Literature DB >> 1429443

Regulation of the BamHI restriction-modification system by a small intergenic open reading frame, bamHIC, in both Escherichia coli and Bacillus subtilis.

C L Ives1, P D Nathan, J E Brooks.   

Abstract

BamHI, from Bacillus amyloliquefaciens H, is a type II restriction-modification system recognizing and cleaving the sequence G--GATCC. The BamHI restriction-modification system contains divergently transcribed endonuclease and methylase genes along with a small open reading frame oriented in the direction of the endonuclease gene. The small open reading frame has been designated bamHIC (for BamHI controlling element). It acts as both a positive activator of endonuclease expression and a negative repressor of methylase expression of BamHI clones in Escherichia coli. Methylase activity increased 15-fold and endonuclease activity decreased 100-fold when bamHIC was inactivated. The normal levels of activity for both methylase and endonuclease were restored by supplying bamHIC in trans. The BamHI restriction-modification system was transferred into Bacillus subtilis, where bamHIC also regulated endonuclease expression when present on multicopy plasmid vectors or integrated into the chromosome. In B. subtilis, disruption of bamHIC caused at least a 1,000-fold decrease in endonuclease activity; activity was partially restored by supplying bamHIC in trans.

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Year:  1992        PMID: 1429443      PMCID: PMC207411          DOI: 10.1128/jb.174.22.7194-7201.1992

Source DB:  PubMed          Journal:  J Bacteriol        ISSN: 0021-9193            Impact factor:   3.490


  37 in total

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Journal:  J Mol Biol       Date:  1975-09-05       Impact factor: 5.469

Review 2.  Organization of restriction-modification systems.

Authors:  G G Wilson
Journal:  Nucleic Acids Res       Date:  1991-05-25       Impact factor: 16.971

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Authors:  W Donovan; L B Zheng; K Sandman; R Losick
Journal:  J Mol Biol       Date:  1987-07-05       Impact factor: 5.469

4.  A family of regulatory genes associated with type II restriction-modification systems.

Authors:  T Tao; J C Bourne; R M Blumenthal
Journal:  J Bacteriol       Date:  1991-02       Impact factor: 3.490

5.  Cloning the BamHI restriction modification system.

Authors:  J E Brooks; J S Benner; D F Heiter; K R Silber; L A Sznyter; T Jager-Quinton; L S Moran; B E Slatko; G G Wilson; D O Nwankwo
Journal:  Nucleic Acids Res       Date:  1989-02-11       Impact factor: 16.971

Review 6.  Structural basis of DNA-protein recognition.

Authors:  R G Brennan; B W Matthews
Journal:  Trends Biochem Sci       Date:  1989-07       Impact factor: 13.807

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Authors:  W Arber
Journal:  Prog Nucleic Acid Res Mol Biol       Date:  1974

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Journal:  Nucleic Acids Res       Date:  1988-02-25       Impact factor: 16.971

9.  Improved M13 phage cloning vectors and host strains: nucleotide sequences of the M13mp18 and pUC19 vectors.

Authors:  C Yanisch-Perron; J Vieira; J Messing
Journal:  Gene       Date:  1985       Impact factor: 3.688

10.  A physical map of the genome of temperate phage phi 3T.

Authors:  J M Cregg; J Ito
Journal:  Gene       Date:  1979-07       Impact factor: 3.688
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  38 in total

Review 1.  Type I restriction systems: sophisticated molecular machines (a legacy of Bertani and Weigle).

Authors:  N E Murray
Journal:  Microbiol Mol Biol Rev       Date:  2000-06       Impact factor: 11.056

2.  Evidence of horizontal transfer of the EcoO109I restriction-modification gene to Escherichia coli chromosomal DNA.

Authors:  K Kita; J Tsuda; T Kato; K Okamoto; H Yanase; M Tanaka
Journal:  J Bacteriol       Date:  1999-11       Impact factor: 3.490

3.  DNA methylation at the CfrBI site is involved in expression control in the CfrBI restriction-modification system.

Authors:  I V Beletskaya; M V Zakharova; M G Shlyapnikov; L M Semenova; A S Solonin
Journal:  Nucleic Acids Res       Date:  2000-10-01       Impact factor: 16.971

4.  The methyltransferase from the LlaDII restriction-modification system influences the level of expression of its own gene.

Authors:  Lisa Lystbaek Christensen; Jytte Josephsen
Journal:  J Bacteriol       Date:  2004-01       Impact factor: 3.490

5.  Nature of the promoter activated by C.PvuII, an unusual regulatory protein conserved among restriction-modification systems.

Authors:  Dieter Knowle; Robert E Lintner; Yara M Touma; Robert M Blumenthal
Journal:  J Bacteriol       Date:  2005-01       Impact factor: 3.490

6.  The regulatory C proteins from different restriction-modification systems can cross-complement.

Authors:  C L Ives; A Sohail; J E Brooks
Journal:  J Bacteriol       Date:  1995-11       Impact factor: 3.490

7.  Restriction-modification gene complexes as selfish gene entities: roles of a regulatory system in their establishment, maintenance, and apoptotic mutual exclusion.

Authors:  Y Nakayama; I Kobayashi
Journal:  Proc Natl Acad Sci U S A       Date:  1998-05-26       Impact factor: 11.205

8.  Characterization of the intergenic region which regulates the MspI restriction-modification system.

Authors:  S Som; S Friedman
Journal:  J Bacteriol       Date:  1997-02       Impact factor: 3.490

9.  Specific binding of sso II DNA methyltransferase to its promoter region provides the regulation of sso II restriction-modification gene expression.

Authors:  A Karyagina; I Shilov; V Tashlitskii; M Khodoun; S Vasil'ev; P C Lau; I Nikolskaya
Journal:  Nucleic Acids Res       Date:  1997-06-01       Impact factor: 16.971

10.  Evidence for horizontal transfer of the EcoT38I restriction-modification gene to chromosomal DNA by the P2 phage and diversity of defective P2 prophages in Escherichia coli TH38 strains.

Authors:  Keiko Kita; Hideaki Kawakami; Hiroaki Tanaka
Journal:  J Bacteriol       Date:  2003-04       Impact factor: 3.490
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