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Title: Two-stage gene assembly/cloning of a member of the TspDTI subfamily of bifunctional restriction endonucleases, TthHB27I. Author: Krefft D, Zylicz-Stachula A, Mulkiewicz E, Papkov A, Jezewska-Frackowiak J, Skowron PM. Journal: J Biotechnol; 2015 Jan 20; 194():67-80. PubMed ID: 25486633. Abstract: The Thermus sp. family of bifunctional type IIS/IIG/IIC restriction endonucleases (REase)-methyltransferases (MTase) comprises thermo-stable TaqII, TspGWI, TspDTI, TsoI, Tth111II/TthHB27I enzymes as well as a number of putative enzymes/open reading frames (ORFs). All of the family members share properties including a large protein size (ca. 120kDa), amino acid (aa) sequence homologies, enzymatic activity modulation by S-adenosylmethionine (SAM), recognition of similar asymmetric cognate DNA sites and cleavage at a distance of 11/9 nt. Analysis of the enzyme aa sequences and domain/motif organisation led to further Thermus sp. family division into the TspDTI and TspGWI subfamilies. The latter exhibits an unprecedented phenomenon of DNA recognition change upon substitution of SAM by its analogue, sinefungin (SIN), towards a very frequent DNA cleavage. We report cloning in Escherichia coli (E. coli), using a two-stage procedure and a putative tthHB27IRM gene, detected by bioinformatics analysis of the Thermus thermophilus HB27 (T. thermophilus) genome. The functionality of a 3366 base pair (bp)-/1121 aa-long, high GC content ORF was validated experimentally through the expression in E. coli. Protein features corroborated with the reclassification of TthHB27I into the TspDTI subfamily, which manifested in terms of aa-sequence/motif homologies and insensitivity to SIN-induced specificity shift. However, both SAM and SIN stimulated the REase DNA cleavage activity by at least 16-32 times; the highest was observed for the Thermus sp. family. The availability of TthHB27I and the need to include SAM or SIN in the reaction in order to convert the enzyme from "hibernation" status to efficient DNA cleavage is of practical significance in molecular biotechnology, extending the palette of available REase specificities.[Abstract] [Full Text] [Related] [New Search]