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.

101.

If 8 photons are required to produce one molecule of O₂, how many photons are required to produce one molecule of glucose?

A. 6
B. 8
C. 48
D. 12
Answer» D. 12
Discussion
102.

The nitrogen atoms of urea produced in the urea cycle are derived from

A. nitrate
B. ammonia and aspartic acid
C. nitrite
D. ammonia
Answer» C. nitrite
Discussion
103.

Which of the following is used as carbon atom source while producing urea in the urea cycle?

A. Arginine
B. Aspartic acid
C. Carbon dioxide
D. Glucose
Answer» D. Glucose
Discussion
104.

During electron transport, protons are pumped out of the mitochondrion at each of the major sites except for

A. complex I
B. complex II
C. complex III
D. complex IV
Answer» C. complex III
Discussion
105.

The products of urea cycle are

A. 1 molecule of urea, 1 molecule of ammonia, 1 molecule of ATP and 1 molecule of fumaric acid
B. 1 molecule of fumaric acid, 1 molecule of urea, 1 molecule of AMP, 2 molecules of ADP
C. 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of fumaric acid, 1 molecule of ATP
D. None of the above
Answer» C. 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of fumaric acid, 1 molecule of ATP
Discussion
106.

Which of the following amino acid do not fall under the category of essential amino acid?

A. Histidine
B. Leucine
C. Glycine
D. Methionine
Answer» D. Methionine
Discussion
107.

The aerobic breakdown of glucose known as respiration involves

A. electron transport phosphorylation
B. glycolysis
C. Krebs Cycle
D. all of the above
Answer» E.
Discussion
108.

During cellular respiration, most of the ATP made, is generated by

A. oxidative phosphorylation
B. photophosphorylation
C. glycolysis
D. substrate-level phosphorylation
Answer» B. photophosphorylation
Discussion
109.

To stop ATP synthesis which chemical is generally used?

A. DNSA
B. 2,4 dinitrophenol
C. DDT
D. None of the chemical can stop ATP synthesis
Answer» C. DDT
Discussion
110.

Important function of cholesterol is to

A. modulate fluidity
B. enhance blood circulation
C. prevent bile salts formation
D. None of these
Answer» B. enhance blood circulation
Discussion
111.

The enzymes of the TCA cycle in a eukaryotic cell are located in the

A. nucleus
B. mitochondria
C. plasma membrane
D. lysosomal bodies
Answer» C. plasma membrane
Discussion
112.

Citric acid cycle occurs in

A. cytoplasm
B. mitochondria
C. endoplasmic reticulum
D. golgi bodies
Answer» C. endoplasmic reticulum
Discussion
113.

A positive redox potential means substance has

A. lower affinity for electron
B. higher affinity for electron
C. lower affinity for proton
D. higher affinity for proton
Answer» C. lower affinity for proton
Discussion
114.

Most of the enzymes of the citric acid cycle in a eukaryotic cell are located in the

A. inner mitochondrial membrane
B. cytosol
C. mitochondrial matrix
D. intermembrane space
Answer» D. intermembrane space
Discussion
115.

Most multi-cellular organisms obtain energy for the synthesis of ATP during oxidative phosphorylation from

A. high energy phosphate compounds
B. a proton gradient across the inner mitochondrial membrane
C. a proton gradient across the cell membrane
D. a proton gradient across the outer mitochondrial membrane
Answer» C. a proton gradient across the cell membrane
Discussion
116.

The transport of acyl-CoA for oxidation using a shuttle involves formation of the intermediate

A. 3 acetyl-CoA
B. Acyl-coenzyme A
C. acyl-carnitine
D. None of these
Answer» D. None of these
Discussion
117.

The three identical b subunits of the F1, complex during ATP synthesis have

A. different affinities for ATP but not for ADP
B. different affinities for ADP but not for ATP
C. different affinities for ATP and for ADP
D. similar affinities for ADP and ATP
Answer» D. similar affinities for ADP and ATP
Discussion
118.

The oxidation of methanol (wood alcohol) in human retina tissue indirectly leads to

A. pressure builds up
B. colour blindness
C. blindness
D. all of these
Answer» D. all of these
Discussion
119.

Coenzyme Q is involved in electron transport as

A. directly to O₂
B. a water-soluble electron donor
C. covalently attached cytochrome cofactor
D. a lipid-soluble electron carrier
Answer» E.
Discussion
120.

A biological redox reaction always involves

A. an oxidizing agent
B. a gain of electrons
C. a reducing agent
D. all of these
Answer» E.
Discussion
121.

FAD is reduced to FADH₂ during

A. electron transport phosphorylation
B. lactate fermentation
C. Krebs cycle
D. glycolysis
Answer» D. glycolysis
Discussion
122.

Where the acyl-CoA formed in the cytosol is transported for oxidation?

A. Mitochondrial matrix
B. Microsomes
C. Endoplasmic reticulum
D. Remains in cytosol
Answer» B. Microsomes
Discussion
123.

The carbon dioxide is primary a product of

A. Krebs cycle
B. glycolysis
C. electron transport phosphorylation.
D. lactate fermentation.
Answer» B. glycolysis
Discussion
124.

How many CO₂ molecules are exhaled for each O₂ molecule utilized in cellular respiration?

