Explore topic-wise MCQs in Biochemistry.

This section includes 195 Mcqs, each offering curated multiple-choice questions to sharpen your Biochemistry knowledge and support exam preparation. Choose a topic below to get started.

151.

Which of the following is correct sequence of processes in the oxidation of glucose?

A. Krebs cycle - glycolysis - electron transport
B. Glycolysis - Krebs cycle - eletron transport
C. Electron transport - Krebs cycle - glycolysis
D. Krebs cycle - electron transport - glycolysis
Answer» C. Electron transport - Krebs cycle - glycolysis
Discussion
152.

Which of the following is the correct sequence for the movement of electrons during the light-dependent reactions of plants?

A. P₇₀₀, P₆₈₀, NADP⁺, water
B. P₆₈₀, water, P₇₀₀, NADP⁺
C. Water, P₇₀₀, NADP⁺, P₆₈₀
D. Water,P₆₈₀, P₇₀₀, NADP⁺
Answer» E.
Discussion
153.

A chlorophyll-like accessory pigment lacking Mg⁺² is

A. Pheophytin
B. Cytochrome c
C. Plastocyanin
D. Ferredoxin
Answer» B. Cytochrome c
Discussion
154.

Photosystem I uses which of the following in its photo-center?

A. P700
B. P800
C. P900
D. P600
Answer» B. P800
Discussion
155.

Which one is not the main protein in electron transport chain?

A. NADH dehydrogenase
B. Cytochrome bc1 complex
C. Cytochrome oxidase
D. Citrate synthease
Answer» E.
Discussion
156.

The magnitude of proton motive force depends on

A. Energy charge of cell
B. Permeability of membrane
C. Number of ribosomes in cell
D. None of the mentioned
Answer» B. Permeability of membrane
Discussion
157.

The rate of electron transfer when proton motive force is high is

A. Faster
B. Slower
C. Moderate
D. None of the mentioned
Answer» C. Moderate
Discussion
158.

In mitochondria, hydride ions are removed from substrates by _________

A. NAD-linked dehydrogenases
B. NADP-linked dehydrogenases
C. ATP synthase
D. Succinate dehydrogenases
Answer» B. NADP-linked dehydrogenases
Discussion
159.

Photosynthesis takes place in sac like membranes called

A. Thylakoids
B. Grana
C. Photosystems
D. Photons
Answer» B. Grana
Discussion
160.

How many mitochondrial proteins are encoded in nuclear genes and imported into mitochondria after their synthesis?

A. 600
B. 700
C. 800
D. 900
Answer» E.
Discussion
161.

The electrons that are released by the splitting of water during photosynthesis ultimately end up in

A. ATP
B. O₂
C. NADPH
D. rubisco
Answer» D. rubisco
Discussion
162.

Where does the O₂ come from that is essential for the proper functioning of oxidative phosphorylation?

A. Fermentation
B. Light reactions of photosynthesis
C. Dark reactions of photosynthesis
D. Carbon fixation
Answer» C. Dark reactions of photosynthesis
Discussion
163.

Out of the following the one having highest redox potential is

A. Ubiquinone
B. O₂
C. FMN
D. NAD
Answer» C. FMN
Discussion
164.

The mechanism of action of cyanide, a mitochondrial toxin, is by inhibiting

A. ATP synthase
B. Succinate dehydrogenase
C. Cytochrome c oxidase
D. NADH dehydrogenase
Answer» D. NADH dehydrogenase
Discussion
165.

What is the effect of excessive rate of apoptosis?

A. Atrophy
B. Sneezing
C. Fever
D. AIDS
Answer» B. Sneezing
Discussion
166.

The light reaction of photosynthesis takes place in

A. Inner membrane of chloroplast
B. Outer membrane of chloroplast
C. Stroma
D. Matrix
Answer» B. Outer membrane of chloroplast
Discussion
167.

Which of the following is the distinguishable feature of cyclic photophosphorylation?

A. Phosphorylation only takes place
B. Phosphorylation and photolysis take place
C. Photolysis of water is taking place
D. None of the mentioned
Answer» B. Phosphorylation and photolysis take place
Discussion
168.

Urea cycle converts

A. ammonia into a less toxic form
B. ketoacids into amino acids
C. amino acids into ketoacids
D. none of these
Answer» B. ketoacids into amino acids
Discussion
169.

Which of the following is not a feature of oxidative phosphorylation?

A. Direct transfer of phosphate from a substrate molecule to ADP
B. An electrochemical gradient across the inner mitochondrial membrane
C. A membrane bound ATP synthase
D. A protonmotive force
Answer» B. An electrochemical gradient across the inner mitochondrial membrane
Discussion
170.

During glycolysis, electrons removed from glucose are passed to

A. FAD
B. NAD+
C. acetyl CoA
D. pyruvic acid
Answer» C. acetyl CoA
Discussion
171.

In eukaryotes, electron transport occurs in

A. membranes and mitochondria
B. endoplasmic reticulum
C. cytoplasm
D. all of the above
Answer» B. endoplasmic reticulum
Discussion
172.

Photosynthesis can be described as

A. Reductive, anabolic, endergonic process
B. Reductive, anabolic, exergonic process
C. Oxidative, anabolic, endergonic process
D. Oxidative, catabolic, exergonic process
Answer» B. Reductive, anabolic, exergonic process
Discussion
173.

Effect of valinomycin on oxidative phosphorylation does not involve

A. pH gradient across the inner mitochondrial membrane decreases
B. Rate of flow of electrons increases
C. Rate of oxygen consumption increases
D. Net yield of ATP decreases
Answer» B. Rate of flow of electrons increases
Discussion
174.

