| scholarly article | Q13442814 |
| P50 | author | Rut Carballido Lopez | Q27667585 |
| P2093 | author name string | Errington J | |
| Jones LJ | |||
| Carballido-López R | |||
| P2860 | cites work | Dynamic movement of the ParA-like Soj protein of B. subtilis and its dual role in nucleoid organization and developmental regulation. | Q52172066 |
| Plasmids designed to alter the antibiotic resistance expressed by insertion mutations in Bacillus subtilis, through in vivo recombination. | Q54205674 | ||
| Dynamic, mitotic-like behavior of a bacterial protein required for accurate chromosome partitioning | Q57990625 | ||
| Bacillus subtilis spoIIIE protein required for DNA segregation during asymmetric cell division | Q57990639 | ||
| GFP vectors for controlled expression and dual labelling of protein fusions in Bacillus subtilis | Q64463132 | ||
| Actin polymerization and ATP hydrolysis | Q69433184 | ||
| Discovering the poles in yeast | Q77057753 | ||
| Signaling to the actin cytoskeleton | Q77803416 | ||
| Atomic structure of the actin:DNase I complex | Q27685392 | ||
| Characterization of a sporulation gene, spoIVA, involved in spore coat morphogenesis in Bacillus subtilis | Q28489048 | ||
| An ATPase domain common to prokaryotic cell cycle proteins, sugar kinases, actin, and hsp70 heat shock proteins | Q29615894 | ||
| Bacillus subtilis possesses a second determinant with extensive sequence similarity to the Escherichia coli mreB morphogene | Q30452534 | ||
| Distinct penicillin binding proteins involved in the division, elongation, and shape of Escherichia coli K12 | Q35085145 | ||
| Characterization of cell cycle events during the onset of sporulation in Bacillus subtilis | Q35589822 | ||
| A complex four-gene operon containing essential cell division gene pbpB in Bacillus subtilis | Q35605648 | ||
| Identification of Bacillus subtilis genes for septum placement and shape determination | Q36132008 | ||
| The divIVB region of the Bacillus subtilis chromosome encodes homologs of Escherichia coli septum placement (minCD) and cell shape (mreBCD) determinants | Q36132013 | ||
| Guanine nucleotide-dependent assembly of FtsZ into filaments | Q39931802 | ||
| Determinations of the DNA sequence of the mreB gene and of the gene products of the mre region that function in formation of the rod shape of Escherichia coli cells | Q39954556 | ||
| Mutant isolation and molecular cloning of mre genes, which determine cell shape, sensitivity to mecillinam, and amount of penicillin-binding proteins in Escherichia coli | Q39962792 | ||
| Compartmentalization of transcription and translation in Bacillus subtilis | Q40387114 | ||
| A neomycin resistance gene cassette selectable in a single copy state in the Bacillus subtilis chromosome. | Q40450373 | ||
| ACTIN: general principles from studies in yeast. | Q41275218 | ||
| Bacterial cell division and the Z ring | Q41550173 | ||
| A vector for systematic gene inactivation in Bacillus subtilis | Q42687685 | ||
| Control of cell shape and elongation by the rodA gene in Bacillus subtilis | Q47986877 | ||
| The nucleotide sequence of the rodC operon of Bacillus subtilis | Q48288888 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | bacteria | Q10876 |
| Bacillus subtilis | Q131238 | ||
| actin filament | Q329638 | ||
| P304 | page(s) | 913-22 | |
| P577 | publication date | 2001-03-23 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | Control of cell shape in bacteria: helical, actin-like filaments in Bacillus subtilis | |
| P478 | volume | 104 |
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| Q42637266 | A Novel indole compound that inhibits Pseudomonas aeruginosa growth by targeting MreB is a substrate for MexAB-OprM |
| Q37628243 | A Spatial Control for Correct Timing of Gene Expression during the Escherichia coli Cell Cycle |
| Q64106351 | A Ubiquitous Platform for Bacterial Nanotube Biogenesis |
| Q47595788 | A bacterial hydrogen-dependent CO2 reductase forms filamentous structures. |
| Q27001708 | A growing family: the expanding universe of the bacterial cytoskeleton |
| Q45307968 | A magnesium-dependent mreB null mutant: implications for the role of mreB in Bacillus subtilis |
| Q35963414 | A mechanical explanation for cytoskeletal rings and helices in bacteria |
| Q44437559 | A mechanism for ParB-dependent waves of ParA, a protein related to DNA segregation during cell division in prokaryotes |
| Q84639400 | A metabolic assembly line in bacteria |
| Q34012848 | A multi-protein complex from Myxococcus xanthus required for bacterial gliding motility. |
| Q28488907 | A new FtsZ-interacting protein, YlmF, complements the activity of FtsA during progression of cell division in Bacillus subtilis |
| Q21131568 | A novel system of cytoskeletal elements in the human pathogen Helicobacter pylori |
| Q41008775 | A prophage-encoded actin-like protein required for efficient viral DNA replication in bacteria. |
| Q64240771 | A specialized MreB-dependent cell wall biosynthetic complex mediates the formation of stalk-specific peptidoglycan in Caulobacter crescentus |
| Q30311136 | A tale of two polymers: new insights into helical filaments |
| Q48176434 | A widely conserved bacterial cytoskeletal component influences unique helical shape and motility of the spirochete Leptospira biflexa |
| Q27674661 | A widespread family of bacterial cell wall assembly proteins |
| Q37633046 | A22 disrupts the bacterial actin cytoskeleton by directly binding and inducing a low-affinity state in MreB |
| Q30572010 | Accessory factors promote AlfA-dependent plasmid segregation by regulating filament nucleation, disassembly, and bundling |
| Q34324082 | Actin homolog MreB and RNA polymerase interact and are both required for chromosome segregation in Escherichia coli |
| Q46668253 | Actin in mung bean mitochondria and implications for its function |
| Q94045269 | Actin's origins |
| Q33927084 | Actin-like cytoskeleton filaments contribute to cell mechanics in bacteria |
