Published in Genes Dev on January 01, 2005
FtsZ and the division of prokaryotic cells and organelles. Nat Rev Mol Cell Biol (2005) 4.27
SlmA, a nucleoid-associated, FtsZ binding protein required for blocking septal ring assembly over Chromosomes in E. coli. Mol Cell (2005) 3.72
Bacterial growth and cell division: a mycobacterial perspective. Microbiol Mol Biol Rev (2008) 2.01
Assembly of the Caulobacter cell division machine. Mol Microbiol (2011) 1.66
Septum enlightenment: assembly of bacterial division proteins. J Bacteriol (2006) 1.61
Evidence for functional overlap among multiple bacterial cell division proteins: compensating for the loss of FtsK. Mol Microbiol (2005) 1.60
A mycobacterial enzyme essential for cell division synergizes with resuscitation-promoting factor. PLoS Pathog (2008) 1.47
An altered FtsA can compensate for the loss of essential cell division protein FtsN in Escherichia coli. Mol Microbiol (2007) 1.36
Rapid beta-lactam-induced lysis requires successful assembly of the cell division machinery. Proc Natl Acad Sci U S A (2009) 1.29
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. Mol Microbiol (2011) 1.24
In vivo organization of the FtsZ-ring by ZapA and ZapB revealed by quantitative super-resolution microscopy. Mol Microbiol (2013) 1.23
Multiple interactions between the transmembrane division proteins of Bacillus subtilis and the role of FtsL instability in divisome assembly. J Bacteriol (2006) 1.20
Interaction between cell division proteins FtsE and FtsZ. J Bacteriol (2007) 1.18
Mutants, suppressors, and wrinkled colonies: mutant alleles of the cell division gene ftsQ point to functional domains in FtsQ and a role for domain 1C of FtsA in divisome assembly. J Bacteriol (2006) 1.18
Novel role of phosphorylation-dependent interaction between FtsZ and FipA in mycobacterial cell division. PLoS One (2010) 1.14
Divisome under construction: distinct domains of the small membrane protein FtsB are necessary for interaction with multiple cell division proteins. J Bacteriol (2009) 1.11
Characterization of YmgF, a 72-residue inner membrane protein that associates with the Escherichia coli cell division machinery. J Bacteriol (2008) 1.06
FtsZ-ZapA-ZapB interactome of Escherichia coli. J Bacteriol (2011) 1.05
Compensation for the loss of the conserved membrane targeting sequence of FtsA provides new insights into its function. Mol Microbiol (2008) 1.04
Role for the nonessential N terminus of FtsN in divisome assembly. J Bacteriol (2006) 1.00
Multiple interaction domains in FtsL, a protein component of the widely conserved bacterial FtsLBQ cell division complex. J Bacteriol (2010) 0.99
The early divisome protein FtsA interacts directly through its 1c subdomain with the cytoplasmic domain of the late divisome protein FtsN. J Bacteriol (2012) 0.97
A role for FtsA in SPOR-independent localization of the essential Escherichia coli cell division protein FtsN. Mol Microbiol (2014) 0.96
A role for the FtsQLB complex in cytokinetic ring activation revealed by an ftsL allele that accelerates division. Mol Microbiol (2015) 0.95
Characterization of CrgA, a new partner of the Mycobacterium tuberculosis peptidoglycan polymerization complexes. J Bacteriol (2011) 0.95
Artificial septal targeting of Bacillus subtilis cell division proteins in Escherichia coli: an interspecies approach to the study of protein-protein interactions in multiprotein complexes. J Bacteriol (2008) 0.94
FtsW is a dispensable cell division protein required for Z-ring stabilization during sporulation septation in Streptomyces coelicolor. J Bacteriol (2008) 0.92
Contribution of the FtsQ transmembrane segment to localization to the cell division site. J Bacteriol (2007) 0.90
Streptomyces coelicolor genes ftsL and divIC play a role in cell division but are dispensable for colony formation. J Bacteriol (2007) 0.90
Morphological features and signature gene response elicited by inactivation of FtsI in Mycobacterium tuberculosis. J Antimicrob Chemother (2008) 0.89