The manufacture of ATP in both photosynthesis and respiration is made possible by

A. the existence of a proton gradient across specific membranes
B. the action of ATP synthase
C. energy from the movement of electrons
D. All of the above
Answer» E.
Discussion
175.

Mitochondrial DNA is a

A. Simple, single stranded linear DNA molecule
B. Simple, single stranded circular DNA molecule
C. Simple, double stranded linear DNA molecule
D. Simple, double stranded circular DNA molecule
Answer» E.
Discussion
176.

Chemiosmotic hypothesis does not involve

A. Only proton transport is strictly regulated, other positively charged ions can diffuse freely across the mitochondrial membrane
B. ATPase activity is reversible
C. Proton flow in to the mitochondria depends on the presence of ADP and Pi
D. Electron transport by the respiratory chain pumps protons out of the mitochondria
Answer» B. ATPase activity is reversible
Discussion
177.

In the initial step of photosynthesis, sunlight energizes the electron pair of

A. adenosine triphosphate (ATP)
B. chlorophyll pigments
C. water
D. carbon dioxide
Answer» C. water
Discussion
178.

How many ATPs are produced during citric acid cycle?

A. 10
B. 13
C. 12
D. 8
Answer» D. 8
Discussion
179.

In oxygenic photosynthesis, water is split in order to provide the

A. electrons needed to reduce P680
B. O₂ needed for the dark reactions
C. electrons needed to reduce NADH
D. electrons needed for cyclic photophosphorylation
Answer» B. O₂ needed for the dark reactions
Discussion
180.

Which of the following group of plants contains agranal chloroplast?

A. C₃ plants
B. C₄ plants
C. C₂ plants
D. C₁ plants
Answer» C. C₂ plants
Discussion
181.

A eukaryotic cell that can carry out only fermentation instead of the complete aerobic respiration of glucose

A. produces less CO₂
B. is lacking in O₂
C. has mitochondria present
D. all of these
Answer» E.
Discussion
182.

How many molecules of ATP are hydrolysed to form two molecule of ammonia?

A. 10
B. 5
C. 16
D. 15
Answer» D. 15
Discussion
183.

Each cycle of β-oxidation produces

A. 1 FADH₂, 1 NAD+, and 1 acetyl-CoA
B. 1 FADH₂, 1 NADH and 1 acetyl-CoA
C. 1 FADH₂, 1 NADH and 2 CO₂ molecules
D. 1 FAD, 1 NAD+ and 2 CO₂ molecules
Answer» C. 1 FADH₂, 1 NADH and 2 CO₂ molecules
Discussion
184.

Three identical β subunits of the F1 complex during ATP synthesis have

A. Different affinities for ATP and ADP
B. Similar affinities for ADP and ATP
C. Different affinities for ADP but not ATP
D. Different affinities for ATP but not ADP
Answer» B. Similar affinities for ADP and ATP
Discussion
185.

The inputs to one cycle of the urea cycle are

A. 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of carbon dioxide, 3 molecules of ATP
B. 1 molecule of urea, 1 molecule of ammonia, 3 molecules of ATP and 1 molecule of fumaric acid
C. 1 molecule of fumaric acid, 1 molecule of urea, 3 molecules of AMP
D. None of the above
Answer» B. 1 molecule of urea, 1 molecule of ammonia, 3 molecules of ATP and 1 molecule of fumaric acid
Discussion
186.

The maximum energy per gram on oxidization is yielded from

A. fat
B. protein
C. glycogen
D. starch
Answer» B. protein
Discussion
187.

Which one of the following is true about C₃ plants?

A. First stable product is phosphoglyceric acid
B. Photosynthetically more efficient
C. More efficient in CO₂ fixation than C₄ plants
D. None of the mentioned
Answer» B. Photosynthetically more efficient
Discussion
188.

In oxygenic photosynthesis, the electron donor is

A. water
B. oxygen
C. NADH
D. NADPH
Answer» B. oxygen
Discussion
189.

Nitrate reduction can be carried out by

A. only microorganism
B. plant and microorganism
C. only plants
D. none of these
Answer» C. only plants
Discussion
190.

The breakdown of glucose occurs by the process known as

A. glycolysis
B. fermentation
C. anaerobic respiration
D. Krebs cycle
Answer» B. fermentation
Discussion
191.

The oxidation of methanol (wood alcohol) in human retina tissue leads directly to the formation of

A. formaldehyde
B. sugars
C. CO₂
D. none of these
Answer» B. sugars
Discussion
192.

How many molecules of acetyl-CoA are produced in oxidation of palmitic acid (C₁₆), which involves seven rounds of oxidation?

A. 6
B. 7
C. 8
D. 9
Answer» D. 9
Discussion
193.

Long-chain fatty acids are oxidized step-wise in one carbon units starting from the

A. carboxyl end
B. aliphatic end
C. both (a) and (b)
D. none of these
Answer» B. aliphatic end
Discussion
194.

The irreversibility of the thiokinase reactions (formation of initial acyl-CoA)

A. make this activation reaction the committed step on the pathway
B. is due to the subsequent hydrolysis of the product
C. applies only to even-chain fatty acids
D. both (a) and (b)
Answer» E.
Discussion
195.

Membrane potential and the proton gradient

A. are both required to make ATP
B. are sufficient, separately, to make ATP from ADP + Pi;
C. reinforce one another when respiratory inhibitors are present
D. cancel one another when uncouplers are present
Answer» B. are sufficient, separately, to make ATP from ADP + Pi;
Discussion