Difference between revisions of "Paper"

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==Daniel Reuß==
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* strongly repressed in response to glucose starvation in M9 medium {{PubMed|23033921}}: [[hupA]] [[cycC]]  
Schmidl et al: PLOS Pathogens
 
<pubmed>21546586 10066529</pubmed>
 
 
 
* [[BioI]]
 
[[YurN]][[YurM]]
 
  
[[YurO]]
+
==not yet in SubtiWiki==
* YxeM YxeN
+
<pubmed>31239381  31237868
YxeO
+
  31235516
YckB Ycka
+
    31134210    31197963 31160399 31066113
YknV YknU
+
    31199835  31217292 </pubmed>
YknZ  YknY 
 
* Mbl
 
KinC
 
PdhB PdhA
 
PdhC
 
PdhD
 
OdhA
 
OdhB
 
YlaD
 
Sco CtaC
 
 
StoA SpoVD
 
SpoVE
 
FtsA
 
ZapA
 
EzrA
 
MciZ
 
SepF
 
SpoIIGA
 
MinC DivIVA
 
MinD
 
MinJ
 
RacA
 
* SpoIVA  SpoVM 
 
SpoVID FapR
 
PlsY PlsX
 
BioI 
 
ScpA Smc
 
ScpB
 
Ffh
 
Scr
 
SucC
 
SucD
 
RecA DprA
 
ClpY ClpQ
 
EpsE FliG
 
FlhA FliJ
 
FliT
 
* CheC CheY
 
CheA
 
FliD FlhA
 
Hag
 
FliS
 
McpB  CheA 
 
CheC
 
McpB
 
CheD
 
FlgM
 
RecU RecA
 
CotC CotE
 
CotU
 
EbrA EbrB
 
NrdF NrdE
 
GlnR
 
* CotC  CotU 
 
CitG
 
YngE YngH
 
Icd
 
PhrK RapK
 
SdpC CsaA
 
DesR DesK
 
OdhA OdhB
 
Icd
 
YplP
 
ThyB DfrA
 
EzrA UgtP
 
TrpB  TrpA 
 
CarB CarA
 
* SpoVID
 
SafA SpoIVA
 
Fer
 
RsiX
 
ResD ResE
 
ResB ResC
 
ScpA ScpB
 
RibE RibH
 
SpoIIAA
 
SpoIIP SpoIIM
 
BkdR
 
Spo0B
 
* BofC 
 
AccA AccC
 
AccD
 
AccB
 
SpoIIQ  SpoIIIAH 
 
SpoIIIJ SpoIIIAE
 
SinI
 
SlrA
 
SlrR PbpA
 
GlyQ GlyS
 
* DnaK DnaJ
 
SpoIID SpoIIP
 
KinB
 
SpoIVFB
 
TrxA  ArsC  YqaM
 
SpoIIIC
 
YrkP YrkQ
 
RsiV
 
* SpoVID SafA
 
Spo0B
 
  
MinC MinD
+
==POTM 2018==
MinJ
+
<pubmed>    </pubmed>
MreD
 
Mbl
 
ClpX
 
SdhA SdhB 
 
SdhC
 
UvrB UvrC
 
* PheS PheT
 
SsuA SsuC
 
SsuB
 
YtlC YtlD
 
YtlA
 
* YvrA YvrB
 
YvrC
 
YcdH YceA
 
YcdI
 
YjkB YjkA
 
YvgM YvgL
 
AraN AraQ
 
AraP
 
* LytS LytT
 
PhoP  PhoR 
 
CitZ
 
Icd
 
CitG
 
AccD AccA
 
MotP MotS
 
YthP YthQ
 
* BceA BceB
 
BceR BceS
 
KtrB KtrA
 
KinB PbpD
 
MalR MalK
 
MrpB MrpA
 
MrpC
 
MrpD
 
MrpE
 
MrpF
 
MrpG
 
* RapF 
 
ComP
 
RapD
 
RapK
 
DegS DegQ
 
IscU SufU
 
SufS
 
CssS CssR
 
LiaS LiaR
 
YvrG
 
YvrO YvrN
 
FhuB FhuC
 
FhuG
 
FhuD
 
YxeB
 
* CopZ CopA
 
SdpR SdpI
 
YkzW
 
YvfT YvfU
 
YvfR YvfS  RsbQ
 
AcoR
 
RocR
 
EpsA EpsB
 
SlrA SlrR
 
PsdB PsdA
 
PsdS PsdR
 
UvrB 
 
* FtsE FtsX
 
FliD FliT
 
FliS
 
RsmY CsrA
 
RapG DegU
 
TagG  TagH 
 
CotG CotB
 
YwrA YwrB
 
TkmA
 
PtpZ
 
Ugd
 
* TuaD
 
Ssb
 
SsbB
 
Ldh
 
YvyG
 
YnfE
 
Asd
 
YorK
 
RapB
 
*
 
RapE 
 
PhrE
 
AlbD AlbC
 
PhrF RapF
 
LicC
 
* YxlF YxlG
 
CydC CydD
 
YxjL YxjM
 
YxdL YxdM
 
YxdJ YxdK
 
YydI YydJ
 
YydH
 
* PhrG RapG
 
YycH YycI
 
WalR WalK   
 
YybJ YybL
 
YybK
 
ThdF GidA
 
RnpA
 
RnpB
 
GmuC
 
  
* SbcC 
+
== für Master-Seminar ==
RecG
+
<pubmed>   24529384    20431016    24097941    22773139    21127214</pubmed>
YrvE
 
