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Replication of DNA

Replication of DNA

Replication of DNA is explained fully with detail.

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DNA is the genetic material of almost all the organisms.

One of the active functions of DNA is to make its copies which are transmitted to the daughter cells.

Replication is the process by which DNA makes exact copies of itself.

Replication is the basis of life and takes place during the interphase stage.

Watson and Crick suggested the semiconservative method of replication of DNA.

This has been proved by Messelson and Stahl’s in their experiments on Escherichia coli using radioactive isotopes.

The replication of chromosome in E. coli is completed in 40 minutes.

During replication of DNA, the two complementary strand of DNA uncoil and separate from one end in a zipper like fashion.

The enzyme helicase unwinds the two strands and as a result replication fork is formed.

As the DNA unwinds, the part of the DNA that is found above the replication fork becomes supercoils.

These are called positive supercoils.

An enzyme called topoisomerase releases these supercoils.

Based on separated DNA strands, new strands grow by the addition of nucleotides.

DNA polymerase I, II and III are involved in this elongation.

However, these enzymes are not capable of initiating DNA synthesis.
Replication of DNA

For the synthesis of new DNA, two things are required.

One is RNA primer and the enzyme primase.

The DNA polymerase moves along the newly formed RNA primer nucleotides, which leads to the elongation of DNA.

In the other strand, DNA is synthesized in small fragments called Okazaki fragments.

These fragments are linked by the enzyme called ligase.

In the resulting DNA, one of the strand is parental and the other is the newer strand which is formed discontinuously.

Hence, it is called semi discontinuous replication.

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For more details about replication of DNA click here

Other links 

STRUCTURE OF CHROMOSOME – CELL BIOLOGY


Types of chromosomes with special types


Gene and genome


Linkage and mechanism of linkage


Crossing over, gene mapping and recombination of chromosome


Mutation and classification of mutation


Mutagenic agents and its significance


Structural Chromosomal aberrations


Numerical chromosomal aberrations


Role of DNA 


Structure of DNA and Function of DNA


 

Structure of RNA and Types of RNA

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