scholarly article | Q13442814 |
P2093 | author name string | Volkhard Kaever | |
Patrick D Curtis | |||
Lauryn Sperling | |||
Milagros D Mulero Alegría | |||
P2860 | cites work | Two-component signal transduction pathways regulating growth and cell cycle progression in a bacterium: a system-level analysis | Q21146087 |
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The c-di-GMP binding protein YcgR controls flagellar motor direction and speed to affect chemotaxis by a "backstop brake" mechanism | Q24624328 | ||
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Identification and cell cycle control of a novel pilus system in Caulobacter crescentus | Q29346644 | ||
A homolog of the CtrA cell cycle regulator is present and essential in Sinorhizobium meliloti | Q29346925 | ||
Mapping transposon insertion sites by touchdown PCR and hybrid degenerate primers | Q33212228 | ||
Getting in the loop: regulation of development in Caulobacter crescentus. | Q33704461 | ||
General nonchemotactic mutants of Caulobacter crescentus | Q33952491 | ||
Cell cycle control of a holdfast attachment gene in Caulobacter crescentus. | Q33991242 | ||
Regulation of stalk elongation by phosphate in Caulobacter crescentus. | Q33993520 | ||
Identification of essential alphaproteobacterial genes reveals operational variability in conserved developmental and cell cycle systems. | Q34041868 | ||
Role of the GGDEF regulator PleD in polar development of Caulobacter crescentus. | Q34182087 | ||
Identification of genes required for synthesis of the adhesive holdfast in Caulobacter crescentus | Q34514466 | ||
Effect of a ctrA promoter mutation, causing a reduction in CtrA abundance, on the cell cycle and development of Caulobacter crescentus. | Q34833297 | ||
Holdfast formation in motile swarmer cells optimizes surface attachment during Caulobacter crescentus development | Q34976528 | ||
Genetic analysis of a bacterial genetic exchange element: the gene transfer agent of Rhodobacter capsulatus | Q34980156 | ||
Bi-modal distribution of the second messenger c-di-GMP controls cell fate and asymmetry during the caulobacter cell cycle | Q34988036 | ||
Dynamic localization of a cytoplasmic signal transduction response regulator controls morphogenesis during the Caulobacter cell cycle | Q35055176 | ||
Negative control of bacterial DNA replication by a cell cycle regulatory protein that binds at the chromosome origin | Q35669148 | ||
The scaffolding and signalling functions of a localization factor impact polar development. | Q35935928 | ||
A histidine protein kinase is involved in polar organelle development in Caulobacter crescentus | Q36064654 | ||
Turning off flagellum rotation requires the pleiotropic gene pleD: pleA, pleC, and pleD define two morphogenic pathways in Caulobacter crescentus | Q36173202 | ||
A comprehensive set of plasmids for vanillate- and xylose-inducible gene expression in Caulobacter crescentus | Q36328874 | ||
Cell cycle regulation in Caulobacter: location, location, location. | Q36967570 | ||
Second messenger-mediated spatiotemporal control of protein degradation regulates bacterial cell cycle progression | Q37075699 | ||
Visualization of the movement of single histidine kinase molecules in live Caulobacter cells | Q37619354 | ||
An essential single domain response regulator required for normal cell division and differentiation in Caulobacter crescentus | Q37621424 | ||
Cell type-specific phosphorylation and proteolysis of a transcriptional regulator controls the G1-to-S transition in a bacterial cell cycle | Q38343539 | ||
Cyclic di-GMP acts as a cell cycle oscillator to drive chromosome replication | Q39010343 | ||
Conserved response regulator CtrA and IHF binding sites in the alpha-proteobacteria Caulobacter crescentus and Rickettsia prowazekii chromosomal replication origins | Q39694855 | ||
Regulation of polar morphogenesis in Caulobacter crescentus | Q39974894 | ||
Stalk formation of Brevundimonas and how it compares to Caulobacter crescentus. | Q41494797 | ||
Differential localization of two histidine kinases controlling bacterial cell differentiation | Q41711780 | ||
A dynamic complex of signaling proteins uses polar localization to regulate cell-fate asymmetry in Caulobacter crescentus | Q42261498 | ||
Regulatory cohesion of cell cycle and cell differentiation through interlinked phosphorylation and second messenger networks | Q42590302 | ||
DivL performs critical cell cycle functions in Caulobacter crescentus independent of kinase activity | Q42910152 | ||
A post-translational, c-di-GMP-dependent mechanism regulating flagellar motility | Q43073468 | ||
Mutations in DivL and CckA rescue a divJ null mutant of Caulobacter crescentus by reducing the activity of CtrA. | Q43259838 | ||
Cyclic di-GMP differentially tunes a bacterial flagellar motor through a novel class of CheY-like regulators | Q43417048 | ||
Identification, cloning, and expression of Pseudomonas aeruginosa phosphorylcholine phosphatase gene | Q46484859 | ||
CtrA response regulator binding to the Caulobacter chromosome replication origin is required during nutrient and antibiotic stress as well as during cell cycle progression. | Q51818576 | ||
Cytokinesis monitoring during development; rapid pole-to-pole shuttling of a signaling protein by localized kinase and phosphatase in Caulobacter. | Q52087836 | ||
Regulation of the bacterial cell cycle by an integrated genetic circuit. | Q53585638 | ||
Characterization and crystallization of DivK, an essential response regulator for cell division and differentiation in Caulobacter crescentus | Q74335619 | ||
Cell cycle-dependent degradation of a flagellar motor component requires a novel-type response regulator | Q77410721 | ||
Quantification of cyclic dinucleotides by reversed-phase LC-MS/MS | Q86814851 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 20 | |
P577 | publication date | 2019-09-20 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Analysis of Brevundimonas subvibrioides Developmental Signaling Systems Reveals Inconsistencies between Phenotypes and c-di-GMP Levels | |
P478 | volume | 201 |
Q114162071 | The transcriptional regulator CtrA controls gene expression in Alphaproteobacteria phages: Evidence for a lytic deferment pathway | cites work | P2860 |
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