Difference between revisions of "Biofilm formation"
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Revision as of 09:29, 2 July 2015
Biofilms are the result of the multicellular lifestyle of B. subtilis. They are characterized by the formation of a matrix polysaccharide (poly-N-acetyl glucosamine as a major polysaccharide PubMed) and an amyloid-like protein, TasA. Correction of sfp, epsC, swrAA, and degQ as well as introduction of rapP from a plasmid present in NCIB3610 results in biofilm formation in B. subtilis 168 PubMed.
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Contents
Biofilm formation in SubtiPathways
Labs working on biofilm formation
- Daniel Kearns
- Roberto Kolter
- Akos T Kovacs
- Oscar Kuipers
- Beth Lazazzera
- Richard Losick
- Nicola Stanley-Wall
- Jörg Stülke
Key genes and operons involved in biofilm formation
- matrix polysaccharide synthesis PubMed:
- amyloid protein synthesis, secretion and assembly
- repellent surface layer
- regulation
- other proteins required for biofilm formation
Important original publications
Damien Roux, Colette Cywes-Bentley, Yi-Fan Zhang, Stephanie Pons, Melissa Konkol, Daniel B Kearns, Dustin J Little, P Lynne Howell, David Skurnik, Gerald B Pier
Identification of Poly-N-acetylglucosamine as a Major Polysaccharide Component of the Bacillus subtilis Biofilm Matrix.
J Biol Chem: 2015, 290(31);19261-72
[PubMed:26078454]
[WorldCat.org]
[DOI]
(I p)
Yun Chen, Kevin Gozzi, Fang Yan, Yunrong Chai
Acetic Acid Acts as a Volatile Signal To Stimulate Bacterial Biofilm Formation.
mBio: 2015, 6(3);e00392
[PubMed:26060272]
[WorldCat.org]
[DOI]
(I e)
Jordi van Gestel, Hera Vlamakis, Roberto Kolter
From cell differentiation to cell collectives: Bacillus subtilis uses division of labor to migrate.
PLoS Biol: 2015, 13(4);e1002141
[PubMed:25894589]
[WorldCat.org]
[DOI]
(I e)
Keith M Bromley, Ryan J Morris, Laura Hobley, Giovanni Brandani, Rachel M C Gillespie, Matthew McCluskey, Ulrich Zachariae, Davide Marenduzzo, Nicola R Stanley-Wall, Cait E MacPhee
Interfacial self-assembly of a bacterial hydrophobin.
Proc Natl Acad Sci U S A: 2015, 112(17);5419-24
[PubMed:25870300]
[WorldCat.org]
[DOI]
(I p)
Matthew J Powers, Edgardo Sanabria-Valentín, Albert A Bowers, Elizabeth A Shank
Inhibition of Cell Differentiation in Bacillus subtilis by Pseudomonas protegens.
J Bacteriol: 2015, 197(13);2129-2138
[PubMed:25825426]
[WorldCat.org]
[DOI]
(I p)
D R Espeso, A Carpio, B Einarsson
Differential growth of wrinkled biofilms.
Phys Rev E Stat Nonlin Soft Matter Phys: 2015, 91(2);022710
[PubMed:25768534]
[WorldCat.org]
[DOI]
(I p)
Rachel Bleich, Jeramie D Watrous, Pieter C Dorrestein, Albert A Bowers, Elizabeth A Shank
Thiopeptide antibiotics stimulate biofilm formation in Bacillus subtilis.
Proc Natl Acad Sci U S A: 2015, 112(10);3086-91
[PubMed:25713360]
[WorldCat.org]
[DOI]
(I p)
Shaul Pollak, Shira Omer Bendori, Avigdor Eldar
A complex path for domestication of B. subtilis sociality.
Curr Genet: 2015, 61(4);493-6
[PubMed:25680358]
[WorldCat.org]
[DOI]
(I p)
Shira Omer Bendori, Shaul Pollak, Dorit Hizi, Avigdor Eldar
The RapP-PhrP quorum-sensing system of Bacillus subtilis strain NCIB3610 affects biofilm formation through multiple targets, due to an atypical signal-insensitive allele of RapP.
J Bacteriol: 2015, 197(3);592-602
[PubMed:25422306]
[WorldCat.org]
[DOI]
(I p)
Hiraku Takada, Masato Morita, Yuh Shiwa, Ryoma Sugimoto, Shota Suzuki, Fujio Kawamura, Hirofumi Yoshikawa
Cell motility and biofilm formation in Bacillus subtilis are affected by the ribosomal proteins, S11 and S21.
Biosci Biotechnol Biochem: 2014, 78(5);898-907
[PubMed:25035996]
[WorldCat.org]
[DOI]
(I p)
Thomas M Norman, Nathan D Lord, Johan Paulsson, Richard Losick
Memory and modularity in cell-fate decision making.
Nature: 2013, 503(7477);481-486
[PubMed:24256735]
[WorldCat.org]
[DOI]
(I p)
Fernando Gómez-Aguado, María Teresa Corcuera, María Luisa Gómez-Lus, María Antonia de la Parte, Carmen Ramos, César García-Rey, María José Alonso, José Prieto
Histological approach to Bacillus subtilis colony-biofilm: evolving internal architecture and sporulation dynamics.