Structural organization of FtsB, a transmembrane protein of the bacterial divisome. Biochemistry (2013) 0.89
The bypass of ZipA by overexpression of FtsN requires a previously unknown conserved FtsN motif essential for FtsA-FtsN interaction supporting a model in which FtsA monomers recruit late cell division proteins to the Z ring. Mol Microbiol (2015) 0.88
Bacterial actin and tubulin homologs in cell growth and division. Curr Biol (2015) 0.87
Growth phase- and cell division-dependent activation and inactivation of the {sigma}32 regulon in Escherichia coli. J Bacteriol (2008) 0.86
Divin: a small molecule inhibitor of bacterial divisome assembly. J Am Chem Soc (2013) 0.86
Mycobacterium tuberculosis ftsZ expression and minimal promoter activity. Tuberculosis (Edinb) (2009) 0.83
Fine-mapping the contact sites of the Escherichia coli cell division proteins FtsB and FtsL on the FtsQ protein. J Biol Chem (2013) 0.80
DamX Controls Reversible Cell Morphology Switching in Uropathogenic Escherichia coli. MBio (2016) 0.80
FtsEX acts on FtsA to regulate divisome assembly and activity. Proc Natl Acad Sci U S A (2016) 0.79
Enhanced production of polyhydroxybutyrate by multiple dividing E. coli. Microb Cell Fact (2016) 0.78
Dimer dynamics and filament organization of the bacterial cell division protein FtsA. J Mol Biol (2013) 0.78
New insights into FtsZ rearrangements during the cell division of Escherichia coli from single-molecule localization microscopy of fixed cells. Microbiologyopen (2016) 0.78
Assembly and Activation of the Escherichia coli Divisome. Mol Microbiol (2017) 0.75
FtsZ ring structure associated with division in Escherichia coli. Nature (1991) 13.07
An ATPase domain common to prokaryotic cell cycle proteins, sugar kinases, actin, and hsp70 heat shock proteins. Proc Natl Acad Sci U S A (1992) 6.18
Crystal structure of the bacterial cell-division protein FtsZ. Nature (1998) 5.60
Cytokinesis in bacteria. Microbiol Mol Biol Rev (2003) 5.29
Direct binding of FtsZ to ZipA, an essential component of the septal ring structure that mediates cell division in E. coli. Cell (1997) 4.94
Localization of FtsI (PBP3) to the septal ring requires its membrane anchor, the Z ring, FtsA, FtsQ, and FtsL. J Bacteriol (1999) 4.87
Escherichia coli cell division protein FtsZ is a guanine nucleotide binding protein. Proc Natl Acad Sci U S A (1993) 4.46
FtsL, an essential cytoplasmic membrane protein involved in cell division in Escherichia coli. J Bacteriol (1992) 3.50
Unique and overlapping roles for ZipA and FtsA in septal ring assembly in Escherichia coli. EMBO J (2002) 3.47
Themes and variations in prokaryotic cell division. FEMS Microbiol Rev (2000) 3.24
The FtsQ protein of Escherichia coli: membrane topology, abundance, and cell division phenotypes due to overproduction and insertion mutations. J Bacteriol (1991) 3.15
Towards single-copy gene expression systems making gene cloning physiologically relevant: lambda InCh, a simple Escherichia coli plasmid-chromosome shuttle system. J Bacteriol (2000) 3.14
Assembly dynamics of FtsZ rings in Bacillus subtilis and Escherichia coli and effects of FtsZ-regulating proteins. J Bacteriol (2004) 3.04
A widely conserved bacterial cell division protein that promotes assembly of the tubulin-like protein FtsZ. Genes Dev (2002) 3.03
Assembly dynamics of the bacterial cell division protein FTSZ: poised at the edge of stability. Annu Rev Microbiol (2003) 2.83
Genetic and functional analyses of the conserved C-terminal core domain of Escherichia coli FtsZ. J Bacteriol (1999) 2.44
Analysis of the interaction of FtsZ with itself, GTP, and FtsA. J Bacteriol (1997) 2.41
FtsQ, FtsL and FtsI require FtsK, but not FtsN, for co-localization with FtsZ during Escherichia coli cell division. Mol Microbiol (2001) 2.32
Cloning and characterization of ftsN, an essential cell division gene in Escherichia coli isolated as a multicopy suppressor of ftsA12(Ts). J Bacteriol (1993) 2.22