| Q28768990 | Adaptive divergence in experimental populations of Pseudomonas fluorescens. I. Genetic and phenotypic bases of wrinkly spreader fitness |
| Q30513984 | Alp7R regulates expression of the actin-like protein Alp7A in Bacillus subtilis |
| Q30499581 | An actin cytoskeleton with evolutionarily conserved functions in the absence of canonical actin-binding proteins |
| Q24680536 | An actin homolog of the archaeon Thermoplasma acidophilum that retains the ancient characteristics of eukaryotic actin |
| Q28307551 | An actin-based cytoskeleton in archaea |
| Q24564256 | An actin-like gene can determine cell polarity in bacteria |
| Q37802430 | An inventory of the bacterial macromolecular components and their spatial organization. |
| Q40328624 | Analysis of Lactobacillus sakei mutants selected after adaptation to the gastrointestinal tracts of axenic mice |
| Q79366712 | Another cytoskeleton in the closet |
| Q36314854 | Antigen 84, an effector of pleiomorphism in Mycobacterium smegmatis. |
| Q50651061 | Archaeal Actin-Family Filament Systems. |
| Q28946356 | Architecture and Assembly of a Divergent Member of the ParM Family of Bacterial Actin-like Proteins |
| Q30484414 | Assemblies of DivIVA mark sites for hyphal branching and can establish new zones of cell wall growth in Streptomyces coelicolor |
| Q33972949 | Assembly Dynamics of the Bacterial Cell Division Protein FtsZ: Poised at the Edge of Stability |
| Q27317320 | Assembly and development of the Pseudomonas aeruginosa biofilm matrix |
| Q83131177 | Assembly properties of the Bacillus subtilis actin, MreB |
| Q74083515 | Asymmetric cell division in B. subtilis involves a spiral-like intermediate of the cytokinetic protein FtsZ |
| Q24595483 | BacM, an N-terminally processed bactofilin of Myxococcus xanthus, is crucial for proper cell shape |
| Q84584615 | Bacillus anthracis tubulin-related protein Ba-TubZ assembles force-generating polymers |
| Q27314558 | Bacillus subtilis MreB orthologs self-organize into filamentous structures underneath the cell membrane in a heterologous cell system |
| Q46289520 | Bacillus subtilis MreB paralogues have different filament architectures and lead to shape remodelling of a heterologous cell system |
| Q24806301 | Bacillus subtilis actin-like protein MreB influences the positioning of the replication machinery and requires membrane proteins MreC/D and other actin-like proteins for proper localization |
| Q92000734 | Bacillus subtilis cell diameter is determined by the opposing actions of two distinct cell wall synthetic systems |
| Q34512475 | Bacteria make tracks to the pole |
| Q37661606 | Bacteria that glide with helical tracks. |
| Q46275108 | Bacterial Actins |
| Q39000150 | Bacterial Actins and Their Interactors |
| Q39407381 | Bacterial Cell Mechanics. |
| Q41963127 | Bacterial DNA segregation dynamics mediated by the polymerizing protein ParF. |
| Q27026944 | Bacterial Filament Systems: Toward Understanding Their Emergent Behavior and Cellular Functions |
| Q24614165 | Bacterial actin MreB assembles in complex with cell shape protein RodZ. |
| Q27683843 | Bacterial actin MreB forms antiparallel double filaments |
| Q28083563 | Bacterial actin and tubulin homologs in cell growth and division |
| Q41862735 | Bacterial actin-like proteins: purification and characterization of self-assembly properties |
| Q27001005 | Bacterial actins and their diversity |
| Q34596152 | Bacterial actins? An evolutionary perspective |
| Q30487655 | Bacterial cell curvature through mechanical control of cell growth |
| Q35145616 | Bacterial cell division spirals into control |
| Q38799766 | Bacterial cell morphogenesis does not require a preexisting template structure |
| Q28261252 | Bacterial cell shape |
| Q37270248 | Bacterial cell wall biogenesis is mediated by SEDS and PBP polymerase families functioning semi-autonomously |
| Q34474627 | Bacterial cell wall synthesis: new insights from localization studies |
| Q43178884 | Bacterial cell wall: thinking globally, actin locally. |
| Q38034197 | Bacterial cytokinesis: From Z ring to divisome |
| Q41871778 | Bacterial cytoskeleton suprastructures and their physical origin |
| Q34655886 | Bacterial growth and cell division: a mycobacterial perspective |
| Q37194371 | Bacterial intermediate filaments: in vivo assembly, organization, and dynamics of crescentin |
| Q35689039 | Bacterial mitotic machineries. |
| Q53646974 | Bacterial morphogenesis and the enigmatic MreB helix. |
| Q28748834 | Bacterial motility complexes require the actin-like protein, MreB and the Ras homologue, MglA |
| Q37081704 | Bacterial peptidoglycan (murein) hydrolases |
| Q37786337 | Bacterial shape: two-dimensional questions and possibilities |
| Q30493728 | Bacterial translation elongation factor EF-Tu interacts and colocalizes with actin-like MreB protein |
| Q24645624 | Bactofilins, a ubiquitous class of cytoskeletal proteins mediating polar localization of a cell wall synthase in Caulobacter crescentus |
| Q30479355 | Biogenesis of actin-like bacterial cytoskeletal filaments destined for positioning prokaryotic magnetic organelles |
| Q51148723 | CRISPRi engineering E. coli for morphology diversification. |
| Q33700256 | Caulobacter crescentus requires RodA and MreB for stalk synthesis and prevention of ectopic pole formation |
| Q42369014 | CbtA toxin of Escherichia coli inhibits cell division and cell elongation via direct and independent interactions with FtsZ and MreB |
| Q51004570 | Cell Cycle Machinery in Bacillus subtilis. |
| Q92459674 | Cell Shape and Antibiotic Resistance Are Maintained by the Activity of Multiple FtsW and RodA Enzymes in Listeria monocytogenes |
| Q53506092 | Cell biology. Bacteria's new bones. |
| Q91714697 | Cell biomechanics and mechanobiology in bacteria: Challenges and opportunities |
| Q27320073 | Cell division site placement and asymmetric growth in mycobacteria |
| Q24601132 | Cell mechanics and the cytoskeleton |
| Q100761968 | Cell morphology maintenance in Bacillus subtilis through balanced peptidoglycan synthesis and hydrolysis |
