Gen Biology

Question 1

1. Which statement accurately describes the differences in outcomes and contributions to genetic diversity between mitosis and meiosis?
   A. Mitosis produces genetically identical daughter cells, while meiosis generates genetic diversity through homologous
   recombination.
   B. Mitosis creates genetic diversity through crossing over, while meiosis leads to identical daughter cells.
   C. Both mitosis and meiosis produce genetically diverse cells through random chromosome segregation.
   D. Both mitosis and meiosis produce genetically identical cells due to DNA replication.

Answer 1

A. Mitosis produces genetically identical daughter cells, while
meiosis generates genetic diversity through homologous
recombination.

Question 2

2. Evaluate the significance of homologous recombination during meiosis. How does this process contribute to genetic diversity, and what would occur in its absence during meiotic divisions?
   A. Homologous recombination increases genetic diversity through the exchange of genetic material.
   A. Homologous recombination introduces mutations, reducing genetic diversity.
   A. The absence of homologous recombination has no impact on genetic diversity.
   A. Homologous recombination ensures identical offspring.

Answer 2

A. Homologous recombination increases genetic diversity through
the exchange of genetic material.

Question 3

3. In preparation for metaphase I during meiosis in a primary
   spermatocyte from a grasshopper testis, which step must occur
   first?
   A. The chromosomes inside the spermatocyte must undergo separation of their sister chromatids first
   A. The chromosomes inside the spermatocyte must move to opposite poles of the cell first.
   A. The chromosomes inside the spermatocyte must undergo an exchange of genetic material first.
   A. The chromosomes inside the spermatocyte must double in number first.

Answer 3

C. The chromosomes inside the spermatocyte must undergo an
exchange of genetic material first.

Question 4

4. Down syndrome is also known as ____________.
   A. Monosomy 21
   A. Trisomy 21
   A. Trisomy 18
   A. Trisomy 22

Answer 4

B.

Question 5

5. If an egg with 22 autosomes is fertilized by a sperm with 22
   autosomes and an X chromosome, the offspring will be
   ____________.
   A. female, XXX
   A. female, XO
   A. male, XXY
   A. male, XO

Answer 5

B.

Question 6

6. Which of the following statements accurately describes plants’
   chlorophyll and other accessory pigments?
   I. Chlorophyll provides the enzymes needed to produce
   carbohydrates.
   II. Chlorophyll molecules transfer photons from one to another.
   III. Chlorophyll absorbs light of specific wavelengths.
   IV. Plant pigments absorb solar energy.
   A. II, III, and IV only
   B. I, II, and III only
   C. III only
   D. I only

Answer 6

A.

Question 7

7. What is the final electron acceptor in the light reactions?
   A. Chlorophyll
   B. Oxygen
   C. NADP+
   D. Water

Answer 7

C.

Question 8

8. Following the generation of a proton gradient, protons flow back into the stroma through ATP synthase. Describe the pattern of electron flow during the light reactions.
   A. Proton flow powers the conversion of ADP to ATP.
   B. Protons are released into the thylakoid lumen.
   C. Protons combine with electrons to form water.
   D. Protons facilitate the reduction of NADP+.

Answer 8

A. Proton flow powers the conversion of ADP to ATP.

Question 9

9. Which of the following is the correct sequence for the movement
   of electrons during the light reactions of plants?
   A. P680 to P700 to Water to NADP+
   B. Water to P700 to NADP+ to P680
   C. P700 to P680 to NADP+ to Water
   D. Water to P680 to P700 to NADP+

Answer 9

D.

Question 10

10. Which of the following is mismatched?
    A. P700 of Photosystem I - passes the electron to the primary acceptor
    B. Photosystem II - absorbs photons of light energy
    C. Ferredoxin - transfers the electron to NADP
    D. Photolysis - replaces electron in P700

Answer 10

D.

Question 11

11. Suppose a scientist studies the differences in carbon dioxide availability for the Calvin cycle. Plant A is supplied with more carbon dioxide than Plant B. How would this affect the Calvin cycle process?
    A. Both plants A and B would show identical Calvin cycle processes due to carbon dioxide being a limiting factor.
    B. Plant B would demonstrate a higher efficiency in utilizing carbon dioxide during the Calvin cycle.
    C. The carbon dioxide supply would not impact the Calvin cycle in
    either plant A or B.
    D. Plant A would exhibit an increase in the rate of carbon fixation in the Calvin cycle.