Septal localization of FtsQ, an essential cell division protein in Escherichia coli. J Bacteriol (1999) 2.22
The bacterial cell-division protein ZipA and its interaction with an FtsZ fragment revealed by X-ray crystallography. EMBO J (2000) 2.15
Domain-swapping analysis of FtsI, FtsL, and FtsQ, bitopic membrane proteins essential for cell division in Escherichia coli. J Bacteriol (1997) 2.07
Only the N-terminal domain of FtsK functions in cell division. J Bacteriol (1998) 2.05
Crystal structure of the cell division protein FtsA from Thermotoga maritima. EMBO J (2000) 1.97
Use of a two-hybrid assay to study the assembly of a complex multicomponent protein machinery: bacterial septosome differentiation. Microbiology (2003) 1.94
A complex of the Escherichia coli cell division proteins FtsL, FtsB and FtsQ forms independently of its localization to the septal region. Mol Microbiol (2004) 1.78
Assembly of cell division proteins at the E. coli cell center. Curr Opin Microbiol (2002) 1.73
Topological characterization of the essential Escherichia coli cell division protein FtsN. J Bacteriol (1996) 1.67
ZipA is required for recruitment of FtsK, FtsQ, FtsL, and FtsN to the septal ring in Escherichia coli. J Bacteriol (2002) 1.66
Localization of FtsL to the Escherichia coli septal ring. Mol Microbiol (1999) 1.57
The D,D-carboxypeptidase PBP3 organizes the division process of Streptococcus pneumoniae. Mol Microbiol (2004) 1.55
Nucleoid partitioning in Escherichia coli during steady-state growth and upon recovery from chloramphenicol treatment. Mol Microbiol (1994) 1.52
The crystal structure of ZapA and its modulation of FtsZ polymerisation. J Mol Biol (2004) 1.45
YgbQ, a cell division protein in Escherichia coli and Vibrio cholerae, localizes in codependent fashion with FtsL to the division site. Proc Natl Acad Sci U S A (2002) 1.45
Genetic analysis of the cell division protein FtsI (PBP3): amino acid substitutions that impair septal localization of FtsI and recruitment of FtsN. J Bacteriol (2004) 1.40
ZipA is required for targeting of DMinC/DicB, but not DMinC/MinD, complexes to septal ring assemblies in Escherichia coli. J Bacteriol (2004) 1.33
A conserved residue at the extreme C-terminus of FtsZ is critical for the FtsA-FtsZ interaction in Staphylococcus aureus. Biochem Biophys Res Commun (2000) 1.33
Solution structure of ZipA, a crucial component of Escherichia coli cell division. Biochemistry (2000) 1.19
Protein disulfide bond formation in prokaryotes. Annu Rev Biochem (2003) 3.76
Diverse paths to midcell: assembly of the bacterial cell division machinery. Curr Biol (2005) 3.69
Premature targeting of cell division proteins to midcell reveals hierarchies of protein interactions involved in divisome assembly. Mol Microbiol (2006) 3.07
An open letter to Elias Zerhouni. Science (2005) 2.19
The plug domain of the SecY protein stabilizes the closed state of the translocation channel and maintains a membrane seal. Mol Cell (2007) 2.18
Snapshots of DsbA in action: detection of proteins in the process of oxidative folding. Science (2004) 2.18
Bacterial species exhibit diversity in their mechanisms and capacity for protein disulfide bond formation. Proc Natl Acad Sci U S A (2008) 2.12
NMR solution structure of the integral membrane enzyme DsbB: functional insights into DsbB-catalyzed disulfide bond formation. Mol Cell (2008) 1.92
The DsbA signal sequence directs efficient, cotranslational export of passenger proteins to the Escherichia coli periplasm via the signal recognition particle pathway. J Bacteriol (2003) 1.80
The XYY syndrome: a dangerous myth. New Sci (1974) 1.80
A complex of the Escherichia coli cell division proteins FtsL, FtsB and FtsQ forms independently of its localization to the septal region. Mol Microbiol (2004) 1.78
Assembly of cell division proteins at the E. coli cell center. Curr Opin Microbiol (2002) 1.73
