Literature DB >> 15805524

Regulation of NAD synthesis by the trifunctional NadR protein of Salmonella enterica.

Julianne H Grose1, Ulfar Bergthorsson, John R Roth.   

Abstract

The three activities of NadR were demonstrated in purified protein and assigned to separate domains by missense mutations. The N-terminal domain represses transcription of genes for NAD synthesis and salvage. The C-terminal domain has nicotinamide ribose kinase (NmR-K; EC 2.7.1.22) activity, which is essential for assimilation of NmR, converting it internally to nicotinamide mononucleotide (NMN). The central domain has a weak adenylyltransferase (NMN-AT; EC 2.7.7.1) activity that converts NMN directly to NAD but is physiologically irrelevant. This central domain mediates regulatory effects of NAD on all NadR activities. In the absence of effectors, pure NadR protein binds operator DNA (the default state) and is released by ATP (expected to be present in vivo). NAD allows NadR to bind DNA in the presence of ATP and causes repression in vivo. A superrepressor mutation alters an ATP-binding residue in the central (NMN-AT) domain. This eliminates NMN-AT activity and places the enzyme in its default (DNA binding) state. The mutant protein shows full NmR kinase activity that is 10-fold more sensitive to NAD inhibition than the wild type. It is proposed that NAD and the superrepressor mutation exert their effects by preventing ATP from binding to the central domain.

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Year:  2005        PMID: 15805524      PMCID: PMC1070365          DOI: 10.1128/JB.187.8.2774-2782.2005

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


  36 in total

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3.  Mutants that show increased sensitivity to hydrogen peroxide reveal an important role for the pentose phosphate pathway in protection of yeast against oxidative stress.

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Review 4.  Enzymology of NAD+ synthesis.

Authors:  G Magni; A Amici; M Emanuelli; N Raffaelli; S Ruggieri
Journal:  Adv Enzymol Relat Areas Mol Biol       Date:  1999

5.  The bifunctional NadR regulator of Salmonella typhimurium: location of regions involved with DNA binding, nucleotide transport and intramolecular communication.

Authors:  J W Foster; T Penfound
Journal:  FEMS Microbiol Lett       Date:  1993-09-01       Impact factor: 2.742

6.  CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice.

Authors:  J D Thompson; D G Higgins; T J Gibson
Journal:  Nucleic Acids Res       Date:  1994-11-11       Impact factor: 16.971

7.  Genetic characterization of the pnuC gene, which encodes a component of the nicotinamide mononucleotide transport system in Salmonella typhimurium.

Authors:  N Zhu; B M Olivera; J R Roth
Journal:  J Bacteriol       Date:  1989-08       Impact factor: 3.490

8.  NAD-dependent DNA-binding activity of the bifunctional NadR regulator of Salmonella typhimurium.

Authors:  T Penfound; J W Foster
Journal:  J Bacteriol       Date:  1999-01       Impact factor: 3.490

9.  Assay methods for nicotinamide mononucleotide adenylyltransferase of wide applicability.

Authors:  E Balducci; M Emanuelli; N Raffaelli; S Ruggieri; A Amici; G Magni; G Orsomando; V Polzonetti; P Natalini
Journal:  Anal Biochem       Date:  1995-06-10       Impact factor: 3.365

10.  Activity of the nicotinamide mononucleotide transport system is regulated in Salmonella typhimurium.

Authors:  N Zhu; B M Olivera; J R Roth
Journal:  J Bacteriol       Date:  1991-02       Impact factor: 3.490
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  37 in total

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2.  YrxA is the transcriptional regulator that represses de novo NAD biosynthesis in Bacillus subtilis.

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Journal:  J Bacteriol       Date:  2005-10       Impact factor: 3.490

3.  Tests of parallel molecular evolution in a long-term experiment with Escherichia coli.

Authors:  Robert Woods; Dominique Schneider; Cynthia L Winkworth; Margaret A Riley; Richard E Lenski
Journal:  Proc Natl Acad Sci U S A       Date:  2006-06-02       Impact factor: 11.205

4.  Assimilation of nicotinamide mononucleotide requires periplasmic AphA phosphatase in Salmonella enterica.

Authors:  Julianne H Grose; Ulfar Bergthorsson; Yaping Xu; Jared Sterneckert; Behzad Khodaverdian; John R Roth
Journal:  J Bacteriol       Date:  2005-07       Impact factor: 3.490

5.  The genetic basis of parallel and divergent phenotypic responses in evolving populations of Escherichia coli.

Authors:  Elizabeth A Ostrowski; Robert J Woods; Richard E Lenski
Journal:  Proc Biol Sci       Date:  2008-02-07       Impact factor: 5.349

Review 6.  Comparative genomic reconstruction of transcriptional regulatory networks in bacteria.

Authors:  Dmitry A Rodionov
Journal:  Chem Rev       Date:  2007-07-18       Impact factor: 60.622

7.  Evolution of penicillin-binding protein 2 concentration and cell shape during a long-term experiment with Escherichia coli.

Authors:  Nadège Philippe; Ludovic Pelosi; Richard E Lenski; Dominique Schneider
Journal:  J Bacteriol       Date:  2008-12-01       Impact factor: 3.490

Review 8.  Regulation of NAD+ metabolism, signaling and compartmentalization in the yeast Saccharomyces cerevisiae.

Authors:  Michiko Kato; Su-Ju Lin
Journal:  DNA Repair (Amst)       Date:  2014-08-02

9.  Structure and function of an ADP-ribose-dependent transcriptional regulator of NAD metabolism.

Authors:  Nian Huang; Jessica De Ingeniis; Luca Galeazzi; Chiara Mancini; Yuri D Korostelev; Alexandra B Rakhmaninova; Mikhail S Gelfand; Dmitry A Rodionov; Nadia Raffaelli; Hong Zhang
Journal:  Structure       Date:  2009-07-15       Impact factor: 5.006

Review 10.  Nicotinamide/nicotinic acid mononucleotide adenylyltransferase, new insights into an ancient enzyme.

Authors:  Rong Grace Zhai; Menico Rizzi; Silvia Garavaglia
Journal:  Cell Mol Life Sci       Date:  2009-05-16       Impact factor: 9.261
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