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Review : The Role of Cytoskeletal Elements in Shaping Bacterial Cells

( Hong Baek Cho ) 2015년

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' Review : The Role of Cytoskeletal Elements in Shaping Bacterial Cells' 의 주제별 논문영향력
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주제
  • bacterial cytoskeleton
  • dnasegregation
  • ftsz
  • mreb
  • para
  • peptidoglycan
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' Review : The Role of Cytoskeletal Elements in Shaping Bacterial Cells' 의 참고문헌

  • Unstable Escherichia coli L forms revisited: growth requires peptidoglycan synthesis
    Joseleau-Petit D J. Bacteriol 189 : 6512 ~ 6520 [2007]
  • Unique and overlapping roles for ZipA and FtsA in septal ring assembly in Escherichia coli
    Pichoff S EMBO J 21 : 685 ~ 693 [2002]
  • Two-step assembly dynamics of the Bacillus subtilis divisome
    Gamba P J. Bacteriol 191 : 4186 ~ 4194 [2009]
  • Tubulin homolog TubZ in a phage-encoded partition system
    Oliva MA Proc. Natl. Acad. Sci. USA 109 : 7711 ~ 7716 [2012]
  • Tubulin and FtsZ form a distinct family of GTPases
    Nogales E Nat. Struct. Biol 5 : 451 ~ 458 [1998]
  • Treadmilling of a prokaryotic tubulinlike protein, TubZ, required for plasmid stability in Bacillus thuringiensis
    Larsen RA Genes Dev 21 : 1340 ~ 1352 [2007]
  • The trans-envelope Tol-Pal complex is part of the cell division machinery and required for proper outer-membrane invagination during cell constriction in E
    Gerding MA coli. Mol. Microbiol 63 : 1008 ~ 1025 [2007]
  • The structure of bacterial ParM filaments
    Orlova A Nat. Struct. Mol. Biol 14 : 921 ~ 926 [2007]
  • The positioning of cytoplasmic protein clusters in bacteria
    Thompson SR Proc. Natl. Acad. Sci. USA 103 : 8209 ~ 8214 [2006]
  • The essential bacterial cell-division protein FtsZ is a GTPase
    de Boer P Nature 359 : 254 ~ 256 [1992]
  • The centromere-like parC locus of plasmid R1
    Breuner A Mol. Microbiol 20 : 581 ~ 592 [1996]
  • The bacterial cytoskeleton:more than twisted filaments
    Pilhofer M Curr. Opin. Cell Biol 25 : 125 ~ 133 [2013]
  • The bacterial cytoskeleton: in vivo dynamics of the actin-like protein Mbl of Bacillus subtilis
    Carballido-Lopez R Dev. Cell 4 : 19 ~ 28 [2003]
  • The bacterial cytoskeleton: an intermediate filament-like function in cell shape
    Ausmees N Cell 115 : 705 ~ 713 [2003]
  • The bacterial cytoskeleton
    Cabeen MT Annu. Rev. Genet 44 : 365 ~ 392 [2010]
  • The bacterial cell division proteins FtsA and FtsZ self-organize into dynamic cytoskeletal patterns
    Loose M Nat. Cell Biol 16 : 38 ~ 46 [2014]
  • The bacterial actin MreB rotates, and rotation depends on cell-wall assembly
    van Teeffelen S Proc. Natl. Acad. Sci. USA 108 : 15822 ~ 15827 [2011]
  • The ParA/MinD family puts things in their place
    Lutkenhaus J. Trends Microbiol 20 : 411 ~ 418 [2012]
  • Surfing biological surfaces: exploiting the nucleoid for partition and transport in bacteria
    101. Vecchiarelli AG Mol. Microbiol 86 : 513 ~ 523 [2012]
  • Structure of the alpha beta tubulin dimer by electron crystallography
    Nogales E Nature 391 : 199 ~ 203 [1998]
  • Spatiotemporal organization of microbial cells by protein concentration gradients