IcsA, a polarly localized autotransporter with an atypical signal peptide, uses the Sec apparatus for secretion, although the Sec apparatus is circumferentially distributed. Mol Microbiol (2003) 1.68
A novel regulatory mechanism couples deoxyribonucleotide synthesis and DNA replication in Escherichia coli. EMBO J (2006) 1.65
In vivo oxidative protein folding can be facilitated by oxidation-reduction cycling. Mol Microbiol (2009) 1.62
Four cysteines of the membrane protein DsbB act in concert to oxidize its substrate DsbA. EMBO J (2002) 1.55
Use of thioredoxin as a reporter to identify a subset of Escherichia coli signal sequences that promote signal recognition particle-dependent translocation. J Bacteriol (2005) 1.45
Structure of a bacterial homologue of vitamin K epoxide reductase. Nature (2010) 1.44
Mechanisms of oxidative protein folding in the bacterial cell envelope. Antioxid Redox Signal (2010) 1.42
The nonconsecutive disulfide bond of Escherichia coli phytase (AppA) renders it dependent on the protein-disulfide isomerase, DsbC. J Biol Chem (2005) 1.41
Production of functional single-chain Fv antibodies in the cytoplasm of Escherichia coli. J Mol Biol (2002) 1.39
The disulfide bond isomerase DsbC is activated by an immunoglobulin-fold thiol oxidoreductase: crystal structure of the DsbC-DsbDalpha complex. EMBO J (2002) 1.37
Detecting folding intermediates of a protein as it passes through the bacterial translocation channel. Cell (2009) 1.36
Interactions of glutaredoxins, ribonucleotide reductase, and components of the DNA replication system of Escherichia coli. Proc Natl Acad Sci U S A (2004) 1.33
Rapid beta-lactam-induced lysis requires successful assembly of the cell division machinery. Proc Natl Acad Sci U S A (2009) 1.29
Analysis of ftsQ mutant alleles in Escherichia coli: complementation, septal localization, and recruitment of downstream cell division proteins. J Bacteriol (2002) 1.28
In vivo requirement for glutaredoxins and thioredoxins in the reduction of the ribonucleotide reductases of Escherichia coli. Antioxid Redox Signal (2006) 1.24
Functional plasticity of a peroxidase allows evolution of diverse disulfide-reducing pathways. Proc Natl Acad Sci U S A (2008) 1.22
Mutants, suppressors, and wrinkled colonies: mutant alleles of the cell division gene ftsQ point to functional domains in FtsQ and a role for domain 1C of FtsA in divisome assembly. J Bacteriol (2006) 1.18
Genetic screen yields mutations in genes encoding all known components of the Escherichia coli signal recognition particle pathway. J Bacteriol (2002) 1.16
Evolutionary domain fusion expanded the substrate specificity of the transmembrane electron transporter DsbD. EMBO J (2002) 1.13
Diversity of chemical mechanisms in thioredoxin catalysis revealed by single-molecule force spectroscopy. Nat Struct Mol Biol (2009) 1.11
Divisome under construction: distinct domains of the small membrane protein FtsB are necessary for interaction with multiple cell division proteins. J Bacteriol (2009) 1.11
GroES/GroEL and DnaK/DnaJ have distinct roles in stress responses and during cell cycle progression in Caulobacter crescentus. J Bacteriol (2006) 1.09
Inhibition of bacterial disulfide bond formation by the anticoagulant warfarin. Proc Natl Acad Sci U S A (2009) 1.08
Mutant AhpC peroxiredoxins suppress thiol-disulfide redox deficiencies and acquire deglutathionylating activity. Mol Cell (2008) 1.07
Role and location of the unusual redox-active cysteines in the hydrophobic domain of the transmembrane electron transporter DsbD. Proc Natl Acad Sci U S A (2003) 1.05
Redox-active cysteines of a membrane electron transporter DsbD show dual compartment accessibility. EMBO J (2007) 1.02
The prokaryotic enzyme DsbB may share key structural features with eukaryotic disulfide bond forming oxidoreductases. Protein Sci (2005) 1.02
Role for the nonessential N terminus of FtsN in divisome assembly. J Bacteriol (2006) 1.00