| Q36581229 | Cell sorting enriches Escherichia coli mutants that rely on peptidoglycan endopeptidases to suppress highly aberrant morphologies |
| Q36475457 | Cell wall assembly in Bacillus subtilis: how spirals and spaces challenge paradigms. |
| Q54441412 | Cell wall growth during elongation and division: one ring to bind them? |
| Q30311040 | Cell walls, cell shape, and bacterial actin homologs |
| Q88918474 | Cell-Wall Recycling of the Gram-Negative Bacteria and the Nexus to Antibiotic Resistance |
| Q30480937 | Changes in nucleoid morphology and origin localization upon inhibition or alteration of the actin homolog, MreB, of Vibrio cholerae. |
| Q42323064 | Changes of lipid domains in Bacillus subtilis cells with disrupted cell wall peptidoglycan. |
| Q53026245 | Characterization of a Corynebacterium glutamicum dnaB mutant that shows temperature-sensitive growth and mini-cell formation. |
| Q39887854 | Characterization of a spontaneous nonmagnetic mutant of Magnetospirillum gryphiswaldense reveals a large deletion comprising a putative magnetosome island |
| Q48109563 | Characterization of cytoplasmic fibril structures found in gliding cells of Saprospira sp. |
| Q45750809 | Characterization of the elongasome core PBP2 : MreC complex of Helicobacter pylori |
| Q82496484 | Chemostat-induced uneven division of Bacillus subtilis |
| Q90371577 | Chiral twisting in a bacterial cytoskeletal polymer affects filament size and orientation |
| Q37848764 | Chlamydia co-opts the rod shape-determining proteins MreB and Pbp2 for cell division |
| Q89766939 | Chlamydial MreB Directs Cell Division and Peptidoglycan Synthesis in Escherichia coli in the Absence of FtsZ Activity |
| Q54439446 | Chromosome segregation control by Escherichia coli ObgE GTPase. |
| Q27317548 | Chromosome segregation impacts on cell growth and division site selection in Corynebacterium glutamicum |
| Q34990528 | Chromosome segregation: pushing plasmids apart |
| Q39677707 | Coarse-Grained Molecular Dynamics Simulations of the Bacterial Cell Wall |
| Q27323934 | Coarse-grained simulations of bacterial cell wall growth reveal that local coordination alone can be sufficient to maintain rod shape |
| Q57910522 | Colocalization and interaction between elongasome and divisome during a preparative cell division phase inEscherichia coli |
| Q50489663 | Colonization of Caenorhabditis elegans by Bacillus nematocida B16, a bacterial opportunistic pathogen. |
| Q36647264 | Comparative Genomics of Candidate Phylum TM6 Suggests That Parasitism Is Widespread and Ancestral in This Lineage. |
| Q33839548 | Comparative analysis on the membrane proteome of Clostridium acetobutylicum wild type strain and its butanol-tolerant mutant |
| Q38024839 | Compartmentalization and spatiotemporal organization of macromolecules in bacteria |
| Q35798772 | Compartmentalization of gene expression during Bacillus subtilis spore formation |
| Q40959781 | Complete genome sequence of Microbulbifer sp. CCB-MM1, a halophile isolated from Matang Mangrove Forest, Malaysia |
| Q36974654 | Complete genomes of two dipteran-associated spiroplasmas provided insights into the origin, dynamics, and impacts of viral invasion in spiroplasma |
| Q28546365 | Comprehensive analysis of temporal alterations in cellular proteome of Bacillus subtilis under curcumin treatment |
| Q42133021 | Conditional lethality, division defects, membrane involution, and endocytosis in mre and mrd shape mutants of Escherichia coli. |
| Q37776676 | Conformational dynamics of actin: effectors and implications for biological function. |
| Q64073921 | Conservation of conformational dynamics across prokaryotic actins |
| Q30855426 | Contrasting mechanisms of growth in two model rod-shaped bacteria. |
| Q39753954 | Contribution of Aggregation-Promoting Factor to Maintenance of Cell Shape in Lactobacillus gasseri 4B2 |
| Q44565127 | Control of Bacillus subtilis cell shape by RodZ. |
| Q33187415 | Control of cell morphogenesis in bacteria: two distinct ways to make a rod-shaped cell |
| Q36942466 | Controlled biomineralization by and applications of magnetotactic bacteria |
| Q24658189 | Controlling the shape of filamentous cells of Escherichia coli |
| Q24629706 | Coupled, circumferential motions of the cell wall synthesis machinery and MreB filaments in B. subtilis |
| Q49307540 | CozE is a member of the MreCD complex that directs cell elongation in Streptococcus pneumoniae. |
| Q27681561 | Crenactin fromPyrobaculum calidifontisis closely related to actin in structure and forms steep helical filaments |
| Q34339951 | Crosstalk between DnaA protein, the initiator of Escherichia coli chromosomal replication, and acidic phospholipids present in bacterial membranes |
| Q50026225 | Cryo-EM reconstruction of AlfA from Bacillus subtilis reveals the structure of a simplified actin-like filament at 3.4-Å resolution. |
| Q40665135 | Curvature and shape determination of growing bacteria |
| Q33186319 | Cytokinesis in bacteria |
| Q58829595 | Cytological analysis and structural quantification of FtsZ1-2 and FtsZ2-1 network characteristics in Physcomitrella patens |
| Q36597257 | Cytoskeletal cytoplasmic filament ribbon of Treponema: a member of an intermediate-like filament protein family |
| Q34567018 | Cytoskeletal elements in bacteria Mycoplasma pneumoniae, Thermoanaerobacterium sp., and Escherichia coli as revealed by electron microscopy |
| Q53180038 | Cytoskeletal protein expression and its association within the hydrophobic membrane of artificial cell models. |
| Q38000559 | Cytoskeletal proteins of actinobacteria. |
| Q55035194 | Cytoskeleton. Evolution in bacteria. |
| Q46723861 | DNA segregation by bacterial actin homologs |
| Q41422679 | Deletion of glucose-inhibited division (gidA) gene alters the morphological and replication characteristics of Salmonella enterica Serovar typhimurium. |
| Q39455734 | Determinants of Bacterial Morphology: From Fundamentals to Possibilities for Antimicrobial Targeting |
| Q37008352 | Determination of bacterial rod shape by a novel cytoskeletal membrane protein. |
