is normally exergonic, but the catalase changed the reaction and it became endergonic. C. The reaction is always endergonic, but catalase provided ATP to drive the reaction. D. The reaction is always exergonic, but catalase lowered the activation energy. E. Peroxide breaks down catalase releasing O2.

D. The reaction is always exergonic, but catalase lowered the activation energy.

In trying to determine whether DNA or protein is the genetic material, Hershey and Chase made use of which of the following facts?

DNA does not contain sulfur, whereas protein does. DNA contains phosphorus, but protein does not.

the molecule that links together Okazaki fragments during DNA replication is

DNA ligase

what enzyme links two pieces of DNA together?

DNA ligase

Replaces RNA primer with DNA nucleotides and repairs errors

DNA polymerase I

what enzymes removes RNA primer and replaces DNA?

DNA polymerase I

Adds DNA nucleotides to the ends of RNA primers

DNA polymerase III

the making of an exact copy of DNA is called

DNA replication

Unwinds the DNA double helix to form replication bubbles

Helicase

what is hypotonic?

Less solute molecules/ more solvent water molecules. Water will move across the membrane to the inside of the cell. Cell will swell up.

which molecule is the most oxidized?

N triple bonded to N

which of the following molecules donates electrons to the mitochondrial electrons transport chain?

NADH

Adds RNA primers to each strand

Primase

What element is found in protein but not DNA? Where in a protein would this element be found?

Sulfur and certain amino acids

Consider the DNA sequence: 5' ATGCGGCATTAA 3'. What mRNA would be produced from this sequence?

TTAATGCCGCAT

What experiment determined that replication is semi-conservative?

The Meselson-Stahl experiment 1. Bacteria cultured in medium containing N15. 2. Bacteria transferred in medium containing N14. They differences were in weight, the heavier would be denser. Nitrogen is found in the bases of the DNA. 3. DNA sample centrifuged after 20 mins. 4. DNA sample centrifuged after 40 mins. After regeneration, the DNA would show up as a single band. After 2nd generation, one band with intermediate and one band with only N14.

What type of molecule is ATP? a carbohydrate a protein a lipid a nucleotide

a nucleotide

which molecule will yield the most energy in aerobic respiration? a. gluclose b. pyruvate c. acetyl CoA d. NADH e. H2O

a. gluclose

Which of the following types of transport requires energy? simple diffusion osmosis facilitated diffusion active transport

active transport

a chemical reaction that requires energy to take place is called

an endergonic reaction

What is the directionality of the DNA strands?

anti-parallel opposite

What shape does the DNA molecule take on?

double helix

true or false: enzyme regulation only occurs at the active site

false

True or false: one the first step in a metabolic pathway requires an enzyme

false; all steps not the first step

are CAM plants spatial or temporal?

temporal

how does an enzyme affect EA? What does this mean for the rate of the reaction?

the enzyme decreases EA making the reactions faster

The 3 in the C3 refers to what? The 4 in the term C4 refers to what?

the step after fixation makes 3 or 4 carbons

what is a membranous sac that contains cholorphyll

thylakoid

Which bases are pyrimidines?

thymine and cytosine

How many CO2 molecules are produced when one maltose molecule is completely converted to CO2 and H2O by aerobic respiration? Remember maltose is a disaccharide made of two glucose molecules.

12

Most plants make sucrose, a disaccharide of glucose and fructose, from CO2 fixed during photosynthesis. How many CO2 molecules are needed to make one sucrose molecule?

12

How many pyruvates are made from one glucose during glycolysis?

2

The bases adenine and thymidine base pair in DNA double helices. What type of bond and how many make up this interaction.

2 hydrogen bonds

How many strands does DNA have?

2 strands

For this question, assume that you have given a bacterial cell radioactive thymidine so that the DNA in the cell was completely labeled. Also assume that no other component of the cell is labeled. Now you take away the radioactive thymidine and allow the cells to divide. Remember the DNA is still radioactive. after two rounds of cell division, there are four cells. How many of these cells will be radioactive?

2 will be radioactive

DNA isolated from a bacterium is composed of 30% thymidine (T). What percentage of the nucleotides are guanosine (G)?

20%

How many carbons does pyruvate have?

3

how many CO2 molecules are released by a single pyruvate molecule during aerobic respiration?

3

a diagram of a metabolic path is to the right. Metabolite A is converted to metabolite D with metabolites B and C as intermediates. As metabolite D builds up in the cell it inhibits enzyme 2. when this happens what will happen to the amounts of metabolites B and C?

B will increase and C will decrease

What does it mean to say that DNA replication is semi-conservative?

