(DEC 2017)
60. Indicate the INCORRECT statement from the following:
(1) Allosteric enzymes function through reversible noncovalent binding of allosteric modulators
or effectors.
(2) Monoclonal antibodies that catalyze hydrolysis of esters or carbonates can be produced.
(3) Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+
(4) Acid phosphatases hydrolyze biological phosphate esters at ̴ pH 5.0.
The correct answer is (3) Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
Introduction
Enzyme inhibition is a key regulatory and toxicological aspect of enzymology. Heavy metals like Hg2+ and Ag+ are well known to irreversibly inhibit many enzymes by binding strongly to sulfhydryl or other active site groups. Meanwhile, monoclonal antibodies capable of catalyzing hydrolysis of esters and carbonates represent a unique class of catalytic antibodies (abzymes) with enzymatic activity. This article clarifies these points to correct misconceptions often encountered regarding enzyme inhibition and antibody catalysis.
Analysis of the Statements
(1) Allosteric enzymes function through reversible noncovalent binding of allosteric modulators or effectors.
-
True:
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Allosteric modulators bind non-covalently at regulatory sites, reversibly altering enzyme activity.
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This is fundamental to allosteric regulation and dynamic enzymatic control.
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(2) Monoclonal antibodies that catalyze hydrolysis of esters or carbonates can be produced.
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True:
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Catalytic monoclonal antibodies (“abzymes”) can be generated to catalyze specific chemical reactions, including ester and carbonate hydrolysis.
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These are produced via immunization with transition state analogs and engineered for catalytic function.
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(3) Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
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False:
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Heavy metals like mercury and silver ions frequently cause irreversible inhibition by covalently binding to critical thiol groups or other functional groups, permanently disabling enzyme activity.
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Such irreversible inhibition is well documented in biochemistry and toxicology.
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(4) Acid phosphatases hydrolyze biological phosphate esters at ~ pH 5.0.
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True:
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Acid phosphatases exhibit optimal activity in acidic conditions close to pH 5.
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This behavior is consistent with the enzyme’s role and classified by pH preference.
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Supporting Details on Heavy Metal Inhibition
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Heavy metals form strong bonds with cysteine sulfhydryl groups.
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These interactions permanently alter enzyme structure and block catalytic functions.
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This is different from reversible inhibitors which bind non-covalently and dissociate.
Overview of Catalytic Monoclonal Antibodies (Abzymes)
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Artificially created antibodies recognizing transition state analogs.
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Exhibit enzyme-like catalytic activities.
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Useful in research, diagnostics, and as potential therapeutics.
Summary Table
| Statement | Correctness | Explanation |
|---|---|---|
| (1) | True | Allosteric modulators bind reversibly, altering enzyme action |
| (2) | True | Catalytic monoclonal antibodies exist and hydrolyze substrates |
| (3) | False | Heavy metals cause irreversible enzyme inhibition |
| (4) | True | Acid phosphatases work optimally near pH 5 |
Conclusion
The incorrect statement is (3). Enzymes are irreversibly inhibited by heavy metals such as Hg2+ and Ag+, owing to their strong covalent interactions with enzyme functional groups. The other statements accurately reflect enzyme behavior and emerging concepts like catalytic antibodies.
23 Comments
Kanica Sunwalka
September 13, 2025Heavy metal cause irreversible enzyme inhibition ( due to their strong covalent interactions with enzyme fg )
ans is 3
Aakansha sharma Sharma
September 13, 2025(3) Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+. Is incorrect
Rishita
September 14, 2025Option 3 is correct
yashika
September 14, 2025Enzyme inhibited irreversible by attaching with sh group if cysteine abd heavy metal ag pb
Pratibha Jain
September 14, 2025correct answer is option (3)
Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
Mohd juber Ali
September 14, 2025Option 3 incorrect statement
Santosh Saini
September 14, 2025Option 3 is incorrect statement (enzymes are not inhibited irreversible by heavy metal sush as Hg2+ Ag+)
Dharmpal Swami
September 14, 2025Option 3 is correct
Konika Naval
September 14, 2025Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
Pallavi Ghangas
September 14, 2025Heavy metals is irreversibly inhibit benzyme
Aafreen Khan
September 14, 2025Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+
Soniya Shekhawat
September 14, 2025Heavy metals like mercury and silver ions frequently cause irreversible inhibition.
Palak Sharma
September 14, 2025Enzymes can be inhibited irreversibly by heavy metals such as Hg2+, Ag+ so option 3.
Roopal Sharma
September 15, 2025Heavy metals like mercury cause irreversible inhibition.
Vanshika Sharma
September 15, 2025Enzymes can be inhibited irreversibly byheavy metals such as Hg+2,Ag+,etc..
Tanvi Panwar
September 16, 2025Heavy metals like Hg+ and Ag+ irreversibly inhibits the enzymes by binding to the critical thiol groups.
Khushi Agarwal
September 17, 2025The correct answer is (3)
Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+
Bcz Heavy metals enzyme ke cysteine (-SH) groups ko pakad ke permanently damage kar dete hain isliye inhibition irreversible hota hai.
Priti khandal
September 17, 20253 option is right
Divya rani
September 19, 20253rd option is incorrect because heavy metals are irreversibly inhibits the Enzymes.
Minal Sethi
September 19, 2025Heavy metals cause irreversible enzyme inhibition
option C
Muskan Yadav
September 19, 2025Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
anjani sharma
September 20, 2025Enzymes are not inhibited irreversibly by heavy metals such as Hg2+, Ag+.
Kajal
September 25, 2025The incorrect statement is (3). Enzymes are irreversibly inhibited by heavy metals such as Hg2+ and Ag+, owing to their strong covalent interactions with enzyme functional groups. The other statements accurately reflect enzyme behavior and emerging concepts like catalytic antibodies