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In molecular biology, enzymes in the DNA/RNA non-specific endonuclease family of bacterial and eukaryotic endonucleases EC 3.1.30.-share the following characteristics: they act on both DNA and RNA, cleave double-stranded and single-stranded nucleic acids and require a divalent ion such as magnesium for their activity.
It was cloned in 1987 and shown to consist of a 266 protein precursor, [6] which is further cleaved and secreted as a 245 amino acid active nuclease. [7] Its active form in solution is a homodimer. [8] It has two disulfide bonds, the first between cysteine 30 & 34 and the second between cysteine 222 & 264. [7]
The non-specific DNA cleavage domain from the end of the FokI endonuclease can be used to construct hybrid nucleases that are active in a yeast assay. [6] [7] These reagents are also active in plant cells [8] [9] and in animal cells.
An example of a Type I restriction endonuclease. [4]: 64 Furthermore, there exist DNA/RNA non-specific endonucleases, such as those that are found in Serratia marcescens, which act on dsDNA, ssDNA, and RNA. [citation needed]
In the case of endonucleases such as EcoRV, BamHI, and PvuII, this nonspecific binding involves electrostatic interactions between minimal surface area of the protein and the DNA. This weak association leaves the overall shape of the DNA undeformed, remaining in B-form. [7] A site-specific nuclease forms far
RNase H is a non-specific endonuclease and catalyzes the cleavage of RNA via a hydrolytic mechanism, aided by an enzyme-bound divalent metal ion. RNase H leaves a 5'-phosphorylated product. [7] EC 3.1.26.3: RNase III is a type of ribonuclease that cleaves rRNA (16s rRNA and 23s rRNA) from transcribed polycistronic RNA operon in prokaryotes. It ...
The restriction endonuclease Fok1, naturally found in Flavobacterium okeanokoites, is a bacterial type IIS restriction endonuclease consisting of an N-terminal DNA-binding domain and a non sequence-specific DNA cleavage domain at the C-terminal. [2]
The non-specific cleavage domain from the type IIs restriction endonuclease FokI is typically used as the cleavage domain in ZFNs. [4] This cleavage domain must dimerize in order to cleave DNA [5] and thus a pair of ZFNs are required to target non-palindromic DNA sites. Standard ZFNs fuse the cleavage domain to the C-terminus of each zinc ...