| Q34838601 | Differentiated roles for MreB-actin isologues and autolytic enzymes in Bacillus subtilis morphogenesis |
| Q27644409 | Dimeric structure of the cell shape protein MreC and its functional implications |
| Q30541334 | Direct interaction of FtsZ and MreB is required for septum synthesis and cell division in Escherichia coli |
| Q35185171 | Direct membrane binding by bacterial actin MreB. |
| Q57990571 | Dispersed mode of Staphylococcus aureus cell wall synthesis in the absence of the division machinery |
| Q27653861 | Distinct and essential morphogenic functions for wall- and lipo-teichoic acids in Bacillus subtilis |
| Q91219541 | DivIVA concentrates mycobacterial cell envelope assembly for initiation and stabilization of polar growth |
| Q36129348 | Diversity and redundancy in bacterial chromosome segregation mechanisms |
| Q24670099 | Division site selection in Escherichia coli involves dynamic redistribution of Min proteins within coiled structures that extend between the two cell poles |
| Q47869494 | Don't let sleeping dogmas lie: new views of peptidoglycan synthesis and its regulation |
| Q36140646 | Duplication and segregation of the actin (MreB) cytoskeleton during the prokaryotic cell cycle |
| Q51152158 | Dynamic and Active Proteins: Biomolecular Motors in Engineered Nanostructures. |
| Q35012143 | Dynamic cellular location of bacterial plasmids |
| Q36958156 | Dynamic localization of MreB in Vibrio parahaemolyticus and in the ectopic host bacterium Escherichia coli |
| Q30476416 | Dynamic movement of actin-like proteins within bacterial cells |
| Q53657569 | Dynamic proteins and a cytoskeleton in bacteria. |
| Q35012113 | Dynamic proteins in bacteria |
| Q42005238 | Dynamics of FtsZ assembly during sporulation in Streptomyces coelicolor A3(2). |
| Q37494620 | Dynamics of bacterial cytoskeletal elements |
| Q33530128 | Dynamics of the bacterial intermediate filament crescentin in vitro and in vivo |
| Q46442747 | Dynamics of the peptidoglycan biosynthetic machinery in the stalked budding bacterium Hyphomonas neptunium |
| Q39927847 | Dysfunctional MreB inhibits chromosome segregation in Escherichia coli. |
| Q33409353 | Ecophysiology of "Halarsenatibacter silvermanii" strain SLAS-1T, gen. nov., sp. nov., a facultative chemoautotrophic arsenate respirer from salt-saturated Searles Lake, California |
| Q64087528 | Effect of A22 on the Conformation of Bacterial Actin MreB |
| Q51600755 | Effects of MreB paralogs on poly-γ-glutamic acid synthesis and cell morphology in Bacillus amyloliquefaciens. |
| Q30573803 | Effects of polymerization and nucleotide identity on the conformational dynamics of the bacterial actin homolog MreB. |
| Q28252959 | Electron tomography of cells |
| Q93376314 | Emergence of Escherichia coli critically buckled motile helices under stress |
| Q30048607 | Engineering the bacterial shapes for enhanced inclusion bodies accumulation |
| Q39694743 | Epr is transcribed from a final sigma(D) promoter and is involved in swarming of Bacillus subtilis |
| Q30494952 | Escherichia coli DnaA forms helical structures along the longitudinal cell axis distinct from MreB filaments |
| Q39702006 | Essential Genes Predicted in the Genome of Rubrivivax gelatinosus |
| Q28488913 | Essential nature of the mreC determinant of Bacillus subtilis |
| Q24645360 | Evolution of the cytoskeleton |
| Q21203752 | Evolution of vacuolar proton pyrophosphatase domains and volutin granules: clues into the early evolutionary origin of the acidocalcisome |
| Q48274534 | Exclusion of assembled MreB by anionic phospholipids at cell poles confers cell polarity for bidirectional growth |
| Q37603036 | Exploring bacterial cell biology with single-molecule tracking and super-resolution imaging |
| Q50514646 | Expression of membrane-associated proteins within single emulsion cell facsimiles. |
| Q27640173 | F-actin-like filaments formed by plasmid segregation protein ParM |
| Q34103533 | Filament structure, organization, and dynamics in MreB sheets |
| Q33726897 | Flavobacterium johnsoniae GldJ is a lipoprotein that is required for gliding motility. |
| Q34996839 | Force and compliance: rethinking morphogenesis in walled cells |
| Q34243154 | Force volume and stiffness tomography investigation on the dynamics of stiff material under bacterial membranes. |
| Q28770085 | Formation of an actin-like filament concurrent with the enzymatic synthesis of inorganic polyphosphate |
| Q39660798 | FraH is required for reorganization of intracellular membranes during heterocyst differentiation in Anabaena sp. strain PCC 7120. |
| Q34470731 | From bacteria to mollusks: the principles underlying the biomineralization of iron oxide materials |
| Q38121108 | From models to pathogens: how much have we learned about Streptococcus pneumoniae cell division? |
| Q33694168 | From the regulation of peptidoglycan synthesis to bacterial growth and morphology. |
| Q37925360 | From water and ions to crowded biomacromolecules: in vivo structuring of a prokaryotic cell |
| Q37205108 | FtsEX is required for CwlO peptidoglycan hydrolase activity during cell wall elongation in Bacillus subtilis. |
| Q35949290 | FtsZ directs a second mode of peptidoglycan synthesis in Escherichia coli |
| Q36590750 | FtsZ exhibits rapid movement and oscillation waves in helix-like patterns in Escherichia coli |
| Q37236303 | FtsZ-Dependent Elongation of a Coccoid Bacterium |
| Q38313221 | Functional analysis of glucan binding protein B from Streptococcus mutans |
| Q37663352 | Functional analysis of the cell division protein FtsW of Escherichia coli |
| Q34055523 | Functional analysis of the cytoskeleton protein MreB from Chlamydophila pneumoniae |
| Q34054757 | Functional characterization and localization of a Bacillus subtilis sortase and its substrate and use of this sortase system to covalently anchor a heterologous protein to the B. subtilis cell wall for surface display |
| Q41596217 | Functional insights into pathogen biology from 3D electron microscopy |
| Q24671609 | Functional taxonomy of bacterial hyperstructures |