Answer 11

D.

Question 12

12. How will NADH be utilized in aerobic and anaerobic respiration?
    A. NADH is oxidized and reduced in both aerobic and anaerobic
    processes.
    B. NADH is reduced in aerobic but not in anaerobic respiration.
    C. NADH is oxidized in anaerobic but not in aerobic respiration.
    D. NADH utilization is independent of the type of respiration.

Answer 12

C. NADH is oxidized in anaerobic but not in aerobic respiration.

Question 13

13. Certain organisms, such as some species of bacteria, can only thrive in anaerobic environments. What advantages or disadvantages can this have in different environments?
    A. The bacteria will have advantages in aerobic environments.
    B. The bacteria can only survive in oxygen-rich environments.
    C. The bacteria cannot survive in oxygen-rich environments.
    D. There is no significant impact on the organism

Answer 13

C. The bacteria cannot survive in oxygen-rich environments.

Question 14

14. What contributes to the higher ATP yield in aerobic processes?
    A. The presence of oxygen in the process.
    B. The temperature of the environment.
    C. The number of mitochondria.
    D. The process of glycolysis.

Answer 14

A. The presence of oxygen in the process.

Question 15

15. In a scenario where a cell is experiencing low oxygen levels,
    leading to anaerobic conditions, which stage of cellular respiration
    would still be functional, producing ATP without the involvement of
    the Electron Transport System and chemiosmosis?
    A. Electron Transport Chain
    B. Chemiosmosis
    C. Krebs Cycle
    D. Glycolysis

Answer 15

D. Glycolysis

Question 16

In a species with a diploid number of 16 chromosomes, how many unique combinations of chromosomes can be produced through independent assortment during metaphase 1?

a.8
b.64
c.16
d.256

Answer 16

D. 256

Question 17

During Prophase I of Meiosis I, which events occur?
a.
Homologous chromosomes line up at the metaphase plate.

b.
Daughter cells are formed.

c.
Centromeres split, and chromatids separate.

d.
Chromosomes condense, and the nuclear envelope dissolves.

Answer 17

d.
Chromosomes condense, and the nuclear envelope dissolves.

Question 18

Meiosis has a significant role in the production of gametes for sexual reproduction. What is the main advantage of this for species survival?

a.
Increased genetic diversity

b.
Reduced genetic diversity

c.
Faster reproductive rates

d.
Cloning Capability

Answer 18

a.
Increased genetic diversity

Question 19

Which of the following would be the result of nondisjunction of the autosomes?

a.
Jacob’s Syndrome (XYY)
b.
Turner Syndrome XO
c.
Trisomy 21
d.
XXX Syndrome

Answer 19

c.
Trisomy 21

Question 20

Nondisjunction can occur during meiosis if?
Question 5Answer

a.
members of the homologous pair fail to separate.

b.
the daughter cells fail to separate

c.
none of the choices

Answer 20

a.
members of the homologous pair fail to separate.

Question 21

In which phase of Prophase I do tetrads form?

a.
Leptotene

b.
Diplotene

c.
Pachytene

d.
Zygotene

Answer 21

d.
Zygotene

Question 22

Which among the following describes crossing-over?
Question 7Answer

a.
homologous chromosomes cross over to opposite sides of the cell.

b.
homologous chromosomes exchange chromosomal material.

c.
kinetochore fibers attach to both sides of a centromere.

d.
homologous chromosomes become closely associated along their lengths

Answer 22

b.
homologous chromosomes exchange chromosomal material.

Question 23

Which term refers to the random assortment of maternal and paternal chromosomes during meiosis, contributing to genetic diversity?

a.
Homologous recombination

b.
Chromosomal translocation

c.
Somatic cell division

d.
Independent assortment

Answer 23

d.
Independent assortment

Question 24

What term describes the situation when a segment of one chromosome breaks off and becomes attached to a different, non-homologous chromosome?

a.
Inversion

b.
Deletion

c.
Translocation

d.
Addition

Answer 24

c.
Translocation

Question 25

In meiosis, homologous chromosomes are separated during which phase?

a.
Anaphase I

b.
Metaphase II

c.
Telophase II

d.
Prophase II

Answer 25

a.
Anaphase I

Question 26

How many chromosomes are in a tetrad during prophase I of meiosis?