    Kiekebusch D Trends Microbio 22 : 65 ~ 73 [2014]
  • Spatially ordered dynamics of the bacterial carbon fixation machinery
    Savage DF Science 327 : 1258 ~ 1261 [2010]
  • Spatial regulators for bacterial cell division selforganize into surface waves in vitro
    Loose M Science 320 : 789 ~ 792 [2008]
  • Soj (ParA) DNA binding is mediated by conserved arginines and is essential for plasmid segregation
    Hester CM Proc. Natl. Acad. Sci. USA 104 : 20326 ~ 20331 [2007]
  • SlmA, a nucleoid-associated, FtsZ binding protein required for blocking septal ring assembly over chromosomes in E
    Bernhardt TG coli. Mol. Cell 18 : 555 ~ 564 [2005]
  • SlmA antagonism of FtsZ assembly employs a two-pronged mechanism like MinCD
    Du S PLoS Genet 10 : e1004460 ~ [2014]
  • Sculpting the bacterial cell
    Margolin, W. Curr. Biol 19 : R812 ~ R822 [2009]
  • Rod-like bacterial s hape is maintained by feedback between cell curvature and cytoskeletal localization
    Ursell TS Proc. Natl. Acad. Sci. USA 111 : E1025 ~ E1034 [2014]
  • Reconstitution of contractile FtsZ rings in liposomes
    Osawa M Science 320 : 792 ~ 794 [2008]
  • Reconstitution of DNA segregation driven by assembly of a prokaryotic actin homolog
    Garner EC aScience 315 : 1270 ~ 1274 [2007]
  • Rapid pole-to-pole oscillation of a protein required for directing division to the middle of Escherichia coli
    Raskin DM Proc. Natl. Acad. Sci. USA 96 : 4971 ~ 4976 [1999]
  • Pushing and pulling in prokaryotic DNA segregation
    Gerdes K Cell 141 : 927 ~ 942 [2010]
  • Protein self-organization:lessons from the min system
    Loose M Annu. Rev. Biophys 40 : 315 ~ 336 [2011]
  • Prokaryotic origin of the actin cytoskeleton
    van den Ent F Nature 413 : 39 ~ 44 [2001]
  • Processive movement of MreB-associated cell wall biosynthetic complexes in bacteria
    Dominguez-Escobar J Science 333 : 225 ~ 228 [2011]
  • Plasmid protein TubR uses a distinct mode of HTH-DNA binding and recruits the prokaryotic tubulin homolog TubZ to effect DNA partition
    Ni L Proc. Natl. Acad. Sci. USA 107 : 11763 ~ 11768 [2010]
  • Phylogenetic analysis identifies many uncharacterized actin-like proteins (Alps) in bacteria: regulated polymerization, dynamic instability and treadmilling in Alp7A
    Derman AI Mol. Microbiol 73 : 534 ~ 552 [2009]
  • Phosphorylation of a novel cytoskeletal protein (RsmP) regulates rod-shaped morphology in Corynebacterium glutamicum
    Fiuza M J. Biol. Chem 285 : 29387 ~ 29397 [2010]
  • Peptidoglycan crosslinking relaxation promotes Helicobacter pylori’s h elic al s hape a nd stomach colonization
    Sycuro LK Cell 141 : 822 ~ 833 [2010]
  • ParA-mediated plasmid partition driven by protein pattern self-organization
    Hwang LC EMBO J 32 : 1238 ~ 1249 [2013]
  • Organization of genes in the ftsA-envA region of the Escherichia coli genetic map and identification of a new fts locus (ftsZ)
    Lutkenhaus JF J. Bacteriol 142 : 615 ~ 620 [1980]
  • Nucleotide-independent cytoskeletal scaffolds in bacteria
    Lin L Cytoskeleton (Hoboken) 70 : 409 ~ 423 [2013]
  • Nucleotide-dependent conformations of FtsZ dimers and force generation observed through molecular dynamics simulations
    Hsin J Proc. Natl. Acad. Sci. USA 109 : 9432 ~ 9437 [2012]
  • Nucleoid occlusion factor SlmA is a DNA-activated FtsZ polymerization antagonist
