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{{WBRQuestion
{{WBRQuestion
|QuestionAuthor={{Rim}}
|QuestionAuthor= {{Rim}}  {{Alison}}
|ExamType=USMLE Step 1
|ExamType=USMLE Step 1
|MainCategory=Genetics
|MainCategory=Genetics
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|MainCategory=Genetics
|MainCategory=Genetics
|SubCategory=General Principles
|SubCategory=General Principles
|Prompt=A geneticist is conducting an experiment using rat cells to study the mechanisms of DNA repair. In his experiment, he exposes cells to high doses of radiation and induces DNA single-strand breaks in the double-stranded DNA. After that, he observes that ATP consumption and formation of phosphodiester bond takes place for adequate DNA repair. Which enzyme is most likely involved in this process?
|Prompt=A geneticist, conducting an experiment using rat cells to study the mechanisms of DNA repair, exposes the cells to high doses of radiation and induces DNA single-strand breaks in the double-stranded DNA. He observes that ATP consumption increases and phosphodiester bonds begin to form. Which of the following enzymes is most likely involved in this process?
|Explanation=DNA ligase is the enzyme responsible for the formation of phosphodiester bonds at single-strands in double-stranded DNA. DNA ligase is important in 2 major steps: First in the discontinuous replication of DNA and joining of Okazaki fragments, and second in the radiation-induced DNA single-stranded breaks and their consequent repair. DNA ligase requires ATP. Its activity increases dramatically in replicating cells, such as cells in liver regeneration. There are 2 DNA ligases: DNA ligase I and DNA ligase II, both of which are present in the nucleus and in the cytoplasm, but less likely in the mitochondria.  
|Explanation=DNA ligase is the enzyme responsible for the formation of phosphodiester bonds at single-strands in double-stranded DNA. DNA ligase is important in 2 major steps: First in the discontinuous replication of DNA and joining of Okazaki fragments, and second in the radiation-induced DNA single-stranded breaks and their consequent repair. DNA ligase requires ATP. Its activity increases dramatically in replicating cells, such as cells in liver regeneration. There are 2 DNA ligases: DNA ligase I and DNA ligase II, both of which are present in the nucleus and in the cytoplasm, but less likely in the mitochondria.  


Educational Objective:
|EducationalObjectives=
DNA ligase is responsible for catalyzing phosphodiester bonds in discontinuous DNA Okazaki fragments and in radiation-induced single-stranded DNA breaks.
DNA ligase is responsible for catalyzing the formation of phosphodiester bonds in discontinuous DNA, the Okazaki fragments, and in radiation-induced single-stranded DNA breaks.


Reference:
|References= Soderhall S. DNA ligases during rat liver regeneration. Nature.1976; 260;640-642.
Soderhall S. DNA ligases during rat liver regeneration. Nature.1976; 260;640-642.


|AnswerA=DNA polymerase I
|AnswerA=DNA polymerase I
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|AnswerDExp=DNA ligase catalyzes the formation of phosphodiester bonds within a single-strand of double-stranded DNA.
|AnswerDExp=DNA ligase catalyzes the formation of phosphodiester bonds within a single-strand of double-stranded DNA.
|AnswerE=Telomerase
|AnswerE=Telomerase
|AnswerEExp=Telomerase adds DNA to the 3' end of chromosomes to maintain the replicative integrity.
|AnswerEExp=Telomerase adds DNA to the 3' end of chromosomes in order to maintain the replicative integrity.
|RightAnswer=D
|RightAnswer=D
|WBRKeyword=DNA, ligase, replication, repair, single, strand, double, okazaki, fragment, fragments, phosphodiester, bond, bonds
|WBRKeyword=DNA ligase, helix, replication, repair, single-stranded DNA, Okazaki fragments, phosphodiester bonds, enzymes
|Approved=No
|Approved=Yes
}}
}}

Latest revision as of 00:12, 28 October 2020

 
Author [[PageAuthor::Rim Halaby, M.D. [1] (Reviewed by Alison Leibowitz)]]
Exam Type ExamType::USMLE Step 1
Main Category MainCategory::Genetics
Sub Category SubCategory::General Principles
Prompt [[Prompt::A geneticist, conducting an experiment using rat cells to study the mechanisms of DNA repair, exposes the cells to high doses of radiation and induces DNA single-strand breaks in the double-stranded DNA. He observes that ATP consumption increases and phosphodiester bonds begin to form. Which of the following enzymes is most likely involved in this process?]]
Answer A AnswerA::DNA polymerase I
Answer A Explanation AnswerAExp::DNA polymerase I is prokaryotic. It degrades RNA primer to replace it with DNA.
Answer B AnswerB::Primase
Answer B Explanation AnswerBExp::Primase makes RNA primers.
Answer C AnswerC::Helicase
Answer C Explanation AnswerCExp::Helicase unwinds DNA templates at the replication fork.
Answer D AnswerD::Ligase
Answer D Explanation AnswerDExp::DNA ligase catalyzes the formation of phosphodiester bonds within a single-strand of double-stranded DNA.
Answer E AnswerE::Telomerase
Answer E Explanation AnswerEExp::Telomerase adds DNA to the 3' end of chromosomes in order to maintain the replicative integrity.
Right Answer RightAnswer::D
Explanation [[Explanation::DNA ligase is the enzyme responsible for the formation of phosphodiester bonds at single-strands in double-stranded DNA. DNA ligase is important in 2 major steps: First in the discontinuous replication of DNA and joining of Okazaki fragments, and second in the radiation-induced DNA single-stranded breaks and their consequent repair. DNA ligase requires ATP. Its activity increases dramatically in replicating cells, such as cells in liver regeneration. There are 2 DNA ligases: DNA ligase I and DNA ligase II, both of which are present in the nucleus and in the cytoplasm, but less likely in the mitochondria.

Educational Objective: DNA ligase is responsible for catalyzing the formation of phosphodiester bonds in discontinuous DNA, the Okazaki fragments, and in radiation-induced single-stranded DNA breaks.
References: Soderhall S. DNA ligases during rat liver regeneration. Nature.1976; 260;640-642.]]

Approved Approved::Yes
Keyword WBRKeyword::DNA ligase, WBRKeyword::helix, WBRKeyword::replication, WBRKeyword::repair, WBRKeyword::single-stranded DNA, WBRKeyword::Okazaki fragments, WBRKeyword::phosphodiester bonds, WBRKeyword::enzymes
Linked Question Linked::
Order in Linked Questions LinkedOrder::