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Best matches for Séror SJ[au]:

Bacillus subtilis Swarmer Cells Lead the Swarm, Multiply, and Generate a Trail of Quiescent Descendants. Hamouche L et al. MBio. (2017)

The complete genome sequence of the gram-positive bacterium Bacillus subtilis. Kunst F et al. Nature. (1997)

Essential Bacillus subtilis genes. Kobayashi K et al. Proc Natl Acad Sci U S A. (2003)

Search results

Items: 36

1.

Bacillus subtilis Swarmer Cells Lead the Swarm, Multiply, and Generate a Trail of Quiescent Descendants.

Hamouche L, Laalami S, Daerr A, Song S, Holland IB, Séror SJ, Hamze K, Putzer H.

MBio. 2017 Feb 7;8(1). pii: e02102-16. doi: 10.1128/mBio.02102-16.

2.

Single-cell analysis in situ in a Bacillus subtilis swarming community identifies distinct spatially separated subpopulations differentially expressing hag (flagellin), including specialized swarmers.

Hamze K, Autret S, Hinc K, Laalami S, Julkowska D, Briandet R, Renault M, Absalon C, Holland IB, Putzer H, Séror SJ.

Microbiology. 2011 Sep;157(Pt 9):2456-69. doi: 10.1099/mic.0.047159-0. Epub 2011 May 20.

PMID:
21602220
3.

CpgA, EF-Tu and the stressosome protein YezB are substrates of the Ser/Thr kinase/phosphatase couple, PrkC/PrpC, in Bacillus subtilis.

Absalon C, Obuchowski M, Madec E, Delattre D, Holland IB, Séror SJ.

Microbiology. 2009 Mar;155(Pt 3):932-43. doi: 10.1099/mic.0.022475-0.

PMID:
19246764
4.

Identification of genes required for different stages of dendritic swarming in Bacillus subtilis, with a novel role for phrC.

Hamze K, Julkowska D, Autret S, Hinc K, Nagorska K, Sekowska A, Holland IB, Séror SJ.

Microbiology. 2009 Feb;155(Pt 2):398-412. doi: 10.1099/mic.0.021477-0.

PMID:
19202088
5.

In situ localisation and quantification of surfactins in a Bacillus subtilis swarming community by imaging mass spectrometry.

Debois D, Hamze K, Guérineau V, Le Caër JP, Holland IB, Lopes P, Ouazzani J, Séror SJ, Brunelle A, Laprévote O.

Proteomics. 2008 Sep;8(18):3682-91. doi: 10.1002/pmic.200701025. Erratum in: Proteomics. 2009 Jan;9(1):210.

PMID:
18709634
6.

The GTPase CpgA is implicated in the deposition of the peptidoglycan sacculus in Bacillus subtilis.

Absalon C, Hamze K, Blanot D, Frehel C, Carballido-Lopez R, Holland BI, van Heijenoort J, Séror SJ.

J Bacteriol. 2008 May;190(10):3786-90. doi: 10.1128/JB.01994-07. Epub 2008 Mar 14.

7.

Expression of genes coding for GerA and GerK spore germination receptors is dependent on the protein phosphatase PrpE.

Hinc K, Nagórska K, Iwanicki A, Wegrzyn G, Séror SJ, Obuchowski M.

J Bacteriol. 2006 Jun;188(12):4373-83.

8.

Analysis of the dynamic Bacillus subtilis Ser/Thr/Tyr phosphoproteome implicated in a wide variety of cellular processes.

Lévine A, Vannier F, Absalon C, Kuhn L, Jackson P, Scrivener E, Labas V, Vinh J, Courtney P, Garin J, Séror SJ.

Proteomics. 2006 Apr;6(7):2157-73.

PMID:
16493705
9.

The GTPase, CpgA(YloQ), a putative translation factor, is implicated in morphogenesis in Bacillus subtilis.

Cladière L, Hamze K, Madec E, Levdikov VM, Wilkinson AJ, Holland IB, Séror SJ.

Mol Genet Genomics. 2006 Apr;275(4):409-20. Epub 2006 Feb 17.

PMID:
16485133
11.

The crystal structure of YloQ, a circularly permuted GTPase essential for Bacillus subtilis viability.

Levdikov VM, Blagova EV, Brannigan JA, Cladière L, Antson AA, Isupov MN, Séror SJ, Wilkinson AJ.

J Mol Biol. 2004 Jul 16;340(4):767-82.

PMID:
15223319
13.

Crystallization of YloQ, a GTPase of unknown function essential for Bacillus subtilis viability.

Cladière L, Blagova E, Levdikov VM, Brannigan JA, Séror SJ, Wilkinson AJ.

Acta Crystallogr D Biol Crystallogr. 2004 Feb;60(Pt 2):329-30. Epub 2004 Jan 23.

