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DNA replication in Prokaryotes

#dnareplication #prokaryoticreplication #dna DNA Replication In the process of DNA replication, the DNA makes multiple copies of itself. It is a biological polymerisation, which proceeds in the sequence of initiation, elongation, and termination. It is an enzyme-catalysed reaction. DNA Polymerase is the main enzyme in the replication process. Machinery and Enzymes of DNA replication DNA Replication Process DNA Replication Steps Following are the important steps involved in DNA replication: Initiation DNA replication demands a high degree of accuracy because even a minute mistake would result in mutations. Thus, replication cannot initiate randomly at any point in DNA. For the replication to begin there is a particular region called the origin of replication. This is the point where the replication originates. Replication begins with the spotting of this origin followed by the unwinding of the two DNA strands. Unzipping of DNA strands in their entire length is not feasible due to high energy input. Hence, first, a replication fork is created catalysed by the helicase enzyme, which unzips the DNA strand. Elongation As the strands are separated, the polymerase enzymes start synthesising the complementary sequence in each of the strands. The parental strands will act as a template for newly synthesising daughter strands. It is to be noted that elongation is unidirectional i.e. DNA is always polymerised only in the 5′ to 3′ direction. Therefore, in one strand (the template 3‘→5‘) it is continuous, hence called continuous replication while on the other strand (the template 5‘→3‘) it is discontinuous replication. They occur as fragments called Okazaki fragments. The enzyme called DNA ligase joins them later. Replication fork DNA Replication Fork Termination Termination of replication occurs in different ways in different organisms. In E.coli like organisms, chromosomes are circular. And this happens when the two replication forks between the two terminals meet each other. Also Read: DNA Structure Role of Enzymes in DNA Replication DNA replication is a highly enzyme-dependent process. There are many enzymes involved in DNA replication, which includes the enzymes, DNA-dependent DNA polymerase, helicase, ligase, etc. Among them, DNA-dependent DNA polymerase is the main enzyme. DNA-dependent DNA polymerase It helps in the polymerisation, catalyses and regularises the whole process of DNA replication with the support of other enzymes. Deoxyribonucleoside triphosphates are the substrate as well as the energy provider for the replication process. DNA polymerase is of three types: DNA Polymerase I It is a DNA repair enzyme. It is involved in three activities: 5′-3′ polymerase activity 5′-3′ exonuclease activity 3′-5′ exonuclease activity DNA Polymerase II It is responsible for primer extension and proofreading. DNA Polymerase III It is responsible for in vivo DNA replication. Helicase Helicase is the enzyme, which unzips the DNA strands by breaking the hydrogen bonds between them. Thus, it helps in the formation of the replication fork. Ligase Ligase is the enzyme which joins together the Okazaki fragments of the discontinuous DNA strands. Primase This enzyme helps in the synthesis of RNA primer complementary to the DNA template strand. Endonucleases These produce a single-stranded or a double-stranded cut in a DNA molecule. Single-stranded Binding Proteins It binds to single-stranded DNA and protects it from forming secondary structures. Also Read: Difference between Replication and Transcription DNA Replication Process in Prokaryotes The DNA replication in prokaryotes takes place in the following place: The two strands of DNA unwind at the origin of replication. Helicase opens the DNA and replication forks are formed. The DNA is coated by the single-strand binding proteins around the replication fork to prevent rewinding of DNA. Topoisomerase prevents the supercoiling of DNA. RNA primers are synthesised by primase. These primers are complementary to the DNA strand. DNA polymerase III starts adding nucleotides at the end of the primers. The leading and lagging strands continue to elongate. The primers are removed and the gaps are filled with DNA Polymerase I and sealed by ligase.

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