Membrane topology and mutational analysis of Mycobacterium tuberculosis VKOR, a protein involved in disulfide bond formation and a homologue of human vitamin K epoxide reductase. Antioxid Redox Signal (2011) 1.00
Multiple interaction domains in FtsL, a protein component of the widely conserved bacterial FtsLBQ cell division complex. J Bacteriol (2010) 0.99
Structure and mode of action of microplusin, a copper II-chelating antimicrobial peptide from the cattle tick Rhipicephalus (Boophilus) microplus. J Biol Chem (2009) 0.98
Functions of thiol-disulfide oxidoreductases in E. coli: redox myths, realities, and practicalities. Antioxid Redox Signal (2003) 0.97
The unusual transmembrane electron transporter DsbD and its homologues: a bacterial family of disulfide reductases. Res Microbiol (2004) 0.97
A selection for mutants that interfere with folding of Escherichia coli thioredoxin-1 in vivo. Proc Natl Acad Sci U S A (2005) 0.95
Artificial septal targeting of Bacillus subtilis cell division proteins in Escherichia coli: an interspecies approach to the study of protein-protein interactions in multiprotein complexes. J Bacteriol (2008) 0.94
Distinguishing genetic from nongenetic medical tests: some implications for antidiscrimination legislation. Sci Eng Ethics (1998) 0.94
Conserved role of the linker alpha-helix of the bacterial disulfide isomerase DsbC in the avoidance of misoxidation by DsbB. J Biol Chem (2005) 0.94
Ribonucleotide reductases: influence of environment on synthesis and activity. Antioxid Redox Signal (2006) 0.94
Redox state of cytoplasmic thioredoxin. Methods Enzymol (2002) 0.93
Laboratory evolution of glutathione biosynthesis reveals natural compensatory pathways. Nat Chem Biol (2010) 0.91
Mutations of the membrane-bound disulfide reductase DsbD that block electron transfer steps from cytoplasm to periplasm in Escherichia coli. J Bacteriol (2006) 0.91
Mutational alterations of the key cis proline residue that cause accumulation of enzymatic reaction intermediates of DsbA, a member of the thioredoxin superfamily. J Bacteriol (2005) 0.90
Illusions of scientific legitimacy: misrepresented science in the direct-to-consumer genetic-testing marketplace. Trends Genet (2010) 0.90
Contribution of the FtsQ transmembrane segment to localization to the cell division site. J Bacteriol (2007) 0.90
Two snapshots of electron transport across the membrane: insights into the structure and function of DsbD. J Biol Chem (2009) 0.89
Reply to Hook and Lowden: the definition and implications of genetic discrimination. Am J Hum Genet (1992) 0.89
Crystal structure of an unusual thioredoxin protein with a zinc finger domain. J Biol Chem (2007) 0.85
Role of leucine zipper motifs in association of the Escherichia coli cell division proteins FtsL and FtsB. J Bacteriol (2011) 0.84
Disulfide bond formation in periplasm of Escherichia coli. Methods Enzymol (2002) 0.83
The reducing activity of glutaredoxin 3 toward cytoplasmic substrate proteins is restricted by methionine 43. Biochemistry (2007) 0.82
Evidence from artificial septal targeting and site-directed mutagenesis that residues in the extracytoplasmic β domain of DivIB mediate its interaction with the divisomal transpeptidase PBP 2B. J Bacteriol (2010) 0.81
Mutations at several loci cause increased expression of ribonucleotide reductase in Escherichia coli. J Bacteriol (2012) 0.79
Determinants of activity in glutaredoxins: an in vitro evolved Grx1-like variant of Escherichia coli Grx3. Biochem J (2010) 0.77
Amino acid residues important for folding of thioredoxin are revealed only by study of the physiologically relevant reduced form of the protein. Biochemistry (2010) 0.75
Misreading Dr. Venter's genome. Science (2007) 0.75
Recombinant DNA: does the fault lie within our genes? Sci People (1979) 0.75
The politics of genetic engineering: who decides who's defective? Psychol Today (1974) 0.75
The XYY male: the making of a myth. Harv Mag (1976) 0.75