Biomolecules MCQs With Answers – Part 4 (Class 12 Chemistry)
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Biomolecules MCQs with Answers – Part 4 (Class 12 Chemistry)

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311. The primary structure of a protein is defined mainly by:
ⓐ. the overall shape formed by several subunits
ⓑ. the pattern of hydrogen bonding in a local backbone region
ⓒ. the exact amino-acid sequence of its polypeptide chain
ⓓ. the arrangement of hydrophobic groups in the protein interior
312. Examine the following statements about protein primary structure. Statement I: Two polypeptides with the same amino-acid composition can have different primary structures. Statement II: Primary structure influences the higher folding and function of a protein. Statement III: Primary structure is determined only by the total number of peptide bonds. The acceptable statements are:
ⓐ. I and II only
ⓑ. I and III only
ⓒ. II and III only
ⓓ. I, II and III
313. A protein variant has the same chain length as the normal protein, but one amino-acid residue has been replaced by another. The variant folds differently and shows much lower biological activity. The observation most directly demonstrates that:
ⓐ. chain length alone determines protein function
ⓑ. peptide bonds are absent from the variant
ⓒ. secondary structure is unrelated to amino-acid sequence
ⓓ. a single residue change can alter folding and activity
314. The most suitable order for describing the development of protein structure is:
ⓐ. quaternary association \(\rightarrow\) primary sequence \(\rightarrow\) local folding \(\rightarrow\) tertiary folding
ⓑ. primary sequence \(\rightarrow\) secondary folding \(\rightarrow\) tertiary folding \(\rightarrow\) possible subunit association
ⓒ. tertiary folding \(\rightarrow\) peptide-bond formation \(\rightarrow\) primary sequence \(\rightarrow\) secondary folding
ⓓ. secondary folding \(\rightarrow\) amino-acid synthesis \(\rightarrow\) quaternary association \(\rightarrow\) primary sequence
315. Four distinct amino acids—Ala, Gly, Ser and Val—are used exactly once each to form linear tetrapeptides. Ignoring stereochemical variations, the number of possible primary sequences is:
ⓐ. \(8\)
ⓑ. \(12\)
ⓒ. \(24\)
ⓓ. \(16\)
316. Use the arrangement described below. A polypeptide backbone coils regularly. Hydrogen bonds form within the same chain between peptide carbonyl and amide groups, while the side chains project outward. The arrangement is:
ⓐ. a \(\beta\)-pleated sheet
ⓑ. an \(\alpha\)-helix
ⓒ. a quaternary assembly
ⓓ. an unfolded primary chain
317. Assertion: Hydrogen bonding is important for stabilising an \(\alpha\)-helix. Reason: The hydrogen bonds form mainly between peptide-backbone carbonyl and amide groups within the same helical segment.
ⓐ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓑ. Assertion is true, but Reason is false
ⓒ. Assertion is false, but Reason is true
ⓓ. Both Assertion and Reason are true, and Reason explains Assertion
318. In a typical \(\alpha\)-helix, most amino-acid side chains:
ⓐ. project outward from the helical backbone
ⓑ. form the peptide bonds along the central axis
ⓒ. remain trapped inside the helix as a continuous core
ⓓ. are removed during hydrogen-bond formation
319. The row that correctly distinguishes primary structure from an \(\alpha\)-helical secondary structure is:
OptionPrimary structure\(\alpha\)-Helical secondary structure
AMaintained mainly by hydrogen bondsMaintained only by peptide-bond hydrolysis
BAssociation of several subunitsExact amino-acid sequence
CResidue sequence joined by peptide bondsRegular backbone coil stabilised by hydrogen bonds
DThree-dimensional folding of one chainArrangement of several folded chains
ⓐ. Row A
ⓑ. Row B
ⓒ. Row C
ⓓ. Row D
320. A claim states, “When a polypeptide becomes helical, its peptide bonds are broken and replaced by hydrogen bonds.” The most accurate correction is:
ⓐ. peptide bonds remain; hydrogen bonds stabilise the helix
ⓑ. peptide bonds remain, but glycosidic bonds stabilise the helix
ⓒ. hydrogen bonds replace only the peptide bonds inside each turn
ⓓ. new covalent bonds form between every third backbone residue
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