A. 1
B. 3
C. 6
D. 12
Answer» B. 3
Discussion
125.

In aerobic respiration, the compound that enters a mitochondrion is

A. acetyl CoA
B. pyruvate
C. phosphoglyceraldehyde
D. oxaloacetate
Answer» C. phosphoglyceraldehyde
Discussion
126.

Which of the following is not a significant biological oxidizing agent?

A. FAD
B. Fe³⁺
C. O₂
D. NAD⁺
Answer» C. O₂
Discussion
127.

The earliest photo synthesizers used which of the following as the source of hydrogen?

A. CO₂
B. C₆H₁₂O₆
C. H₂O
D. H₂S
Answer» E.
Discussion
128.

Which of the following systems has an associated water splitting activity resembling that of plants?

A. Photosystem
B. Photosystem I
C. Photosystem II
D. Photosystem III
Answer» D. Photosystem III
Discussion
129.

The carbon-assimilation reactions require ATP and NADPH in the ratio

A. 3:2
B. 2:3
C. 3:4
D. 4:3
Answer» B. 2:3
Discussion
130.

What happens after glycolysis when oxygen is available as an electron acceptor?

A. Pyruvate is formed
B. NADH is produced
C. Fermentation
D. Oxidative phosphorylation
Answer» C. Fermentation
Discussion
131.

The complete oxidation of glucose yields usable energy in the form of

A. FADH₂
B. coenzyme A
C. ATP
D. pyruvic acid
Answer» D. pyruvic acid
Discussion
132.

In electron transport, electrons ultimately pass to

A. ADP
B. cytochrome b
C. oxygen
D. none of these
Answer» D. none of these
Discussion
133.

Which one of the following is not the intermediate of Kreb's cycle?

A. Isocitrate
B. Succinate
C. Fumarate
D. Stearate
Answer» E.
Discussion
134.

Lactic acid is produced by human muscles during strenuous exercise because of lack of

A. oxygen
B. NAD⁺
C. glucose
D. ADP and Pi
Answer» B. NAD⁺
Discussion
135.

The FADH₂ and NADH produced by the oxidation of one acetyl-CoA results in the synthesis of about-

A. 3 ATPs
B. 6 ATPs
C. 11 ATPs
D. 15 ATPs
Answer» D. 15 ATPs
Discussion
136.

The only membrane bound enzyme in the citric acid cycle is _________

A. Succinate dehydrogenase
B. NADH dehydrogenase
C. ATP synthase
D. Acyl co-A dehydrogenase
Answer» B. NADH dehydrogenase
Discussion
137.

Standard redox potential for a substance is measured under standard condition and is expressed as

A. mili-Ampere
B. Volt
C. without unit
D. Ohm
Answer» C. without unit
Discussion
138.

A lipid-soluble benzoquinone with a long isoprenoid side chain is?

A. Ubiquinone
B. Cytochrome b
C. Cytochrome c
D. Cytochrome a
Answer» B. Cytochrome b
Discussion
139.

How many molecules of ATPs are synthesized per NADH oxidation?

A. 2
B. 1
C. 3
D. 4
Answer» D. 4
Discussion
140.

If the oxygen is labeled in CO₂ and provide this CO₂ to a plant, where it is expected to find this labeled oxygen after the plant had undergone photosynthesis?

A. In the water used
B. In the NADPH
C. In the carbohydrate produced
D. In the oxygen given off by the plant
Answer» D. In the oxygen given off by the plant
Discussion
141.

ATP synthesis by chemiosmosis is by

A. ATP dehydrogenase
B. Gyrase
C. ATP synthase
D. Dehydrogenase
Answer» D. Dehydrogenase
Discussion
142.

Oxysomes or F₀– F₁ particles occur on

A. Inner mitochondrial membrane
B. Chloroplast surface
C. Mitochondrial surface
D. Thylakoids
Answer» B. Chloroplast surface
Discussion
143.

A mobile, lipid soluble carrier of two electrons present in mitochondria is

A. PQʙ
B. Q
C. Cytochrome c
D. Plastocyanin
Answer» C. Cytochrome c
Discussion
144.

The end product of glycolysis is pyruvate, which enters the citric acid cycle after being converted to

A. acetic acid
B. acetyl-CoA
C. acetaldehyde
D. none of these
Answer» C. acetaldehyde
Discussion
145.

Oxidation of a molecule involves

A. gain of electron
B. loss of electron
C. gain of proton
D. loss of proton
Answer» C. gain of proton
Discussion
146.

Which of the following is the reduced form of a temporary electron carrier molecule?

A. FADH₂
B. ATP
C. NADP+
D. CO₂
Answer» B. ATP
Discussion
147.

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

A. Carboxyl end
B. Aliphatic end
C. a and b
D. None of the mentioned
Answer» B. Aliphatic end
Discussion
148.

Typically how many copies of DNA is/are there in each mitochondrion?

A. 1
B. 11
C. 10
D. 12
Answer» D. 12
Discussion
149.

The cytochrome c oxidase complex

A. accepts electrons from cyt c
B. donates four electrons to O₂
C. pumps protons out of the matrix space
D. all of these
Answer» E.
Discussion
150.

In metabolism, NAD is involved in

A. Spontaneous reaction
B. Elimination reaction
C. Redox reactions
D. None of the mentioned
Answer» D. None of the mentioned
Discussion