scholarly article | Q13442814 |
P2093 | author name string | Hideo Iwasaki | |
Jong-Soon Choi | |||
Susan S Golden | |||
Guogang Dong | |||
Shannon R Mackey | |||
Yohko Kitayama | |||
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Nucleotide binding and autophosphorylation of the clock protein KaiC as a circadian timing process of cyanobacteria | Q33885396 | ||
A kaiC-interacting sensory histidine kinase, SasA, necessary to sustain robust circadian oscillation in cyanobacteria. | Q33899921 | ||
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LdpA: a component of the circadian clock senses redox state of the cell | Q33937203 | ||
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The cryb mutation identifies cryptochrome as a circadian photoreceptor in Drosophila. | Q34482723 | ||
ldpA encodes an iron-sulfur protein involved in light-dependent modulation of the circadian period in the cyanobacterium Synechococcus elongatus PCC 7942 | Q34514630 | ||
Quinone sensing by the circadian input kinase of the cyanobacterial circadian clock | Q34579810 | ||
Winding up the cyanobacterial circadian clock | Q34679731 | ||
Circadian rhythms in gene transcription imparted by chromosome compaction in the cyanobacterium Synechococcus elongatus | Q34694533 | ||
Chemosensory regulation of developmental gene expression in Myxococcus xanthus | Q34762962 | ||
Cytochrome c maturation: a complex pathway for a simple task? | Q34797620 | ||
The core dimerization domains of histidine kinases contain recognition specificity for the cognate response regulator | Q35161968 | ||
Circadian gating of cell division in cyanobacteria growing with average doubling times of less than 24 hours | Q37330424 | ||
Identification of key phosphorylation sites in the circadian clock protein KaiC by crystallographic and mutagenetic analyses | Q37535591 | ||
Genes controlling circadian rhythm are widely distributed in cyanobacteria | Q38496032 | ||
Protein extraction, fractionation, and purification from cyanobacteria | Q40225350 | ||
A novel mutation in kaiC affects resetting of the cyanobacterial circadian clock | Q41828737 | ||
The pseudo-receiver domain of CikA regulates the cyanobacterial circadian input pathway | Q44121754 | ||
Biochemical properties of CikA, an unusual phytochrome-like histidine protein kinase that resets the circadian clock in Synechococcus elongatus PCC 7942. | Q44355336 | ||
Interposon mutagenesis of soil and water bacteria: a family of DNA fragments designed for in vitro insertional mutagenesis of gram-negative bacteria | Q45773675 | ||
SIMPLE CONDITIONS FOR GROWTH OF UNICELLULAR BLUE-GREEN ALGAE ON PLATES(1, 2). | Q46104279 | ||
Resilient circadian oscillator revealed in individual cyanobacteria | Q47259077 | ||
CikA, a bacteriophytochrome that resets the cyanobacterial circadian clock | Q47840229 | ||
Expression of a gene cluster kaiABC as a circadian feedback process in cyanobacteria. | Q48025745 | ||
Detection of rhythmic bioluminescence from luciferase reporters in cyanobacteria. | Q51029060 | ||
Identification of cyanobacterial cell division genes by comparative and mutational analyses. | Q54412652 | ||
Specialized techniques for site-directed mutagenesis in cyanobacteria. | Q54443585 | ||
Expression of the circadian clock-related gene pex in cyanobacteria increases in darkness and is required to delay the clock. | Q54459018 | ||
[12] Genetic engineering of the cyanobacterial chromosome | Q61688002 | ||
Mutagenesis of cyanobacteria by classical and gene-transfer-based methods | Q67244953 | ||
Circadian formation of clock protein complexes by KaiA, KaiB, KaiC, and SasA in cyanobacteria | Q78542207 | ||
Stability of the Synechococcus elongatus PCC 7942 circadian clock under directed anti-phase expression of the kai genes | Q81002770 | ||
Molecular evolution of ldpA, a gene mediating the circadian input signal in cyanobacteria | Q81371252 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | circadian rhythm | Q208353 |
Synechococcus elongatus | Q18845307 | ||
P304 | page(s) | 3738-3746 | |
P577 | publication date | 2008-03-14 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Proteins found in a CikA interaction assay link the circadian clock, metabolism, and cell division in Synechococcus elongatus | |
P478 | volume | 190 |
Q38659721 | A Synthetic Biology Approach to Engineering Living Photovoltaics. |
Q36979252 | A cyanobacterial circadian clockwork |
Q37117815 | An allele of the crm gene blocks cyanobacterial circadian rhythms |
Q46918634 | Cooperative KaiA-KaiB-KaiC interactions affect KaiB/SasA competition in the circadian clock of cyanobacteria. |
Q37800263 | Coupling cellular oscillators—circadian and cell division cycles in cyanobacteria |
Q35631471 | Coupling of Cellular Processes and Their Coordinated Oscillations under Continuous Light in Cyanothece sp. ATCC 51142, a Diazotrophic Unicellular Cyanobacterium |
Q54330634 | Exploration of a possible partnership among orphan two-component system proteins in cyanobacterium Synechococcus elongatus PCC 7942. |
Q36626698 | Giving Time Purpose: The Synechococcus elongatus Clock in a Broader Network Context |
Q34872329 | How a cyanobacterium tells time |
Q26859160 | Metabolic compensation and circadian resilience in prokaryotic cyanobacteria |
Q38667731 | Minimal tool set for a prokaryotic circadian clock. |
Q36190860 | Physiological effects of free fatty acid production in genetically engineered Synechococcus elongatus PCC 7942. |
Q41131868 | Reductio ad bacterium: the ubiquity of Bayesian "brains" and the goals of cognitive science |
Q34629102 | Revealing a two-loop transcriptional feedback mechanism in the cyanobacterial circadian clock |
Q38148219 | Signal transduction pathways in Synechocystis sp. PCC 6803 and biotechnological implications under abiotic stress |
Q34147443 | Stress sensors and signal transducers in cyanobacteria |
Q33718897 | Structural basis of the day-night transition in a bacterial circadian clock |
Q50026586 | Structure, function, and mechanism of the core circadian clock in cyanobacteria |
Q34979326 | The cyanobacterial circadian system: from biophysics to bioevolution |
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