a.
1

b.
3

c.
2

d.
4

Answer 26

c.
2

Question 27

During prophase I of meiosis, a diploid cell with 46 chromosomes undergoes a series of events. At the end of prophase I, how many individual chromosomes are in each cell?

a.
23

b.
46

c.
4

d.
92

Answer 27

b.
46

Question 28

In a karyotype analysis, a patient’s cells are found to have an extra copy of chromosome 21. What is the likely result of this chromosomal abnormality?

a.
Patau Syndrome

b.
Down Syndrome

c.
Klinefelter syndrome (XXY)

d.
Turner syndrome (Monosomy X).

Answer 28

b.
Down Syndrome

Question 29

In a hypothetical organism, during metaphase I of meiosis, a cell has 8 tetrads lined up along the metaphase plate. How many individual chromosomes are present in this cell at this stage?

a.
64

b.
8

c.
32

d.
16

Answer 29

d.
16

Question 30

Which of the following is an example of a haploid cell?

a.
Muscle cell

b.
Skin cell

c.
Liver cell

d.
Sperm cell

Answer 30

d.
Sperm cell

Question 31

During what stage of meiosis does crossing over, or genetic recombination, occur?

a.
Prophase I

b.
Telophase I

c.
Metaphase I

d.
Anaphase I

Answer 31

a.
Prophase I

Question 32

Which of the following is NOT TRUE when cells undergo meiosis?

a.
Meiosis occurs in the production of egg and sperm cells in animals.

b.
Meiosis ensures that each generation has a different genetic makeup than the previous one.

c.
Meiosis ensures that each newly formed daughter cell receives the same number and kinds of chromosomes.

d.
Meiosis ensures that the chromosome number remains constant from generation to generation.

Answer 32

c.
Meiosis ensures that each newly formed daughter cell receives the same number and kinds of chromosomes.

Question 33

What is the significance of independent assortment in meiosis?

a.
Independent assortment leads to genetic diversity in offspring by randomly distributing maternal and paternal chromosomes.

b.
Independent assortment ensures that sister chromatids separate during anaphase II.

c.
Independent assortment prevents the formation of nonfunctional gametes.

d.
Independent assortment allows for the repair of damaged DNA during meiosis.

Answer 33

a.
Independent assortment leads to genetic diversity in offspring by randomly distributing maternal and paternal chromosomes.

Question 34

If 6 cells undergoing cell division have 6 chromosomes, how many chromosomes will there be in the daughter cells after cytokinesis in mitosis and cytokinesis in meiosis II, respectively?

a.
6 and 6

b.
6 and 24

c.
6 and 3

d.
12 and 24

Answer 34

c.
6 and 3

Question 35

A genetic disorder caused by the presence of an extra Y chromosome in males is known as:

a.
Down syndrome

b.
Klinefelter syndrome

c.
Edwards syndrome

d.
Turner syndrome

Answer 35

b.
Klinefelter syndrome

Question 36

Which of the following classifications is mismatched?

a.
Chemiosmosis: Creates a proton gradient

b.
Chemiosmosis: Makes ATP using a proton gradient

c.
ETC: Oxidizes FADH2 to FAD

d.
ETC: Oxidizes NADH to NAD+

Answer 36

a.
Chemiosmosis: Creates a proton gradient

Question 37

Carbon dioxide is converted to G3P in what stage of photosynthesis?

a.
Calvin Cycle

b.
Krebs Cycle

c.
Glycolysis

d.
Light reactions

Answer 37

a.
Calvin Cycle

Question 38

There is an increase in carbon dioxide concentration in the atmosphere. How would this change in concentration affect a plant’s photosynthesis rate?
Question 3Answer

a.
There is no change in the rate of photosynthesis

b.
The rate of photosynthesis stays the same

c.
There is a decrease in the rate of photosynthesis

d.
There is an increase in the rate of photosynthesis

Answer 38

d.
There is an increase in the rate of photosynthesis

Question 39

Photosynthesis is an example of which type of chemical reaction?

a.
Decomposition

b.
Reduction-Oxidation

c.
Combustion

d.
Hydrolysis

Answer 39

b.
Reduction-Oxidation

Question 40

Which of the following metabolic processes is common to both aerobic respiration and fermentation?