    Cho H Proc. Natl. Acad. Sci. USA 108 : 3773 ~ 3778 [2011]
  • Nucleoid occlusion and bacterial cell division
    107. Wu LJ Nat. Rev. Microbiol 10 : 8 ~ 12 [2012]
  • Noc protein binds to specific DNA sequences to coordinate cell division with chromosome segregation
    108. Wu LJ EMBO J 28 : 1940 ~ 1952 [2009]
  • Mutations in ftsZ that confer resistance to SulA affect the interaction of FtsZ with GTP
    Dai K J. Bacteriol 176 : 130 ~ 136 [1994]
  • Mutant isolation and molecular cloning of mre genes, which determine cell shape, sensitivity to mecillinam, and amount of penicillin-binding proteins in Escherichia coli
    103. Wac hi M J. Bacteriol 169 : 4935 ~ 4940 [1987]
  • Multiple peptidoglycan modification networks modulate Helicobacter pylori's cell shape, motility, and colonization potential
    Sycuro LK PLoS Pathog 8 : e1002603 ~ [2012]
  • Movement and equipositioning of plasmids by ParA filament disassembly
    Ringgaard S Proc. Natl. Acad. Sci. USA 106 : 19369 ~ 19374 [2009]
  • Molecular mechanism by which the nucleoid occlusion factor, SlmA, keeps cytokinesis in check
    Tonthat NK EMBO J 30 : 154 ~ 164 [2011]
  • Modes of cell wall growth differentiation in rod-shaped bacteria
    Cava F Curr. Opin. Microbiol 16 : 731 ~ 737 [2013]
  • Modeling the physics of FtsZ assembly and force generation
    Erickson HP Proc. Natl. Acad. Sci. USA 106 : 9238 ~ 9243 [2009]
  • MipZ, a spatial regulator coordinating chromosome segregation with cell division in Caulobacter
    Thanbichler M Cell 126 : 147 ~ 162 [2006]
  • MinJ (YvjD) is a topological determinant of cell division in Bacillus subtilis
    Patrick JE Mol. Microbiol 70 : 1166 ~ 1179 [2008]
  • MinD and role of the deviant Walker A motif, dimerization and membrane binding in oscillation
    Lutkenhaus J. Mol. Microbiol 48 : 295 ~ 303 [2003]
  • Microtubules in bacteria: ancient tubulins build a five-protofilament homolog of the eukaryotic cytoskeleton
    Pilhofer M PLoS Biol 9 : e1001213 ~ [2011]
  • Maturation of the Escherichia coli divisome occurs in two steps
    Aarsman ME Mol. Microbiol 55 : 1631 ~ 1645 [2005]
  • Magnetosomes are cell membrane invaginations organized by the actinlike protein MamK
    Komeili A Science 311 : 242 ~ 245 [2006]
  • Localized dimerization and nucleoid binding drive gradient formation by the bacterial cell division inhibitor MipZ
    Kiekebusch D Mol. Cell 46 : 245 ~ 259 [2012]
  • Investigation of regulation of FtsZ assembly by SulA and development of a model for FtsZ polymerization
    Dajkovic A J. Bacteriol 190 : 2513 ~ 2526 [2008]
  • Intermediate filament-like proteins in bacteria and a cytoskeletal function in Streptomyces
    Bagc hi S Mol. Microbiol 70 : 1037 ~ 1050 [2008]
  • Inhibition of FtsZ polymerization by SulA, an inhibitor of septation in Escherichia coli
    Mukherjee A Proc. Natl. Acad. Sci. USA 95 : 2885 ~ 2890 [1998]
  • Identification of the SlmA active site responsible for blocking bacterial cytokinetic ring assembly over the chromosome
    Cho H PLoS Genet 9 : e1003304 ~ [2013]
  • Genes for the cytoskeletal protein tubulin in the bacterial genus Prosthecobacter
    Jenkins C Proc. Natl. Acad. Sci. USA 99 : 17049 ~ 17054 [2002]
  • FtsZ ring structure associated with division in Escherichia coli
    Bi EF Nature 354 : 161 ~ 164 [1991]