Histol Histopathol: 2013, 28(10);1351-60
[PubMed:23645570]
[WorldCat.org]
[DOI]
(I p)
Iztok Dogsa, Mojca Brloznik, David Stopar, Ines Mandic-Mulec
Exopolymer diversity and the role of levan in Bacillus subtilis biofilms.
PLoS One: 2013, 8(4);e62044
[PubMed:23637960]
[WorldCat.org]
[DOI]
(I e)
Pascale B Beauregard, Yunrong Chai, Hera Vlamakis, Richard Losick, Roberto Kolter
Bacillus subtilis biofilm induction by plant polysaccharides.
Proc Natl Acad Sci U S A: 2013, 110(17);E1621-30
[PubMed:23569226]
[WorldCat.org]
[DOI]
(I p)
Moshe Shemesh, Yunrong Chai
A combination of glycerol and manganese promotes biofilm formation in Bacillus subtilis via histidine kinase KinD signaling.
J Bacteriol: 2013, 195(12);2747-54
[PubMed:23564171]
[WorldCat.org]
[DOI]
(I p)
A Bridier, T Meylheuc, R Briandet
Realistic representation of Bacillus subtilis biofilms architecture using combined microscopy (CLSM, ESEM and FESEM).
Micron: 2013, 48;65-9
[PubMed:23517761]
[WorldCat.org]
[DOI]
(I p)
Thomas Böttcher, Ilana Kolodkin-Gal, Roberto Kolter, Richard Losick, Jon Clardy
Synthesis and activity of biomimetic biofilm disruptors.
J Am Chem Soc: 2013, 135(8);2927-30
[PubMed:23406351]
[WorldCat.org]
[DOI]
(I p)
Miguel Trejo, Carine Douarche, Virginie Bailleux, Christophe Poulard, Sandrine Mariot, Christophe Regeard, Eric Raspaud
Elasticity and wrinkled morphology of Bacillus subtilis pellicles.
Proc Natl Acad Sci U S A: 2013, 110(6);2011-6
[PubMed:23341623]
[WorldCat.org]
[DOI]
(I p)
James N Wilking, Vasily Zaburdaev, Michael De Volder, Richard Losick, Michael P Brenner, David A Weitz
Liquid transport facilitated by channels in Bacillus subtilis biofilms.
Proc Natl Acad Sci U S A: 2013, 110(3);848-52
[PubMed:23271809]
[WorldCat.org]
[DOI]
(I p)
Munehiro Asally, Mark Kittisopikul, Pau Rué, Yingjie Du, Zhenxing Hu, Tolga Çağatay, Andra B Robinson, Hongbing Lu, Jordi Garcia-Ojalvo, Gürol M Süel
Localized cell death focuses mechanical forces during 3D patterning in a biofilm.
Proc Natl Acad Sci U S A: 2012, 109(46);18891-6
[PubMed:23012477]
[WorldCat.org]
[DOI]
(I p)
Yun Chen, Fang Yan, Yunrong Chai, Hongxia Liu, Roberto Kolter, Richard Losick, Jian-Hua Guo
Biocontrol of tomato wilt disease by Bacillus subtilis isolates from natural environments depends on conserved genes mediating biofilm formation.
Environ Microbiol: 2013, 15(3);848-864
[PubMed:22934631]
[WorldCat.org]
[DOI]
(I p)
Juan C Garcia-Betancur, Ana Yepes, Johannes Schneider, Daniel Lopez
Single-cell analysis of Bacillus subtilis biofilms using fluorescence microscopy and flow cytometry.
J Vis Exp: 2012, (60);
[PubMed:22371091]
[WorldCat.org]
[DOI]
(I e)
Agnese Seminara, Thomas E Angelini, James N Wilking, Hera Vlamakis, Senan Ebrahim, Roberto Kolter, David A Weitz, Michael P Brenner
Osmotic spreading of Bacillus subtilis biofilms driven by an extracellular matrix.
Proc Natl Acad Sci U S A: 2012, 109(4);1116-21
[PubMed:22232655]
[WorldCat.org]
[DOI]
(I p)
Anna L McLoon, Sarah B Guttenplan, Daniel B Kearns, Roberto Kolter, Richard Losick
Tracing the domestication of a biofilm-forming bacterium.
J Bacteriol: 2011, 193(8);2027-34
[PubMed:21278284]
[WorldCat.org]
[DOI]
(I p)
Arnaud Bridier, Dominique Le Coq, Florence Dubois-Brissonnet, Vincent Thomas, Stéphane Aymerich, Romain Briandet
The spatial architecture of Bacillus subtilis biofilms deciphered using a surface-associated model and in situ imaging.
PLoS One: 2011, 6(1);e16177
[PubMed:21267464]
[WorldCat.org]
[DOI]
(I e)
Nicola R Stanley, Beth A Lazazzera
Defining the genetic differences between wild and domestic strains of Bacillus subtilis that affect poly-gamma-dl-glutamic acid production and biofilm formation.
Mol Microbiol: 2005, 57(4);1143-58
[PubMed:16091050]
[WorldCat.org]
[DOI]
(P p)
Key reviews