Replication of DNA molecule produces two molecules, each with one original strand and one new strand

In an experiment extracted from the pathogenic S strain of Streptococcus pneumonia is mixed with living cells of the non pathogenic R strain and this mixture is injected into mice. What will happen?

The mice will die and the bacteria from the dead mice will look like the S strain

what is the direct source of energy that drives ATP synthesis by the mitochondrial ATP synthase?

a H gradient across the inner membrane

what step breaks glucose down into two 3 carbon molecules? a. glycolysis b. oxidation of pyruvate to acetyl CoA c. Krebs cycle d. electron transport e. chemiosmotic ATP synthesis

a. glycolysis

There are four flasks of yeast: Each flask has all of the nutrients for growth except an energy source. Here is what is in each flask: Flask A has glucose but no O2 and is in the dark. Flask B has glucose and O2 and is in the dark. Flask C has no glucose and no O2 and is in the dark. Flask D has no glucose but has O2 and is in the dark. Flask E has no glucose but has CO2 and is in the light Which flask(s) will be able to grow? a. Only flask A b. Flasks A and B c. Flasks A, B and D d. Flasks A, B and E e. All ofthe flasks will be able to grow.

b. Flasks A and B

There are four flasks of yeast: Each flask has all of the nutrients for growth except an energy source. Here is what is in each flask: Flask A has glucose but no O2 and is in the dark. Flask B has glucose and O2 and is in the dark. Flask C has no glucose and no O2 and is in the dark. Flask D has no glucose but has O2 and is in the dark. Flask E has no glucose but has CO2 and is in the light Which flask(s) will be producing CO2? a. Only flask A b. Flasks A and B c. Flasks A, B and D d. Flasks A, B and E e. All of the flasks will produce CO2

b. Flasks A and B

you accidentally leave your favorite house/dorm plant in the dark over thanksgiving break. to your surprise, it is still alive when you return because _________ a. it still produced sugars to live on because the Calvin cycle does not require light b. it obtained energy from stored sugar and starch molecules produced before your vacation. c. it used short wave energy to power photosynthesis d. the light reactions were driven by the breakdown of organic molecules instead of light e. plants are not really living organisms

b. it obtained energy from stored sugar and starch molecules produced before your vacation.

recently some University of Southern Mississippi students took some breath mints containing chlorophyll and decided to go to the beach and photosynthesize. this probably won't work because the proteins that bind chlorophyll are not present in human, even students from USM. what proteins listed below do bind chlorophyll? a. rubisco b. photosystem I and photosystem II c. the choloroplast ATP synthase d. answers A and B e. answers A B and C

b. photosystem I and photosystem II

how does a competitive inhibitor restrict enzyme activity?

bonds to active site

For this question, assume that you have given a bacterial cell radioactive thymidine so that the DNA in the cell was completely labeled. Also assume that no other component of the cell is labeled. Now you take away the radioactive thymidine and allow the cells to divide. Remember the DNA is still radioactive. after one cell division, which cells is/are radioactive?

both cells will be radioactive

How does an enzyme catalyze a reaction?

by lowering the activation energy of a reaction

Which of the following equals 0.2 mm? a. 2 x 10^2 mm b. 2 um c. 200 um d. 2 nm e. 20 nm

c. 200 um

which of the following can pass most easily through a lipid bilayer? a. DNA b. ATP c. O2 d. catalase e. NA

c. O2

which statement about DNA is true? a. DNA binds to ribosomes during protein synthesis b. DNA contains the sugar ribose c. DNA contains the base uracil d. DNA contains the base adenine e. all of the above

d. DNA contains the base adenine

which organism below is capable of aerobic respiration? a. grass b. yeast cells c. oak trees d. mice e. all of the above

e. all of the above

what passive transport requires transport proteins?

facilitated diffusion

what is the purpose of coupling two reactions to each other?

favorable reaction allows the unfavorable reaction to proceed

exergonic reactions are considered ____ because they _______ energy

favorable, release

what is the main purpose of a membrane?

filter/keep certain particles out of the cell

define a photosystem

functional unit of photosynthesis - protein pigment complexes that absorb light energy. II comes before I

Using aerobic respiration, which molecule can provide the most energy?

glucose

which pathway or reaction is common in both aerobic respiration and alcohol fermentation?

glycolysis

leaf tissue made of cells that contain most of a plant's chloroplasts

mesophyll

what process consumes O2, converting in to H2O?

mitochondrial electron transport

what process consumes O2, converting it to H2O

mitochondrial electron transport

what process takes place on the inner membrane of the mitochondria?