| Q30427690 | Fungal lectin of Peltigera canina induces chemotropism of compatible Nostoc cells by constriction-relaxation pulses of cyanobiont cytoskeleton |
| Q34303397 | GTPase activity, structure, and mechanical properties of filaments assembled from bacterial cytoskeleton protein MreB. |
| Q46054906 | General response of Salmonella enterica serovar Typhimurium to desiccation: A new role for the virulence factors sopD and sseD in survival. |
| Q37280089 | Genetic mechanism regulating bacterial cell shape and metabolism. |
| Q33704461 | Getting in the loop: regulation of development in Caulobacter crescentus. |
| Q38241196 | Getting into shape: How do rod-like bacteria control their geometry? |
| Q37024474 | Getting organized--how bacterial cells move proteins and DNA. |
| Q33349151 | Gliding motility revisited: how do the myxobacteria move without flagella? |
| Q33714647 | Helical disposition of proteins and lipopolysaccharide in the outer membrane of Escherichia coli |
| Q42383496 | Helical distribution of the bacterial chemoreceptor via colocalization with the Sec protein translocation machinery |
| Q35845001 | Helical insertion of peptidoglycan produces chiral ordering of the bacterial cell wall. |
| Q38884828 | Host actin polymerization tunes the cell division cycle of an intracellular pathogen. |
| Q88167046 | Host-Polarized Cell Growth in Animal Symbionts |
| Q34968961 | How did cells get their size? |
| Q34637202 | How do membrane proteins sense water stress? |
| Q88011723 | How to Build a Bacterial Cell: MreB as the Foreman of E. coli Construction |
| Q38129304 | How to get (a)round: mechanisms controlling growth and division of coccoid bacteria |
| Q89556317 | Identification and characterization of novel filament-forming proteins in cyanobacteria |
| Q51449936 | Identification of pneumococcal proteins that are functionally linked to penicillin-binding protein 2b (PBP2b). |
| Q39650342 | Identification of proteins involved in the heat stress response of Bacillus cereus ATCC 14579. |
| Q34984274 | Imaging peptidoglycan biosynthesis in Bacillus subtilis with fluorescent antibiotics |
| Q37191701 | In Escherichia coli, MreB and FtsZ direct the synthesis of lateral cell wall via independent pathways that require PBP 2. |
| Q36321571 | In vitro assembly and GTP hydrolysis by bacterial tubulins BtubA and BtubB. |
| Q37389993 | In vivo localizations of membrane stress controllers PspA and PspG in Escherichia coli |
| Q30497367 | Independent segregation of the two arms of the Escherichia coli ori region requires neither RNA synthesis nor MreB dynamics. |
| Q35557079 | Insights into the cellular function of YhdE, a nucleotide pyrophosphatase from Escherichia coli |
| Q46271159 | Integrating Cellular and Bioprocess Engineering in the Non-Conventional Yeast Yarrowia lipolytica for Biodiesel Production: A Review |
| Q53390080 | Integrative microbiology — the third Golden Age |
| Q41361049 | Interaction sites of DivIVA and RodA from Corynebacterium glutamicum |
| Q52638914 | Intermediate filament protein evolution and protists. |
| Q43130288 | Intermediate filament-like proteins in bacteria and a cytoskeletal function in Streptomyces |
| Q34056749 | Interplay between two bacterial actin homologs, MamK and MamK-Like, is required for the alignment of magnetosome organelles in Magnetospirillum magneticum AMB-1 |
| Q42956131 | Intracellular dynamics of bacterial proteins are revealed by super-resolution microscopy |
| Q97595718 | Intracellular ion concentrations and cation-dependent remodelling of bacterial MreB assemblies |
| Q55283372 | Is Longitudinal Division in Rod-Shaped Bacteria a Matter of Swapping Axis? |
| Q93955405 | Keeping bugs in shape |
| Q54325390 | Let's get 'Fisical' with bacterial nucleoid. |
| Q33408535 | Life without a wall or division machine in Bacillus subtilis |
| Q37448941 | Lipid-II Independent Antimicrobial Mechanism of Nisin Depends On Its Crowding And Degree Of Oligomerization. |
| Q28488860 | Localization and interactions of teichoic acid synthetic enzymes in Bacillus subtilis |
| Q35576514 | Localization of MglA, an essential gliding motility protein in Myxococcus xanthus |
| Q40730548 | Localization of MreB in Rhodobacter sphaeroides under conditions causing changes in cell shape and membrane structure |
| Q28488945 | Localization of proteins to different layers and regions of Bacillus subtilis spore coats |
| Q43260897 | Localization of the Bacillus subtilis murB gene within the dcw cluster is important for growth and sporulation. |
| Q38421074 | Localization of the bacterial RNA infrastructure |
| Q24594321 | Long helical filaments are not seen encircling cells in electron cryotomograms of rod-shaped bacteria |
| Q30838726 | Long-term microfluidic tracking of coccoid cyanobacterial cells reveals robust control of division timing |
| Q34746913 | LytR-CpsA-Psr enzymes as determinants of Bacillus anthracis secondary cell wall polysaccharide assembly |
| Q42917947 | Manipulating each MreB of Bdellovibrio bacteriovorus gives diverse morphological and predatory phenotypes |
| Q37848465 | Many ways to build an actin filament |
| Q34768446 | Mass distribution and spatial organization of the linear bacterial motor of Spiroplasma citri R8A2. |
| Q35106706 | Mechanical control of bacterial cell shape |
| Q64242572 | Mechanics and dynamics of translocating MreB filaments on curved membranes |
| Q34461874 | Mechanisms of bacterial morphogenesis: evolutionary cell biology approaches provide new insights. |
| Q39098469 | Membrane remodeling and organization: Elements common to prokaryotes and eukaryotes. |
| Q42673179 | Microarray analysis of the Bacillus subtilis K-state: genome-wide expression changes dependent on ComK. |
| Q41787631 | Microtubule Dynamics may Embody a Stationary Bipolarity Forming Mechanism Related to the Prokaryotic Division Site Mechanism (Pole-to-Pole Oscillations). |
| Q37596235 | Modes of cell wall growth differentiation in rod-shaped bacteria |
| Q30308382 | Molecular evolution: actin's long lost relative found. |