  • FtsZ protofilaments use a hinge-opening mechanism for constrictive force generation
    Li Y Science 341 : 392 ~ 395 [2013]
  • FtsA mutants impaired for self-interaction bypass ZipA suggesting a model in which FtsA’s self-interaction competes with its ability to recruit downstream division proteins
    Pichoff S Mol. Microbiol 83 : 151 ~ 167 [2012]
  • From the regulation of peptidoglycan synthesis to bacterial growth and morphology
    Typas A Nat. Rev. Microbiol 10 : 123 ~ 136 [2012]
  • Filament structure of bacterial tubulin homologue TubZ
    Aylett CH Proc. Natl. Acad. Sci. USA 107 : 19766 ~ 19771 [2010]
  • F-actin-like filaments formed by plasmid segregation protein ParM
    van den Ent F EMBO J 21 : 6935 ~ 6943 [2002]
  • F plasmid partition depends on interaction of SopA with non-specific DNA
    Castaing JP Mol. Microbiol 70 : 1000 ~ 1011 [2008]
  • Evolution of cytomotive filaments:the cytoskeleton from prokaryotes to eukaryotes
    Lowe J Int. J. Biochem. Cell Biol 41 : 323 ~ 329 [2009]
  • Escherichia coli celldivision gene ftsZ encodes a novel GTP-binding protein
    RayChaudhuri D Nature 359 : 251 ~ 254 [1992]
  • Escherichia coli cell division protein FtsZ is a guanine nucleotide binding protein
    Mukherjee A Proc. Natl. Acad. Sci. USA 90 : 1053 ~ 1057 [1993]
  • Dynamic instability in a DNA-segregating prokaryotic actin homolog
    Garner EC Science 306 : 1021 ~ 1025 [2004]
  • Dynamic filaments of the bacterial cytoskeleton
    Michie KA Annu. Rev. Biochem 75 : 467 ~ 492 [2006]
  • Distantly related sequences in the alpha- and beta-subunits of ATP synthase, myosin, kinases and other ATP-requiring enzymes and a common nucleotide binding fold
    105. Walker JE EMBO J 1 : 945 ~ 951 [1982]
  • DNA segregation by the bacterial actin AlfA during Bacillus subtilis growth and development
    Bec ker E EMBO J 25 : 5919 ~ 5931 [2006]
  • Crystal structure of the cell division protein FtsA from Thermotoga maritima
    van den Ent F EMBO J 19 : 5300 ~ 5307 [2000]
  • Crystal structure of the bacterial cell-division protein FtsZ
    Lowe J Nature 391 : 203 ~ 206 [1998]
  • Coupled, circumferential motions of the cell wall synthesis machinery and MreB filaments in B. subtilis
    Garner EC Science 333 : 222 ~ 225 [2011]
  • Coordination of cell division and chromosome segregation by a nucleoid occlusion protein in Bacillus subtilis
    106. Wu LJ Cell 117 : 915 ~ 925 [2004]
  • Control of cell shape in bacteria: helical, actin-like filaments in Bacillus subtilis
    Jones LJ Cell 104 : 913 ~ 922 [2001]
  • Cell-free study of F plasmid partition provides evidence for cargo transport by a diffusion-ratchet mechanism
    100. Vecchiarelli AG Proc. Natl. Acad. Sci. USA 110 : E1390 ~ E1397 [2013]
  • Bacterial shape: two-dimensional questions and possibilities
    Young KD Annu. Rev. Microbiol 64 : 223 ~ 240 [2010]
  • Bacterial mitosis: ParM of plasmid R1moves plasmid DNA by an actin-like insertional polymerization mechanism
    Moller-Jensen J Mol. Cell 12 : 1477 ~ 1487 [2003]
  • Bacterial cytokinesis:from Z ring to divisome
    Lutkenhaus J. Cytoskeleton (Hoboken) 69 : 778 ~ 790 [2012]
  • Bacterial cell shape
    Cabeen MT Nat. Rev. Microbiol 3 : 601 ~ 610 [2005]
  • Bacterial cell division: a swirling ring to rule them all?