PMID:
14747714
14.

Genome engineering reveals large dispensable regions in Bacillus subtilis.

Westers H, Dorenbos R, van Dijl JM, Kabel J, Flanagan T, Devine KM, Jude F, Seror SJ, Beekman AC, Darmon E, Eschevins C, de Jong A, Bron S, Kuipers OP, Albertini AM, Antelmann H, Hecker M, Zamboni N, Sauer U, Bruand C, Ehrlich DS, Alonso JC, Salas M, Quax WJ.

Mol Biol Evol. 2003 Dec;20(12):2076-90. Epub 2003 Aug 29.

PMID:
12949151
15.

Mass spectrometry and site-directed mutagenesis identify several autophosphorylated residues required for the activity of PrkC, a Ser/Thr kinase from Bacillus subtilis.

Madec E, Stensballe A, Kjellström S, Cladière L, Obuchowski M, Jensen ON, Séror SJ.

J Mol Biol. 2003 Jul 11;330(3):459-72.

PMID:
12842463
16.

Essential Bacillus subtilis genes.

Kobayashi K, Ehrlich SD, Albertini A, Amati G, Andersen KK, Arnaud M, Asai K, Ashikaga S, Aymerich S, Bessieres P, Boland F, Brignell SC, Bron S, Bunai K, Chapuis J, Christiansen LC, Danchin A, Débarbouille M, Dervyn E, Deuerling E, Devine K, Devine SK, Dreesen O, Errington J, Fillinger S, Foster SJ, Fujita Y, Galizzi A, Gardan R, Eschevins C, Fukushima T, Haga K, Harwood CR, Hecker M, Hosoya D, Hullo MF, Kakeshita H, Karamata D, Kasahara Y, Kawamura F, Koga K, Koski P, Kuwana R, Imamura D, Ishimaru M, Ishikawa S, Ishio I, Le Coq D, Masson A, Mauël C, Meima R, Mellado RP, Moir A, Moriya S, Nagakawa E, Nanamiya H, Nakai S, Nygaard P, Ogura M, Ohanan T, O'Reilly M, O'Rourke M, Pragai Z, Pooley HM, Rapoport G, Rawlins JP, Rivas LA, Rivolta C, Sadaie A, Sadaie Y, Sarvas M, Sato T, Saxild HH, Scanlan E, Schumann W, Seegers JF, Sekiguchi J, Sekowska A, Séror SJ, Simon M, Stragier P, Studer R, Takamatsu H, Tanaka T, Takeuchi M, Thomaides HB, Vagner V, van Dijl JM, Watabe K, Wipat A, Yamamoto H, Yamamoto M, Yamamoto Y, Yamane K, Yata K, Yoshida K, Yoshikawa H, Zuber U, Ogasawara N.

Proc Natl Acad Sci U S A. 2003 Apr 15;100(8):4678-83. Epub 2003 Apr 7.

17.

PrpE, a PPP protein phosphatase from Bacillus subtilis with unusual substrate specificity.

Iwanicki A, Herman-Antosiewicz A, Pierechod M, Séror SJ, Obuchowski M.

Biochem J. 2002 Sep 15;366(Pt 3):929-36.

18.

Characterization of PrpC from Bacillus subtilis, a member of the PPM phosphatase family.

Obuchowski M, Madec E, Delattre D, Boël G, Iwanicki A, Foulger D, Séror SJ.

J Bacteriol. 2000 Oct;182(19):5634-8.

20.

Cell cycle checkpoints in bacteria.

Autret S, Levine A, Holland IB, Séror SJ.

Biochimie. 1997 Oct;79(9-10):549-54. Review.

PMID:
9466691
21.

The complete genome sequence of the gram-positive bacterium Bacillus subtilis.