| Q36337118 | Molecules into cells: specifying spatial architecture |
| Q30541938 | Motion of variable-length MreB filaments at the bacterial cell membrane influences cell morphology. |
| Q61807387 | MreB Forms Subdiffraction Nanofilaments during Active Growth in Bacillus subtilis |
| Q30493485 | MreB drives de novo rod morphogenesis in Caulobacter crescentus via remodeling of the cell wall |
| Q54268636 | MreB filaments align along greatest principal membrane curvature to orient cell wall synthesis. |
| Q50731367 | MreB of Streptomyces coelicolor is not essential for vegetative growth but is required for the integrity of aerial hyphae and spores. |
| Q27310944 | MreB-Dependent Inhibition of Cell Elongation during the Escape from Competence in Bacillus subtilis |
| Q38988975 | Multi-color imaging of the bacterial nucleoid and division proteins with blue, orange, and near-infrared fluorescent proteins |
| Q38082416 | Multidimensional view of the bacterial cytoskeleton |
| Q36689986 | Mutations in cell elongation genes mreB, mrdA and mrdB suppress the shape defect of RodZ-deficient cells |
| Q30402576 | Mutations in the nucleotide binding pocket of MreB can alter cell curvature and polar morphology in Caulobacter. |
| Q38027926 | Nanomechanics of superbugs and superdrugs: new frontiers in nanomedicine |
| Q40364676 | Natural transformation occurs independently of the essential actin-like MreB cytoskeleton in Legionella pneumophila |
| Q30495051 | Near-isotropic 3D optical nanoscopy with photon-limited chromophores |
| Q35544343 | Nisin-induced changes in Bacillus morphology suggest a paradigm of antibiotic action. |
| Q44322297 | Novel S-benzylisothiourea compound that induces spherical cells in Escherichia coli probably by acting on a rod-shape-determining protein(s) other than penicillin-binding protein 2. |
| Q36898419 | Novel inner membrane retention signals in Pseudomonas aeruginosa lipoproteins |
| Q38121514 | Nucleotide-independent cytoskeletal scaffolds in bacteria |
| Q36469404 | Orchestrating bacterial cell morphogenesis. |
| Q57369576 | Organization of a sterol-rich membrane domain by cdc15p during cytokinesis in fission yeast |
| Q31153623 | Organization of ribosomes and nucleoids in Escherichia coli cells during growth and in quiescence |
| Q36991053 | Overview of cell shape: cytoskeletons shape bacterial cells |
| Q51004582 | Overview of the Diverse Roles of Bacterial and Archaeal Cytoskeletons. |
| Q45382073 | PBP deletion mutants of Escherichia coli exhibit irregular distribution of MreB at the deformed zones |
| Q34353932 | ParABS systems of the four replicons of Burkholderia cenocepacia: new chromosome centromeres confer partition specificity |
| Q33296433 | Peptide signals encode protein localization |
| Q24632784 | Peptidoglycan crosslinking relaxation promotes Helicobacter pylori's helical shape and stomach colonization |
| Q34514614 | Peptidoglycan synthesis in the absence of class A penicillin-binding proteins in Bacillus subtilis |
| Q33709570 | Peptidoglycan synthesis machinery in Agrobacterium tumefaciens during unipolar growth and cell division |
| Q34536939 | Perspectives on the origin of microfilaments, microtubules, the relevant chaperonin system and cytoskeletal motors--a commentary on the spirochaete origin of flagella |
| Q42926353 | Phylogenetic analysis identifies many uncharacterized actin-like proteins (Alps) in bacteria: regulated polymerization, dynamic instability and treadmilling in Alp7A. |
| Q35035040 | Plastid division: its origins and evolution |
| Q39260293 | Polar localization of MreB actin is inhibited by anionic phospholipids in the rod-shaped bacterium Escherichia coli. |
| Q39714234 | Polar targeting of DivIVA in Bacillus subtilis is not directly dependent on FtsZ or PBP 2B |
| Q35350393 | Polarity and the diversity of growth mechanisms in bacteria |
| Q36924470 | Polymerization properties of the Thermotoga maritima actin MreB: roles of temperature, nucleotides, and ions |
| Q30479125 | Positioning of chemosensory clusters in E. coli and its relation to cell division |
| Q33937861 | Presence of multiple sites containing polar material in spherical Escherichia coli cells that lack MreB. |
| Q34189431 | Processive movement of MreB-associated cell wall biosynthetic complexes in bacteria. |
| Q24536852 | Prokaryotic DNA segregation by an actin-like filament |
| Q26863259 | Prokaryotic cells: structural organisation of the cytoskeleton and organelles |
| Q49884401 | Prokaryotic cytoskeletons: protein filaments organizing small cells. |
| Q35058346 | Prokaryotic development: emerging insights |
| Q27634702 | Prokaryotic origin of the actin cytoskeleton |
| Q50510058 | Protein expression, aggregation, and triggered release from polymersomes as artificial cell-like structures. |
| Q34367625 | Protein localization by recognition of membrane curvature |
| Q37746454 | Protein subcellular localization in bacteria |
| Q42686670 | Proteins encoded by the mre gene cluster in Streptomyces coelicolor A3(2) cooperate in spore wall synthesis |
| Q39753275 | Proteomic characterization of a selenium-metabolizing probiotic Lactobacillus reuteri Lb2 BM for nutraceutical applications |
| Q51821457 | Pulling helices inside bacteria: imperfect helices and rings. |
| Q30415042 | Purification and characterization of Escherichia coli MreB protein |
| Q27328976 | Quantitative image analysis and modeling indicate the Agrobacterium tumefaciens type IV secretion system is organized in a periodic pattern of foci |
| Q34810007 | RNA localization in bacteria. |
| Q33270006 | RNaseE and the other constituents of the RNA degradosome are components of the bacterial cytoskeleton |
| Q34446386 | Reconstructing/deconstructing the earliest eukaryotes: how comparative genomics can help |
| Q35152892 | Reconstruction of mreB expression in Staphylococcus aureus via a collection of new integrative plasmids |
| Q38282693 | Reduction in membrane phosphatidylglycerol content leads to daptomycin resistance in Bacillus subtilis |
