ライフサイエンスコーパス: sensor histidine kinase

1 s ideal for analysing ligand regulation of a sensor histidine kinase.

2 regulation of the sensor domain of the YycG sensor histidine kinase.

3 gnated absA1, which is predicted to encode a sensor histidine kinase.

4 and extensive structural flexibility in the sensor histidine kinase.

5 rter interacting with a two-component system sensor histidine kinase.

6 are commonly located at the amino termini of sensor histidine kinases.

7 in with primary structural features found in sensor histidine kinases.

8 romes (BphPs) with homology to two-component sensor histidine kinases.

9 The heme-based oxygen sensor histidine kinase AfGcHK is part of a two-componen

10 led by two-component systems that comprise a sensor histidine kinase and a cognate DNA binding respon

11 re typically composed of a membrane-spanning sensor histidine kinase and a cytoplasmic response regul

12 nt regulatory systems (2CRs) consisting of a sensor histidine kinase and a DNA-binding response regul

13 Such systems are composed of a sensor histidine kinase and a response regulator whose u

14 recognition and phosphotransfer between the sensor histidine kinase and the response regulator.

15 , which is comprised of genes for a putative sensor histidine kinase and two response regulators and

16 Two-component systems (TCS) comprising sensor histidine kinases and response regulator proteins

17 transduction systems with membrane-embedded sensor histidine kinases are believed to recognize envir

18 Sensor histidine kinases are central to sensing in bacte

19 The sensor domains of sensor histidine kinases are poorly conserved between sp

20 th Spo0F and Spo0B and the identities of the sensor histidine kinases are unknown.

21 Sensor histidine kinases are widely used by bacteria to

22 t signal transduction system, comprised of a sensor histidine kinase (ArsS) and a response regulator

23 We find that SasA, a circadian sensor histidine kinase associated with clock output, en

24 Upon receipt of a stimulus, a homodimeric sensor histidine kinase autophosphorylates and then tran

25 of a chromosomally encoded major sporulation sensor histidine kinase (BA2291) in this organism.

26 The vast majority of the sensor histidine kinases belong to the bifunctional HisK

27 l and glubolar C-terminal structure, and the sensor histidine kinase BovK contains eight transmembran

28 t signals binding to sensor domains activate sensor histidine kinases by causing localized strain and

29 A membrane bound two-component sensor histidine kinase called CqsS detects CAI-1, and t

30 In the prototypical two-component system, a sensor histidine kinase catalyzes its autophosphorylatio

31 We identified approximately 13,000 sensor histidine kinases, chemoreceptors, receptors invo

32 The YycG sensor histidine kinase co-ordinates cell wall remodelli

33 41, a pea-nodulating endosymbiont, encodes a sensor histidine kinase containing a LOV domain at the N

34 The NarX and NarQ sensor-histidine kinases control phosphorylation of the

35 llular Mg(2+) signalled through the presumed sensor histidine kinase, CsrS.

36 amino terminus of signaling proteins such as sensor histidine kinases, cyclic-di-GMP synthases/hydrol

37 ation by mutational selection of sporulation sensor histidine kinase defects.

38 gnal transduction proteins such as bacterial sensor histidine kinases, designed to transition between

39 We have deleted a gene for a sensor histidine kinase, dspA (or hik33), in the cyanoba

40 volves specific sensing of ethanolamine by a sensor histidine kinase (EutW), resulting in autophospho

41 in Caulobacter crescentus consisting of the sensor histidine kinase FixL, its cognate response regul

42 ional states of the two catalytic domains of sensor histidine kinases, HisKA and HATPase.

43 s comprised of receptors that are similar to sensor histidine kinases, histidine-containing phosphotr

44 TCS consist of a sensor histidine kinase (HK) and an effector response re

45 ly involves two-component systems in which a sensor histidine kinase (HK) autophosphorylates in respo

46 two-component systems (TCS) which comprise a sensor histidine kinase (HK) containing a phosphorylatab

47 ails signal-induced autophosphorylation of a sensor histidine kinase (HK) followed by phosphoryl tran

48 A typical pathway includes a sensor histidine kinase (HK) that phosphorylates a respo

49 Bacteria use membrane-integral sensor histidine kinases (HK) to perceive stimuli and tr

50 tion depend on expression of the cytoplasmic sensor histidine kinase, HP0244.

