Microbiology Procedure

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Repair Replication

	Repair Replication The DNA of a cell is subject to damage from a variety of environmental factors like radiation, chemicals, physical stimuli, etc The survival of the cell depends on its ability to repair this damage. DNA damage is of two general types, mono adduct and diadduct. Monoadducts are alterations involving a single nitrogenous ,base, e.g. the deamination reactions of chemical mutagens like HNO2: Diadducts are alterations involving more than one nitrogenous base, e.g. the pyrimidine pyrimidine dimers produced by ultraviolet radiation.
A variety of nucleases are involved in repair replication.-Exonucleases have been defined as phosphodiesterases that require a terminus for hydrolysis. They cut off terminal nucleotides. Endonucleases, on the other hand, are phosphodiesterases that do not require a terminus for hydrolysis.
They break internal bonds. Endonucleases specifically acting on damaged DNA resulting in repair or correction of the molecule are called correctional nucleases or correndonucleases. These are further divided into correndonuclease I and correndonuclease II, depending on whether they specify mono adduct or diadduct alterations in DNA. Repair replication is believed to take place in the following steps 1. Incision Damage or distortion of the DNA double helix is recognized by an endonuclease or incision enzyme. This enzyme breaks one 'of the strands near the damaged point. Correndonucleases have a molecular weight of less than 30,000. They incise close to the damaged part of the DNA strand.
2. Excision. The damaged part of the strand is removed by an exonuclease or excision enzyme. DNA polymerase I of E. coli has 3'-->5' exonucleolytic activity. This serves as 'proofreading' and 'edits' incorrectly incorporated nucleotides. DNA polymerase I also has 5'-->3' exonuclease activity by which thymine dimers can be excised.
	3: Re-insertion New nucleotides, complementary to those on the intact strand opposite, are inserted by DNA polymerases. Exicision insertion pathways may involve polymerase I (short patch repair) or polymerases II and/or III (long patch repair). Most DNA repair takes place in short patches. In E.coli long patch repair requires unwinding protein for polymerization action of polymerase II. Both polymerases II and III appear to be involved in UV-induced repair. 4. Joining of newly formed strand segment. The newly synthesized segment of the DNA strand is linked to the main strand by a joining enzyme polynucleotide ligase.

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Polymerase II - Pol II Polymerase III - Pol III Characteristics of DNA Polymerases Eukaryotic DNA Polymerases Models of Replication Cairns Model of Replication Yoshikawa Model of Replication Rolling Circle Model of Replication Replication in Duplex Rod Prokaryote Chromosome Replication in Eukaryote Chromosome Repair Replication Functions of DNA

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