| Q54458027 | Regular cellular distribution of plasmids by oscillating and filament-forming ParA ATPase of plasmid pB171. |
| Q30503927 | Regulated shift from helical to polar localization of Listeria monocytogenes cell wall-anchored proteins. |
| Q39013174 | Regulation of bacterial cell wall growth |
| Q95327135 | Regulation of peptidoglycan synthesis and remodelling |
| Q36597246 | Resolving chromosome segregation in bacteria |
| Q44127976 | Reversible unfolding of FtsZ cell division proteins from archaea and bacteria. Comparison with eukaryotic tubulin folding and assembly |
| Q43153843 | Ring, helix, sphere and cylinder: the basic geometry of prokaryotic cell division |
| Q42105686 | RodZ (YfgA) is required for proper assembly of the MreB actin cytoskeleton and cell shape in E. coli. |
| Q36155355 | RodZ links MreB to cell wall synthesis to mediate MreB rotation and robust morphogenesis |
| Q35194777 | RodZ regulates the post-transcriptional processing of the Shigella sonnei type III secretion system |
| Q37079064 | RodZ, a component of the bacterial core morphogenic apparatus |
| Q42154769 | RodZ, a new player in bacterial cell morphogenesis |
| Q92505953 | RodZ: a key-player in cell elongation and cell division in Escherichia coli |
| Q37245599 | Role of polyphosphates in microbial adaptation to extreme environments |
| Q28489009 | Roles for MreC and MreD proteins in helical growth of the cylindrical cell wall in Bacillus subtilis |
| Q41468688 | Route of intrabacterial nanotransportation system for CagA in Helicobacter pylori |
| Q37631271 | Sculpting the bacterial cell |
| Q30821174 | Segregation of prokaryotic magnetosomes organelles is driven by treadmilling of a dynamic actin-like MamK filament |
| Q92437198 | Sensitivity of Deinococcus grandis rodZ deletion mutant to calcium ions results in enhanced spheroplast size |
| Q46348678 | Sensors: Good vibrations for bad bacteria |
| Q42034994 | SepF increases the assembly and bundling of FtsZ polymers and stabilizes FtsZ protofilaments by binding along its length |
| Q30570491 | Septal localization of forespore membrane proteins during engulfment in Bacillus subtilis |
| Q52881708 | Shape dynamics of growing cell walls. |
| Q35788104 | Shaping and moving a spiroplasma |
| Q30477816 | Single molecules of the bacterial actin MreB undergo directed treadmilling motion in Caulobacter crescentus |
| Q36119626 | Skin and bones: the bacterial cytoskeleton, cell wall, and cell morphogenesis |
| Q47071309 | Small GTPases and the evolution of the eukaryotic cell |
| Q38792751 | Spatial Organization of Cell Wall-Anchored Proteins at the Surface of Gram-Positive Bacteria |
| Q36328800 | Spatial control of bacterial division-site placement |
| Q30483645 | Spatial organization of a replicating bacterial chromosome |
| Q30490562 | Spatiotemporal patterns and transcription kinetics of induced RNA in single bacterial cells. |
| Q35546639 | Stable propagation of ‘selfish’ genetic elements |
| Q93054722 | Status of Targeting MreB for the Development of Antibiotics |
| Q26748117 | Structural Insights into Protein-Protein Interactions Involved in Bacterial Cell Wall Biogenesis |
| Q37223884 | Structural frameworks for considering microbial protein- and nucleic acid-dependent motor ATPases |
| Q35041081 | Structural insights into actin-binding, branching and bundling proteins |
| Q27689089 | Structure of crenactin, an archaeal actin homologue active at 90°C |
| Q50074352 | Structure-activity relationship study of the bacterial actin-like protein MreB inhibitors: effects of substitution of benzyl group in S-benzylisothiourea. |
| Q35082843 | Studying biomolecule localization by engineering bacterial cell wall curvature |
| Q50420153 | Subcellular Organization: A Critical Feature of Bacterial Cell Replication. |
| Q37364101 | Subcellular localization of a bacterial regulatory RNA. |
| Q64122390 | Successive Paradigm Shifts in the Bacterial Cell Cycle and Related Subjects |
| Q110693627 | Sulfuriroseicoccus oceanibius gen. nov., sp. nov., a representative of the phylum Verrucomicrobia with a special cytoplasmic membrane |
| Q30584809 | Super-resolution imaging and tracking of protein-protein interactions in sub-diffraction cellular space |
| Q89695659 | Superstructure formation by RodZ hexamers of Shigella sonnei maintains the rod shape of bacilli |
| Q37974611 | Supramolecular cellular filament systems: how and why do they form? |
| Q36419870 | Supramolecular structure in the membrane of Staphylococcus aureus. |
| Q36346800 | Surfing biological surfaces: exploiting the nucleoid for partition and transport in bacteria |
| Q35471361 | Systematic perturbation of cytoskeletal function reveals a linear scaling relationship between cell geometry and fitness |
| Q36230795 | Taking shape: control of bacterial cell wall biosynthesis |
| Q41771084 | Temporal Regulation of the Bacillus subtilis Acetylome and Evidence for a Role of MreB Acetylation in Cell Wall Growth. |
| Q34400717 | Tethering the Z ring to the membrane through a conserved membrane targeting sequence in FtsA. |
| Q57990580 | The Bacterial Cytoskeleton |
| Q47286595 | The GTPase function of YvcJ and its subcellular relocalization are dependent on growth conditions in Bacillus subtilis |
| Q46785698 | The MreB and Min cytoskeletal-like systems play independent roles in prokaryotic polar differentiation |
| Q41874533 | The MreB-like protein Mbl of Streptomyces coelicolor A3(2) depends on MreB for proper localization and contributes to spore wall synthesis |
| Q57291173 | The Multifaceted Antibacterial Mechanisms of the Pioneering Peptide Antibiotics Tyrocidine and Gramicidin S |
| Q34138268 | The ParMRC system: molecular mechanisms of plasmid segregation by actin-like filaments |
| Q30540429 | The Rcs stress response and accessory envelope proteins are required for de novo generation of cell shape in Escherichia coli |
| Q41598004 | The Structure, Function and Roles of the Archaeal ESCRT Apparatus |