a.
Oxidative phosphorylation

b.
Citric acid cycle

c.
Electron transport chain

d.
Glycolysis

Answer 40

d.
Glycolysis

Question 41

Which of the following light colors is least effective in driving the light reactions of photosynthesis?

a.
Blue

b.
Green

c.
Red

d.
Violet

Answer 41

b.
Green

Question 42

A bacterium takes in 2 molecules of glucose. At the end of glycolysis, what will be the products?
Question 7Answer

a.
1 Pyruvate, 1 ATP and 1 NADH

b.
2 Pyruvate, 2 ATP, and 2 NADH

c.
4 Pyruvate, 4 ATP and 4 NADH

d.
4 Pyruvate, 2 ATP, and 2 CO2

Answer 42

c.
4 Pyruvate, 4 ATP and 4 NADH

Question 43

Which of the following is TRUE regarding chemiosmosis?
Question 8Answer

a.
ATP synthesis creates a proton gradient that causes electron flow through an electron transport chain.

b.
A temperature gradient drives ATP synthesis.

c.
The energy from a proton gradient is used to make ATP.

d.
Chemiosmosis regenerates electron carriers like NADH and FADH2.

Answer 43

c.
The energy from a proton gradient is used to make ATP.

Question 44

Which of the following statements is FALSE regarding the difference between lactic acid and alcohol fermentation?
Question 9Answer

a.
Lactic acid fermentation produces lactic acid as a product, and alcohol fermentation produces ethanol.

b.
Lactic acid fermentation produces a 2-carbon compound, while alcohol fermentation produces a 3-carbon compound.

c.
Carbon dioxide is released only during alcohol fermentation.

d.
Lactic acid fermentation can occur in large muscles in the human body, while alcohol fermentation occurs in yeast.

Answer 44

b.
Lactic acid fermentation produces a 2-carbon compound, while alcohol fermentation produces a 3-carbon compound.

Question 45

What is the balanced chemical equation for cellular respiration?
Question 10Answer

a.
C6H12O6 + 6O2 yields 6CO2 + 6H2O + energy (ATP)

b.
C6H12O6 + O2 yields 6CO2 + 6H2O + energy (ATP)

c.
C6H12O6 + 6O2 yields CO2 + 6H2O + energy (ATP)

d.
6C6H12O6 + 6O2 yields 6CO2 + 6H2O + energy (ATP)

Answer 45

a.
C6H12O6 + 6O2 yields 6CO2 + 6H2O + energy (ATP)

Question 46

Aerobic cellular respiration requires an adequate supply of:
Question 11Answer

a.
Starch

b.
Oxygen

c.
Carbon dioxide

d.
Ethyl alcohol

Answer 46

b.
Oxygen

Question 47

Plants and animals exchange materials through the processes of photosynthesis and respiration. Which of these statements is true about how these two processes are related?
Question 12Answer

a.
The products of photosynthesis inhibit respiration

b.
The products of photosynthesis are the reactants of cellular respiration.

c.
The products of photosynthesis are also the products of cellular respiration.

d.
The reactants of photosynthesis are also the reactants of cellular respiration.

Answer 47

b.
The products of photosynthesis are the reactants of cellular respiration.

Question 48

What is the final product of the light reactions that serve as an energy carrier for the Calvin cycle?
Question 13Answer

a.
Glucose

b.
NADPH

c.
ATP

d.
Oxygen

Answer 48

c.
ATP

Question 49

During the Calvin Cycle, how much carbon dioxide produces one molecule of a 6-carbon compound?
Question 14Answer

a.
9

b.
6

c.
12

d.
3

Answer 49

b.
6

Question 50

When do organisms use anaerobic pathways to generate energy?
Question 15Answer

a.
When the cytoplasm is unavailable for cellular respiration.

b.
When the Krebs cycle is moving too slowly.

c.
When glucose is available as a reactant.

d.
When there is not enough oxygen available to undergo aerobic cellular respiration.

Answer 50

d.
When there is not enough oxygen available to undergo aerobic cellular respiration.

Question 51

Which of the following statements is CORRECT?
Question 16Answer

a.
At the end of the electron transport chain, oxygen acts as the final electron acceptor.

b.
At the end of the electron transport chain, carbon dioxide acts as the final electron acceptor.

c.
Oxygen acts as the final electron acceptor for Glycolysis.