Kunst F, Ogasawara N, Moszer I, Albertini AM, Alloni G, Azevedo V, Bertero MG, Bessières P, Bolotin A, Borchert S, Borriss R, Boursier L, Brans A, Braun M, Brignell SC, Bron S, Brouillet S, Bruschi CV, Caldwell B, Capuano V, Carter NM, Choi SK, Cordani JJ, Connerton IF, Cummings NJ, Daniel RA, Denziot F, Devine KM, Düsterhöft A, Ehrlich SD, Emmerson PT, Entian KD, Errington J, Fabret C, Ferrari E, Foulger D, Fritz C, Fujita M, Fujita Y, Fuma S, Galizzi A, Galleron N, Ghim SY, Glaser P, Goffeau A, Golightly EJ, Grandi G, Guiseppi G, Guy BJ, Haga K, Haiech J, Harwood CR, Hènaut A, Hilbert H, Holsappel S, Hosono S, Hullo MF, Itaya M, Jones L, Joris B, Karamata D, Kasahara Y, Klaerr-Blanchard M, Klein C, Kobayashi Y, Koetter P, Koningstein G, Krogh S, Kumano M, Kurita K, Lapidus A, Lardinois S, Lauber J, Lazarevic V, Lee SM, Levine A, Liu H, Masuda S, Mauël C, Médigue C, Medina N, Mellado RP, Mizuno M, Moestl D, Nakai S, Noback M, Noone D, O'Reilly M, Ogawa K, Ogiwara A, Oudega B, Park SH, Parro V, Pohl TM, Portelle D, Porwollik S, Prescott AM, Presecan E, Pujic P, Purnelle B, Rapoport G, Rey M, Reynolds S, Rieger M, Rivolta C, Rocha E, Roche B, Rose M, Sadaie Y, Sato T, Scanlan E, Schleich S, Schroeter R, Scoffone F, Sekiguchi J, Sekowska A, Seror SJ, Serror P, Shin BS, Soldo B, Sorokin A, Tacconi E, Takagi T, Takahashi H, Takemaru K, Takeuchi M, Tamakoshi A, Tanaka T, Terpstra P, Togoni A, Tosato V, Uchiyama S, Vandebol M, Vannier F, Vassarotti A, Viari A, Wambutt R, Wedler H, Weitzenegger T, Winters P, Wipat A, Yamamoto H, Yamane K, Yasumoto K, Yata K, Yoshida K, Yoshikawa HF, Zumstein E, Yoshikawa H, Danchin A.

Nature. 1997 Nov 20;390(6657):249-56.

22.

A Bacillus subtilis chromosome segment at the 100 degrees to 102 degrees position encoding 11 membrane proteins.

Roche B, Autret S, Levine A, Vannier F, Medina N, Séror SJ.

Microbiology. 1997 Oct;143 ( Pt 10):3309-12.

PMID:
9353932
23.

Sequencing of regions downstream of addA (98 degrees) and citG (289 degrees) in Bacillus subtilis.

Médina N, Vannier F, Roche B, Autret S, Levine A, Séror SJ.

Microbiology. 1997 Oct;143 ( Pt 10):3305-8.

PMID:
9353931
24.

A 10.3 kbp segment from nprB to argJ at the 102 degrees region of the Bacillus subtilis chromosome.

Levine A, Vannier F, Roche B, Autret S, Mavel D, Séror SJ.

Microbiology. 1997 Jan;143 ( Pt 1):175-7.

PMID:
9025291
25.

Characterization of an Escherichia coli mutant, feeA, displaying resistance to the calmodulin inhibitor 48/80 and reduced expression of the rare tRNA3Leu.

Bouquin N, Chen MX, Kim S, Vannier F, Bernard S, Holland IB, Séror SJ.

Mol Microbiol. 1996 May;20(4):853-65.

PMID:
8793881
26.

Resistance to trifluoroperazine, a calmodulin inhibitor, maps to the fabD locus in Escherichia coli.

Bouquin N, Tempête M, Holland IB, Séror SJ.

Mol Gen Genet. 1995 Mar 10;246(5):628-37.

PMID:
7700236
28.

Identification and preliminary characterization of temperature-sensitive mutations affecting HlyB, the translocator required for the secretion of haemolysin (HlyA) from Escherichia coli.

Blight MA, Pimenta AL, Lazzaroni JC, Dando C, Kotelevets L, Séror SJ, Holland IB.

Mol Gen Genet. 1994 Nov 15;245(4):431-40.

PMID:
7808392
29.
30.

A single base change in the acceptor stem of tRNA(3Leu) confers resistance upon Escherichia coli to the calmodulin inhibitor, 48/80.

Chen MX, Bouquin N, Norris V, Casarégola S, Séror SJ, Holland IB.

EMBO J. 1991 Oct;10(10):3113-22.

32.

The stringent response blocks DNA replication outside the ori region in Bacillus subtilis and at the origin in Escherichia coli.

Levine A, Vannier F, Dehbi M, Henckes G, Séror SJ.

J Mol Biol. 1991 Jun 20;219(4):605-13.

PMID:
1905358
33.
34.

Overreplication of the origin region in the dnaB37 mutant of Bacillus subtilis: postinitiation control of chromosomal replication.

Henckes G, Harper F, Levine A, Vannier F, Séror SJ.

Proc Natl Acad Sci U S A. 1989 Nov;86(22):8660-4.

35.

A single calcium flux triggers chromosome replication, segregation and septation in bacteria: a model.

Norris V, Seror SJ, Casaregola S, Holland IB.

J Theor Biol. 1988 Oct 7;134(3):341-50.

PMID:
3254432
36.

Chromosomal initiation in Bacillus subtilis may involve two closely linked origins.

Levine A, Henckes G, Vannier F, Séror SJ.

Mol Gen Genet. 1987 Jun;208(1-2):37-44.

PMID:
3039310

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