| Q33341572 | The TagB protein in Bacillus subtilis 168 is an intracellular peripheral membrane protein that can incorporate glycerol phosphate onto a membrane-bound acceptor in vitro |
| Q30489509 | The actin-like MreB cytoskeleton organizes viral DNA replication in bacteria. |
| Q35106880 | The archaeal cell cycle: current issues |
| Q35876950 | The architecture of the murein (peptidoglycan) in gram-negative bacteria: vertical scaffold or horizontal layer(s)? |
| Q45153421 | The assembly of MreB, a prokaryotic homolog of actin |
| Q42370908 | The bacterial Sec system is required for the organization and function of the MreB cytoskeleton. |
| Q36596302 | The bacterial actin MamK: in vitro assembly behavior and filament architecture |
| Q24672588 | The bacterial actin-like cytoskeleton |
| Q24669907 | The bacterial cytoskeleton |
| Q28480402 | The bacterial cytoskeleton modulates motility, type 3 secretion, and colonization in Salmonella |
| Q28191523 | The bacterial cytoskeleton: an intermediate filament-like function in cell shape |
| Q30537603 | The bacterial cytoskeleton: more than twisted filaments |
| Q28544946 | The bactofilin cytoskeleton protein BacM of Myxococcus xanthus forms an extended β-sheet structure likely mediated by hydrophobic interactions |
| Q55034682 | The biomechanical role of overall-shape transformation in a primitive multicellular organism: A case study of dimorphism in the filamentous cyanobacterium Arthrospira platensis. |
| Q29138517 | The cell shape proteins MreB and MreC control cell morphogenesis by positioning cell wall synthetic complexes |
| Q41815539 | The cell wall regulator {sigma}I specifically suppresses the lethal phenotype of mbl mutants in Bacillus subtilis |
| Q29138524 | The cell-shape protein MreC interacts with extracytoplasmic proteins including cell wall assembly complexes in Caulobacter crescentus |
| Q92424265 | The conserved actinobacterial transcriptional regulator FtsR controls expression of ftsZ and further target genes and influences growth and cell division in Corynebacterium glutamicum |
| Q26796274 | The cytoskeleton in cell-autonomous immunity: structural determinants of host defence |
| Q28489060 | The deletion of bacterial dynamin and flotillin genes results in pleiotrophic effects on cell division, cell growth and in cell shape maintenance |
| Q30353203 | The discovery of the prokaryotic cytoskeleton: 25th anniversary. |
| Q33608181 | The dynamic nature of the bacterial cytoskeleton |
| Q37542984 | The eukaryotic cell originated in the integration and redistribution of hyperstructures from communities of prokaryotic cells based on molecular complementarity |
| Q91911713 | The evolution of spherical cell shape; progress and perspective |
| Q24613283 | The evolution of the cytoskeleton |
| Q30356930 | The flagellar cytoskeleton of the spirochetes. |
| Q30528331 | The helical MreB cytoskeleton in Escherichia coli MC1000/pLE7 is an artifact of the N-Terminal yellow fluorescent protein tag |
| Q46844312 | The lipid II flippase RodA determines morphology and growth in Corynebacterium glutamicum |
| Q47910437 | The localization of key Bacillus subtilis penicillin binding proteins during cell growth is determined by substrate availability |
| Q24630587 | The metabolic enzyme CTP synthase forms cytoskeletal filaments |
| Q27346325 | The metabolic enzyme ManA reveals a link between cell wall integrity and chromosome morphology |
| Q30499226 | The mode of cell wall growth in selected archaea is similar to the general mode of cell wall growth in bacteria as revealed by fluorescent dye analysis |
| Q28211349 | The molecular motor toolbox for intracellular transport |
| Q30476426 | The motility of mollicutes. |
| Q41173111 | The price of tags in protein localization studies |
| Q43032092 | The relationship between a coiled morphology and Mbl in alkaliphilic Bacillus halodurans C-125 at neutral pH values. |
| Q27025555 | The role of peptidoglycan in chlamydial cell division: towards resolving the chlamydial anomaly |
| Q42741156 | The small protein MbiA interacts with MreB and modulates cell shape in Caulobacter crescentus |
| Q30436601 | The structure and assembly dynamics of plasmid actin AlfA imply a novel mechanism of DNA segregation |
| Q37772701 | The structure and function of bacterial actin homologs |
| Q34672738 | The tubulin ancestor, FtsZ, draughtsman, designer and driving force for bacterial cytokinesis |
| Q51985921 | The tubulin homologue FtsZ contributes to cell elongation by guiding cell wall precursor synthesis in Caulobacter crescentus. |
| Q35837094 | Thematic Minireview Series: The State of the Cytoskeleton in 2015. |
| Q36129361 | Towards understanding the molecular basis of bacterial DNA segregation. |
| Q57987392 | Toxin-Antitoxin Systems in Bacteria and Archaea |
| Q34577641 | Transcriptional analysis of ftsZ within the dcw cluster in Bacillus mycoides |
| Q41017627 | Transformation proteins and DNA uptake localize to the cell poles in Bacillus subtilis |
| Q34629413 | Treadmilling of a prokaryotic tubulin-like protein, TubZ, required for plasmid stability in Bacillus thuringiensis |
| Q30476558 | Two independent spiral structures control cell shape in Caulobacter. |
| Q43734200 | Uncharacterized bacterial structures revealed by electron cryotomography. |
| Q36097377 | Uncovering the mystery of gliding motility in the myxobacteria |
| Q34529225 | Was our ancestor a hyperthermophilic procaryote? |
| Q28660946 | Why are bacteria different from eukaryotes? |
| Q34494824 | YeeV is an Escherichia coli toxin that inhibits cell division by targeting the cytoskeleton proteins, FtsZ and MreB |
| Q41054900 | YvcK, a protein required for cell wall integrity and optimal carbon source utilization, binds uridine diphosphate-sugars |
| Q36092535 | Z-ring force and cell shape during division in rod-like bacteria |
| Q64979164 | σI from Bacillus subtilis: Impact on Gene Expression and Characterization of σI-Dependent Transcription That Requires New Types of Promoters with Extended -35 and -10 Elements. |
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