During DNA replication, Okazaki fragments are found in the lagging strand so as to

Updated On: Jun 21, 2022

increase the RNA primer facility
facilitate the functioning of DNA polymerase from 5' to 3' end
facilitate the replication fork formation
facilitate the polymerase functioning from 3' to 5' end.

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The Correct Option is B

Solution and Explanation

Synthesis of DNA by DNA polymerases occur only in $5' \to 3'$ direction. One strand called leading strand, is copied in the same direction as the unwinding helix. There is continuous synthesis of DNA in the leading strand in $5' \to 3'$ and this is called continuous replication. For the other strand, the template strand is oriented in $5' \to 3'$ direction hence the new strand is to be synthesised in $3' \to 5'$ direction. Thus, the DNA polymerase complex must move backwards away from the replication fork. Synthesis of new strand occurs discontinuously in a series of short DNA fragments called Okazaki fragments and the strand being synthesised is called lagging strand. The Okazaki fragments are later joined together by DNA ligase thus completing the synthesis of lagging strand.

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Concepts Used:

The Molecular Basis of Inheritance

DNA Replication:

DNA synthesis is commenced at particular points within the DNA strand referred to as ‘origins’, which are certain coding regions. There are numerous origin sites, and when replication of DNA starts, these sites are mentioned as replication forks. Within the replication, the complex is the enzyme DNA Helicase, so that they can be utilized as a template for replication. DNA Primase is another enzyme that's essential in DNA replication.

RNA:

Ribonucleic acid (RNA) is an essential biological macromolecule that exists all together in biological cells. It is principally involved in the synthesis of proteins, that carry the messenger instructions from DNA, which itself contains the genetic instructions needed for the event and maintenance of life. In some viruses, RNA, in spite of DNA, carries genetic information.

Genetic Code:

Genetic code is the term we use in the manner that the four bases of DNA--the A, C, G, and Ts--are strung together in a way that the ribosome, the cellular machinery, can read them and switch them into a protein. In the ordering, every three nucleotides during a row count as a triplet and code for one amino alkanoic acid.

Read More: Molecular Basis of Inheritance

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	List-I		List-II
(a)	Gene ‘a’	(i)	β-galactosidase
(b)	Gene ‘y’	(ii)	Transacetylase
(c)	Gene ‘i’	(iii)	Permease
(d)	Gene ‘z’	(iv)	Repressor protein