mitochondrial electron transport

Where does the Krebs cycle occur?

mitochondrial matrix

what is the location of the Kreb's cycle?

mitochondrial matrix

Since DNA strands run in the (opposite, same) direction, the two strands (can, cannot) be replicated in the same direction.

opposite, cannot

Which of the following types of transport specifically refers to the diffusion of water across the membrane? simple diffusion osmosis facilitated diffusion active transport

osmosis

what is the movement of water?

osmosis

What byproduct is produced by the light reactions and released from plant leaves?

oxygen

In the reaction: pyruvate + NAD > acetyl CoA + CO2 + NADH + H which reactant has been oxidized?

pyruvate has been oxidized

what enzyme is used to fix CO2 in the Calvin cycle

rubisco

what process produces O2?

the citric acid cycle/kreb's cycle

how are the plasma membrane and a membrane of the Golgi apparatus different?

the proteins in each membrane would be different

How many carbons does acetyl-CoA have?

2

An unfavorable reaction that occurs along with the cleavage of ATP to ADP and phosphate is an example of

a coupled reaction

what protein hydrolyzes ATP and uses the energy released from ATP hydrolysis to transport ions across the membrane?

electrogenic pumps

Joins Okazaki fragments to seal the sugar-phosphate backbone

ligase

what is an enzyme's active site?

location where substrates bind and react

In his transformation experiments, Griffith observed that

mixing a heat killed pathogen strain of bacteria with a living nonpathogenic strain can convert some of the living cells into the pathogenic form

what type of biological molecules are inserted into bacteria by bacteriophages to start the viral infection?

nucleic acids only

When Hershey and Chase labeled bacteriophage with 32P what did they label? proteins nucleotides lipids carbohydrates all of the above cell components

nucleotides

when compared with oxidized NAD, reduced NADH has

one less carbon to carbon double bond

what is a type of simple diffusion?

osmosis

what is the optimum pH for most biological enzymes?

pH = 7

in this reaction: pyruvate + NAD > acetyl-CoA + CO2 + NADH + H which of the reactant has been oxidized?

pyruvate has been oxidized

chlorophyll molecules mostly absorb the __________ wavelengths of visible light

red and blue

what phase of the Calvin cycle requires the most ATP and NADPH?

reduction

At the end of the second electron transport chain, NADP becomes NADPH. Is this reaction an example of oxidation or reduction?

reduction - gained electrons. Remember OIL RIG

what metabolic process that we learned about uses the products of photosynthesis as reactants?

respiration

____________ is probably the most abundant enzyme on the planet

rubisco

DNA replication is: conservative semi-conservative liberal semi-liberal moderate wildly-moderate

semi-conservative

what determines how an enzyme will function?

shape - primary structure

what type of passive transport doesn't require transport proteins?

simple diffusion

what type of fermentation can the brain perform?

the brain cannot form any fermentation

How does an enzyme affect Delta G? what does this mean for the amount of energy released by the reaction?

the enzyme doesn't affect Delta G and energy stays the same

where is the location of the ATP synthase responsible for most of the ATP made during aerobic respiration?

the inner mitochondrial membrane

When DNA from dead Streptococcus pneumoniae "S" is added to living "R" cells and this mixture injected into mice. What happens? the mouse lives the mouse dies

the mouse dies

When protein from dead Streptococcus pneumoniae "S" is added to living "R" cells and this mixture injected into mice. What happens? the mouse lives the mouse dies The mouse gives this restaurant a poor review on Yelp!

the mouse lives

the process of endocytosis is

the movement of substances into the cell through membrane bound vesicles

In the Hersey chase experiment, which part of the virus was inserted into the host cell to start a viral infection?

viral nucleic acid

the concentration of oxygen in the earth's atmosphere is approx 22% and this concentration is maintained by the breakdown of _____ in photosynthesis.

water

Special chlorophyll molecules in photosytem II donate electrons to an electron transport chain. These electrons come from _________ which releases O2 as a byproduct.

water splitting

how many CO2 molecules are needed for a plant to make one sucrose molecule?

12

How many NADH are produced when one glucose molecule goes through the glycolysis?