    Schwille P. Curr. Biol 24 : R157 ~ R159 [2014]
  • Bacterial cell curvature through mechanical control of cell growth
    Cabeen MT EMBO J 28 : 1208 ~ 1219 [2009]
  • Bacterial actins and their diversity
    Ozyamak E Biochemistry 52 : 6928 ~ 6939 [2013]
  • BacM, an Nterminally processed bactofilin of Myxococcus xanthus, is crucial for proper cell shape
    Koch MK Mol. Microbiol 80 : 1031 ~ 1051 [2011]
  • Bac tofilins, a ubiquitous c lass of cytoskeletal proteins mediating polar localization of a cell wall synthase in Caulobacter crescentus
    Kuhn J EMBO J 29 : 327 ~ 339 [2010]
  • Bac terial tubulin TubZ-Bt transitions between a two-stranded intermediate and a four-stranded filament upon GTP hydrolysis
    Montabana EA Proc. Natl. Acad. Sci. USA 111 : 3407 ~ 3412 [2014]
  • Assembly dynamics of the bacterial MinCDE system and spatial regulation of the Z ring
    Lutkenhaus J. Annu. Rev. Biochem 76 : 539 ~ 562 [2007]
  • An ATPase domain common to prokaryotic cell cycle proteins, sugar kinases, actin and Hsp70 heat shock proteins
    Bork P Proc. Natl. Acad. Sci. USA 89 : 7290 ~ 7294 [1992]
  • Advances in understanding E. coli cell fission
    de Boer PA Curr. Opin. Microbiol 13 : 730 ~ 737 [2010]
  • ATP control of dynamic P1ParA-DNA interactions: a key role for the nucleoid in plasmid partition
    Vecchiarelli AG Mol. Microbiol 78 : 78 ~ 91 [2010]
  • A superfamily of ATPases with diverse functions containing either classical or deviant ATP-binding motif
    Koonin EV J. Mol. Biol 229 : 1165 ~ 1174 [1993]
  • A propagating ATPase gradient drives transport of surfaceconfined cellular cargo
    102. Vecchiarelli AG Proc. Natl. Acad. Sci. USA 111 : 4880 ~ 4885 [2014]
  • A phage tubulin assembles dynamic filaments by an atypical mechanism to center viral DNA within the host cell
    Kraemer JA Cell 149 : 1488 ~ 1499 [2012]
  • A novel system of cytoskeletal elements in the human pathogen Helicobacter pylori
    104. Waidner B PLoS Pathog 5 : e1000669 ~ [2009]
  • A novel membrane protein influencing cell shape and multicellular swarming of Proteus mirabilis
    Hay NA J. Bacteriol 181 : 2008 ~ 2016 [1999]
  • A novel component of the divisionsite selection system of Bacillus subtilis and a new mode of action for the division inhibitor MinCD
    Bramkamp M Mol. Microbiol 70 : 1556 ~ 1569 [2008]
  • A new metabolic cell-wall labelling method reveals peptidoglycan in Chlamydia trachomatis
    Liechti GW Nature 506 : 507 ~ 510 [2014]
  • A dynamic, mitotic-like mechanism for bacterial chromosome segregation
    Fogel MA Genes Dev 20 : 3269 ~ 3282 [2006]
  • A dynamic bacterial cytoskeleton
    Carballido-Lopez R Trends Cell Biol 13 : 577 ~ 583 [2003]
  • A division inhibitor and a topological specificity factor coded for by the minicell locus determine proper placement of the division septum in E. coli
    de Boer PA Cell 56 : 641 ~ 649 [1989]