Answer 51

a.
At the end of the electron transport chain, oxygen acts as the final electron acceptor.

Question 52

Which of the following is a practical application of photosynthesis in daily life?
Question 17Answer

a.
Manufacturing Plastics

b.
Producing food through agriculture

c.
Generating electricity

d.
Purifying water

Answer 52

b.
Producing food through agriculture

Question 53

What is the primary purpose of photolysis in photosynthesis?
Question 18Answer

a.
To release energy for ATP synthesis.

b.
To produce oxygen and provide electrons for the electron transport chain.

c.
To transport protons across the thylakoid membrane.

d.
To convert carbon dioxide into glucose.

Answer 53

b.
To produce oxygen and provide electrons for the electron transport chain.

Question 54

Which of the following is NOT a product of the citric acid cycle (Krebs cycle)?
Question 19Answer

a.
FADH2

b.
Carbon dioxide

c.
NADH

d.
Citrate

Answer 54

d.
Citrate

Question 55

What is the primary pigment responsible for photosynthesis which captures light energy?
Question 20Answer

a.
Chloroplast

b.
Chlorophyll

c.
Xanthophyll

d.
Carotenoids

Answer 55

b.
Chlorophyll

Question 56

In some instances, a plant can undergo cyclic electron flow. This process is used to produce additional ATP to meet the plant cell’s energy needs. However, through this process, a molecule needed for carbon reactions is not produced. What is the molecule?
Question 21Answer

a.
Carbon dioxide

b.
NADP

c.
ADP

d.
NADPH

Answer 56

d.
NADPH

Question 57

Which process directly produces the most NADH molecules during cellular respiration?
Question 22Answer

a.
Electron transport chain

b.
Glycolysis

c.
Pyruvate decarboxylation

d.
Citric acid cycle

Answer 57

d.
Citric acid cycle

Question 58

In an experiment, a researcher increases the carbon dioxide (CO2) concentration available to a group of plants. What would be the most likely effect on their photosynthetic rate?
Question 23Answer

a.
The photosynthetic rate would increase, as CO2 is a limiting factor in photosynthesis.

b.
The photosynthetic rate would be unaffected, as light intensity is the primary factor.

c.
The photosynthetic rate would remain constant, as CO? does not impact the process.

d.
The photosynthetic rate would decrease due to an excess of CO?.

Answer 58

a.
The photosynthetic rate would increase, as CO2 is a limiting factor in photosynthesis.

Question 59

Which of the following is NOT a product of the light reactions in photosynthesis?
Question 24Answer

a.
Glucose

b.
Oxygen

c.
NADPH

d.
ATP

Answer 59

a.
Glucose

Question 60

Which 3-carbon molecule is one of the final products of glycolysis?
Question 25Answer

a.
Pyruvate

b.
2-phosphoglycerate

c.
Glucose

d.
ADP

Answer 60

a.
Pyruvate

Question 61

What is the primary function of the Calvin Cycle in photosynthesis?
Question 26Answer

a.
Releasing oxygen

b.
Converting carbon dioxide into organic molecules

c.
Absorbing light energy

d.
Producing ATP and NADPH

Answer 61

b.
Converting carbon dioxide into organic molecules

Question 62

Suppose you are growing two plants under two different light sources. Plant A is placed under a light source that emits visible light, and Plant B is placed under ultraviolet light. Which of the following plants will you expect to undergo photosynthesis?
Question 27Answer

a.
None of the plants

b.
Both Plants A and B

c.
Plant A

d.
Plant B

Answer 62

c.
Plant A

Question 63

What is the net gain of ATP molecules produced during glycolysis per glucose molecule?
Question 28Answer

a.
2 ATPs

b.
4 ATPs

c.
6 ATPs

d.
36 ATPs

Answer 63

a.
2 ATPs

Question 64

What is the function of the citric acid cycle (Krebs cycle) in cellular respiration?
Question 29Answer

a.
To generate ATP

b.
To reduce oxygen to water

c.
To produce NADH and FADH2 for the electron transport chain

d.
To break down pyruvate into carbon dioxide

Answer 64

c.
To produce NADH and FADH2 for the electron transport chain

Question 65

What is the initial source of electrons for the electron transport chain in light reactions?
Question 30Answer

a.
Water

b.
Carbon dioxide

c.
Glucose

d.
Oxygen

Answer 65

a.
Water