2

Oxygen is vital to the process of aerobic respiration. It allows aerobic organisms to derive a great deal more energy from glucose than anaerobic organisms are able to. What is the vital role that oxygen plays in cellular respiration? a. it is a reactant in glycolysis, necessary for the breakdown of glucose into pyruvic acid b. oxygen is a waste product of citric acid cycle c. oxygen is required to build the acetyl- CoA molecule d. oxygen is the final electron acceptor in the electron transport chain e. oxygen reacts directly with glucose resulting in Co2 and H2O

Oxygen is the final electron acceptor in the electron transport chain

cyanide binds to cytochrome at the same site as O2 blocking the enzyme. What type of molecule is cyanide?

a competitive inhibitor

an unfavorable reaction that occurs along with the cleavage of ATP to ADP and Pi is an example of ____________.

a coupled reaction

what occurs in anaerobic yeast cells but not aerobic yeast cells

alcoholic fermentation

why is activation energy important for metabolic control in biological systems?

all the reactions would happen at once and the cells need to control the reactions

why is it that a hypotonic solution is unhealthy for animal cells but not for plant cells?

animal cells will gain too much water and rupture the cell membrane membrane which destroys the cell. Plants have a cell wall that keep it from rupturing

cellulose does not readily react with O2 forming CO2 and H2O at room temperature because

at room temperature the activation energy barrier for this reaction cannot be surmounted

example of CAM plants

cacti, pineapple

green pigment that absorbs light energy

chlorophyll

example of C4 plants

corn and sugarcane

Where does glycolysis occur?

cytoplasm

what step oxidized NADH? a. glycolysis b. oxidation of pyruvate to acetyl CoA c. Krebs cycle d. electron transport e. chemiosmotic ATP synthesis

d. electron transport

an animal cell placed in a hypotonic solution is likely to

enlarge and possibly lyse

example of C3 plants

everything else; soy beans, rice, flowers

what process occurs in muscles undergoing O2 deprivation?

lactic acid fermemtation

what factors affect an enzyme's activity?

pH, temperature, cofactors, and regulators

what transport is the movement of molecules from high to low concentration and doesn't require energy?

passive transport

aqueous interior of chloroplasts

stroma

in the next experiment DNA extracted from baboon skin cells is mixed with living cells of the non pathogenic R strain of S pneumonia and this mixture is injected into mice. What will happen?

the mice will live; any surfing bacteria will look like the R strain

endergonic reactions are considered ______ because they ______ energy.

unfavorable, require

the early atmosphere on Earth had almost no O2. What evolutionary event correlates with the appearance of O2 in the atomosphere?

with the appearance of the first photosynthetic life forms

How many lactic acids are made from one glucose during lactic acid fermentation?

2

what reactant is required from the environment for the Calvin cycle?

carbon dioxide

a chemical reaction that requires energy to take place

endergonic reaction

what is activation energy?

energy needed to start a reaction

Is ATP hydrolysis exergonic or endergonic?

exergonic

insulin, a hormone, is made in pancreatic cells and exported from the cell in small vesicles. These vesicles fuse with plasma membrane releasing the insulin from the cell. What process is occurring?

exocytosis

what transport is the movement of large/charged molecules and needs proteins to do it?

facilitated diffusion

what process converts glucose into 2 molecules of pyruvic acid and produces 2 ATPS?

glycolysis

What enzyme separates the two strands of DNA to unwind them?

helicase

without energy input, molecules tend to move down their concentration gradient. this means a molecule will love from a __________ concentration to an area of ______ concentration

higher to lower

where does the elctron transport chain take place?

inner mitochondrial membrane

This location becomes very acidic in the light

inside of the thylakoids

During vigorous exercise, anaerobic muscle cells produce _____ and gain ______.

lactate and ATP

the primary type of bond found in an enzyme would be:

peptide

A type of endocytosis in which a cell engulfs large particles or whole cells

phagocytosis. taking in of large food particles

which type of organism produces O2?

photosynthetic organisms produce O2

what are the 2 types of passive transport?

simple diffusion and facilitated diffusion

Ensures that chromosomes don't shorten after every round of replication

telomerase

location of the chloroplast electron transport chain?

thylakoid membranes

true or false: cells must have constant energy input

true

true or false: enzyme regulation can be reversed

true

What happens to the ATP and NADPH made by the light reactions?

turned into ADP and NADP

How many CO2 molecules are produced when one glucose molecule is completely utilized in the process of alcohol fermentation?

2

from one glucose molecule, glycolysis provides the cell with how many ATP and NADH?

2 ATP and 2 NADH

during aerobic respiration, the Kreb's cycle provides the cell with ____________ from one acetyl CoA molecule.

