Difference between revisions of "Paper"

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<pubmed>30887576  30929979 30962353 30954900    31086310
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<pubmed>30887576  30929979 30962353 30954900     31134210
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     31199835
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   30971625 </pubmed>
 
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Revision as of 13:19, 25 June 2019

  • strongly repressed in response to glucose starvation in M9 medium PubMed: hupA cycC

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Sofia Arnaouteli, D A Matoz-Fernandez, Michael Porter, Margarita Kalamara, James Abbott, Cait E MacPhee, Fordyce A Davidson, Nicola R Stanley-Wall
##Title##
Proc Natl Acad Sci U S A: 2019, 116(27);13553-13562
[PubMed:31217292] [WorldCat.org] [DOI] (I p)

Cameron V Sayer, Bidisha Barat, David L Popham
Identification of L-Valine-initiated-germination-active genes in Bacillus subtilis using Tn-seq.
PLoS One: 2019, 14(6);e0218220
[PubMed:31199835] [WorldCat.org] [DOI] (I e)

Björn Richts, Jonathan Rosenberg, Fabian M Commichau
##Title##
Front Mol Biosci: 2019, 6;32
[PubMed:31134210] [WorldCat.org] [DOI] (P e)

Michael F Dion, Mrinal Kapoor, Yingjie Sun, Sean Wilson, Joel Ryan, Antoine Vigouroux, Sven van Teeffelen, Rudolf Oldenbourg, Ethan C Garner
Bacillus subtilis cell diameter is determined by the opposing actions of two distinct cell wall synthetic systems.
Nat Microbiol: 2019, 4(8);1294-1305
[PubMed:31086310] [WorldCat.org] [DOI] (I p)

Takahiro Seki, Takuya Furumi, Michihiro Hashimoto, Hiroshi Hara, Satoshi Matsuoka
Activation of extracytoplasmic function sigma factors upon removal of glucolipids and reduction of phosphatidylglycerol content in Bacillus subtilis cells lacking lipoteichoic acid.
Genes Genet Syst: 2019, 94(2);71-80
[PubMed:30971625] [WorldCat.org] [DOI] (I p)

Daniel F Rojas-Tapias, John D Helmann
Identification of Novel Spx Regulatory Pathways in Bacillus subtilis Uncovers a Close Relationship between the CtsR and Spx Regulons.
J Bacteriol: 2019, 201(13);
[PubMed:30962353] [WorldCat.org] [DOI] (I e)

Hector Romero, Rubén Torres, Rogelio Hernández-Tamayo, Begoña Carrasco, Silvia Ayora, Peter L Graumann, Juan C Alonso
Bacillus subtilis RarA acts at the interplay between replication and repair-by-recombination.
DNA Repair (Amst): 2019, 78;27-36
[PubMed:30954900] [WorldCat.org] [DOI] (I p)

Saurabh Bhattacharya, Amit K Baidya, Ritesh Ranjan Pal, Gideon Mamou, Yair E Gatt, Hanah Margalit, Ilan Rosenshine, Sigal Ben-Yehuda
A Ubiquitous Platform for Bacterial Nanotube Biogenesis.
Cell Rep: 2019, 27(2);334-342.e10
[PubMed:30929979] [WorldCat.org] [DOI] (I p)

Sven Halbedel, Richard J Lewis
Structural basis for interaction of DivIVA/GpsB proteins with their ligands.
Mol Microbiol: 2019, 111(6);1404-1415
[PubMed:30887576] [WorldCat.org] [DOI] (I p)


POTM 2018


für Master-Seminar

Laura Hobley, Sok Ho Kim, Yukari Maezato, Susan Wyllie, Alan H Fairlamb, Nicola R Stanley-Wall, Anthony J Michael
Norspermidine is not a self-produced trigger for biofilm disassembly.
Cell: 2014, 156(4);844-54
[PubMed:24529384] [WorldCat.org] [DOI] (I p)

Sara A Leiman, Janine M May, Matthew D Lebar, Daniel Kahne, Roberto Kolter, Richard Losick
D-amino acids indirectly inhibit biofilm formation in Bacillus subtilis by interfering with protein synthesis.
J Bacteriol: 2013, 195(23);5391-5
[PubMed:24097941] [WorldCat.org] [DOI] (I p)

Tobias J Erb, Patrick Kiefer, Bodo Hattendorf, Detlef Günther, Julia A Vorholt
GFAJ-1 is an arsenate-resistant, phosphate-dependent organism.
Science: 2012, 337(6093);467-70
[PubMed:22773139] [WorldCat.org] [DOI] (I p)

Felisa Wolfe-Simon, Jodi Switzer Blum, Thomas R Kulp, Gwyneth W Gordon, Shelley E Hoeft, Jennifer Pett-Ridge, John F Stolz, Samuel M Webb, Peter K Weber, Paul C W Davies, Ariel D Anbar, Ronald S Oremland
A bacterium that can grow by using arsenic instead of phosphorus.
Science: 2011, 332(6034);1163-6
[PubMed:21127214] [WorldCat.org] [DOI] (I p)

Ilana Kolodkin-Gal, Diego Romero, Shugeng Cao, Jon Clardy, Roberto Kolter, Richard Losick
D-amino acids trigger biofilm disassembly.
Science: 2010, 328(5978);627-9
[PubMed:20431016] [WorldCat.org] [DOI] (I p)