YrvN 
 
RecO
 
YqiB
 
Ung
 
YpbB
 
YrrC
 
* YycH WalK
 
YycI
 
CheB CheA
 
CheV
 
Tkt Tpi
 
SpoIISB SpoIISA
 
Soj Spo0J
 
BceS BceB
 
YirB
 
RsbRB   
 
* RsbRC
 
GerAB GerAA
 
GerAC
 
ComGB ComGA
 
ComFA
 
ComGC
 
ComGD
 
ComGE
 
ComGG
 
ComGC ComC
 
ComGD
 
* ComGE
 
ComGG
 
ComGA ComEC
 
ComEA 
 
ComFA
 
CoiA
 
SsbB
 
DprA
 
RecA
 
CoiA SsbB
 
DprA
 
RecA
 
* TasA TapA
 
UreC DivIVA Maf
 
FtsW
 
RuvB RuvA
 
RecU
 
GerAC Lgt
 
GerBC GerBA
 
GerBB
 
GerKC GerKB
 
GerKC
 
GerKA
 
fer des
 
Fra SufU
 
RnpA
 
* CitT CitS
 
NdoA NdoAI
 
SpoIIQ SpoIIE
 
CymR CysK
 
PabA PabB
 
TrpE
 
* McsA CtsR
 
McsB
 
YpbH
 
RacA DisA
 
 
 
==not yet in SubtiWiki==
 
<pubmed> 21636651</pubmed>
 
{{PubMed|}}
 
===sonst (nur Excel-Liste)===
 
 
 
==POTM==
 
* [http://www.ncbi.nlm.nih.gov/pubmed/21749987 Chi ''et al''.] demonstrate that S-bacillithiolation of the repressor [[OhrR]] and of four enzymes of the methionine biosynthesis pathway protects the ''B. subtilis'' cell against hypochlorite stress.
 
<pubmed>21749987</pubmed>
 
* '''Relevant ''Subti''Wiki pages:'''  [[Haike Antelmann]], [[Dörte Becher]], [[Ulrike Mäder]], [[resistance against oxidative and electrophile stress]], [[Spx regulon]], [[CtsR regulon]], [[PerR regulon]], [[OhrR]], [[MetE]], [[YxjG]], [[PpaC]], [[SerA]], [[YphP]]
 

Latest revision as of 10:09, 6 April 2020

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

not yet in SubtiWiki

Nikolai P Radzinski, Marina Besprozvannaya, Eric L McLean, Anusha Talwalkar, Briana M Burton
DNA-Membrane Anchor Facilitates Efficient Chromosome Translocation at a Distance in Bacillus subtilis.
mBio: 2019, 10(3);
[PubMed:31239381] [WorldCat.org] [DOI] (I e)

Katherine R Hummels, Daniel B Kearns
Suppressor mutations in ribosomal proteins and FliY restore Bacillus subtilis swarming motility in the absence of EF-P.
PLoS Genet: 2019, 15(6);e1008179
[PubMed:31237868] [WorldCat.org] [DOI] (I e)

Bentley Shuster, Mark Khemmani, Yusei Nakaya, Gudrun Holland, Keito Iwamoto, Kimihiro Abe, Daisuke Imamura, Nina Maryn, Adam Driks, Tsutomu Sato, Patrick Eichenberger
Expansion of the Spore Surface Polysaccharide Layer in Bacillus subtilis by Deletion of Genes Encoding Glycosyltransferases and Glucose Modification Enzymes.
J Bacteriol: 2019, 201(19);
[PubMed:31235516] [WorldCat.org] [DOI] (I e)

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)

Seoungjun Lee, Ling Juan Wu, Jeff Errington
Microfluidic time-lapse analysis and reevaluation of the Bacillus subtilis cell cycle.
Microbiologyopen: 2019, 8(10);e876
[PubMed:31197963] [WorldCat.org] [DOI] (I p)

Emily E Brown, Allyssa K Miller, Inna V Krieger, Ryan M Otto, James C Sacchettini, Jennifer K Herman
##Title##
J Bacteriol: 2019, 201(16);
[PubMed:31160399] [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)

Natalí B Rasetto, Antonela Lavatelli, Natalia Martin, María Cecilia Mansilla
Unravelling the lipoyl-relay of exogenous lipoate utilization in Bacillus subtilis.
Mol Microbiol: 2019, 112(1);302-316
[PubMed:31066113] [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)

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