2 CO2, 1 ATP, 3 NADH, 1 FADH2

How many ATPs are made when one glucose molecule is utilized using lactic acid fermentation? none two six ten 36

2

which of the following is true for endergonic reactions? a. the products have more free energy than the reactants b. the products have less free energy than the reactants c. reactant will always be completely converted to products d. a net output of energy is generated by the reactions e. the reactions decrease the free energy in the products and increaser the energy of the surrounding enviornment

a. the products have more free energy than the reactants

enzymes are _____ which means they speed up reactions

catalysts

which one of the steps directly requires O2? a. glycolysis b. oxidation of pyruvate to acetyl CoA c. Krebs cycle d. electron transport e. chemiosmotic ATP synthesis

d. electron transport

true or false: enzyme regulation always causes a decrease in enzyme activity

false; increase or decrease

which pathway is common or reaction is used in both aerobic respiration and alcohol fermentation

glycolysis

You have a yeast strain that has a defect in Kreb's cycle. Under what conditions, if any, could the yeast grow?

it can grow by alcohol fermentation

How would you describe the reaction after looking at the diagram in the last question?

it is exergonic with or without an enzyme

you have a friend that recently lost 15 pounds. where did the fat go?

it was released as CO2 and H2O.

what happens when a photon hits a molecule of chlorophyll?

it will excite the electrons in the chlorophyll. They will go up, gain energy, and when they come back they will release energy

DNA strands have a 5' end, which usually consists of a free _________ group, and a 3' end, which usually consists of a free ________ group.

phosphate and hydroxyl

what does the fluid mosaic model say about phospholipid movement?

phospholipids move laterally across the membrane moving side to side and can flip upside down

What element is found in DNA but not protein? •Where in DNA would this element be found?

phosphorus and phosphate group

are C4 plants spatial or temporal?

spatial.

all of the following are functions of the citric acid cycle except a. production of ATP b. production of NADH c. consumption of O2 d. release of carbon dioxide e. all of the above

c. consumption of O2

what transport protein changes shape in order to pass molecules across the membrane?

carrier transport protein

how does a noncompetitive inhibitor restrict enzyme activity?

change the shape, the substrate can't attach anymore

what protein forms a tunnel across the membrane and helps molecules across the membrane via passive transport - facilitated diffusion

channels

location of the Calvin cycle?

chloroplast stroma

where is rubisco located in the plant cell?

chloroplast stroma

all of the following are functions of the citric acid cycle EXCEPT a. production of ATP b. production of NADH c. production of FADH2 d. release of CO2 e. adding electrons and protons to oxygen to form water

e. adding electrons and protons to oxygen to form water

In the murder mystery you are reading the victim has been killed by his evil twin using carbon monoxide poisoning. Which part of aerobic respiration is inhibited by carbon monoxide?

electron transport

Our cells take up iron from the blood. Iron is usually bound to transferrin and when transferrin binds to its receptor on the outside ofthe cells it is brought inside the cell in coated vesicles. What type of transport is this? pinocytosis exocytosis endocytosis phagocytosis clathrin-mediated endocytosis

endocytosis and phagocytosis

the concentration of pyruvate outside of the mitochondrion is higher than the concentration inside. A specific transport protein is required for pyruvate to cross the membrane, but no ATP is required. This is an example of

facilitated diffusion

Which of the following types of transport requires a protein? simple diffusion osmosis facilitated diffusion active transport

facilitated diffusion and active transport

true or false: metabolism is simply the method by which a cell breaks down food

false; metabolism is all reactants in a cell

what holds together the base pairs in DNA like G to C?

hydrogen bonds between the bases

A glass of salt water is ___ relative to a glass of pure water

hypertonic

what proteins bind chlorophyll?

photosystem I

what macromolecule category do enzymes fall under?

proteins

When Hersey and Chase labeled the phage with 35S- sulfur, what cellular component were they specifically labeling?

proteins were specifically labeled

what step releases the most CO2? a. glycolysis b. oxidation of pyruvate to acetyl CoA c. Krebs cycle d. electron transport e. chemiosmotic ATP synthesis

c. Krebs cycle

Where is Rubisco located in the chloroplast?

chloroplast stroma

O2 is produced during photosynthesis. Where does the O2 come from?

from H2O

What are the 3 components of a nucleotide?

sugar, phosphate, nitrogenous base

What is receptor-mediated endocytosis?

specific molecules are taken in after they bind to a receptor. uses special receptor proteins to help carry large particles across the cell membrane.

where in the body do you think you would find an enzyme with a low optimum pH?

stomach - acidic

how do molecules enter/leave a plant leaf?

stomata

pores in leaves that allow for gas exchange

stomata

which parts of cellular respiration generate the carbon dioxide that we breathe out?

synthesis of acetyl CoA and citric acid cyle

For this reason, the leading strand is synthesized continuously (toward, away from) the replication fork, while the lagging strand is synthesized discontinuously (toward, away from) from the replication fork.

toward, away from