51 addition, we show that signaling between the sensor histidine kinase HssS and the response regulator

52 of autophosphorylation in vitro of the HK17 sensor histidine kinase, indicating that this is the lig

53 e Bacillus anthracis BA2291 gene codes for a sensor histidine kinase involved in the induction of spo

54 Here it is shown that the YycG sensor histidine kinase is a component of the division s

55 ospho-AbsA2), generated by the cognate AbsA1 sensor histidine kinase, is required for normal growth p

56 f contact positions in the Bacillus subtilis sensor histidine kinase KinA and by restoration of activ

57 that biofilm formation was dependent on the sensor histidine kinase KinD and in particular on an ext

58 sion of matrix genes via the activation of a sensor histidine kinase, KinD.

59 We demonstrate that the flavin-binding sensor histidine kinase, LovhK (bab2_0652), functions as

60 ComP is a sensor histidine kinase of Bacillus subtilis required fo

61 An orphan sensor histidine kinase of C. botulinum appeared to norm

62 A sensor histidine kinase of Synechococcus sp. strain PCC7

63 PhoQ is the transmembrane sensor histidine kinase of the bacterial phoPQ two-compo

64 issense mutations in bfmS, which encodes the sensor histidine kinase of the BfmRS two-component syste

65 to be a membrane-bound, PAS-domain-bearing, sensor histidine kinase of two-component regulatory syst

66 Putative sporulation sensor histidine kinases of B. anthracis were identified

67 RsbA is homologous to membrane sensor histidine kinases of the two-component family of

68 f the stomach, the organism expresses two pH-sensor histidine kinases, one, HP0165, responding to a m

69 plasmic domain of the Bacillus subtilis PhoR sensor histidine kinase, part of a two-component system

70 we present the report of a c-di-GMP sensing sensor histidine kinase PdtaS (Rv3220c), which binds to

71 s monitor environmental parameters through a sensor histidine-kinase/phosphatase, which phosphorylate

72 study on the tandem sensor domains of a dual-sensor histidine kinase PPHK (phosphorylation-responsive

73 However, the PYP domain (Ppr-PYP) from the sensor histidine kinase Ppr in Rhodospirillum centenum,

74 putative response regulator, and a putative sensor histidine kinase protein.

75 Among signal relay proteins, sensor, histidine kinase proteins (HK) are auto-phosphor

76 We show that (i) ChiS, a sensor histidine kinase, regulates expression of the (Gl

77 any one or a combination of the sporulation sensor histidine kinases remaining.

78 Kinase A is the sensor histidine kinase responsible for processing poste

79 s have indicated that the TCS comprising the sensor histidine kinase RgfC and the response regulator

80 Newman and some other S. aureus strains, the sensor histidine kinase SaeS has an L18P (T53C in saeS)

81 esents a template for signal transduction in sensor histidine kinases.Sensor histidine kinases (SHK)

82 and bound to and inhibited the intramembrane sensor histidine kinase SGO_1180, thus preventing activa

83 In a typical TCS, a stimulus induces a sensor histidine kinase (SHK) to phosphorylate a respons

84 In these, a membrane-bound sensor histidine kinase (SK) autophosphorylates in respo

85 The sensor histidine kinase SlnA(Sln1) is important for modu

86 nella oneidensis directly interacts with the sensor histidine kinase (SO2145), binds NO in a 5-coordi

87 anonical system consists of a membrane-bound sensor histidine kinase that autophosphorylates in respo

88 VanS is a transmembrane sensor histidine kinase that is known to detect the anti

89 VpsS is a hybrid sensor histidine kinase that is predicted to contain bot

90 ansduction pathways, typically composed of a sensor histidine kinase that receives the input stimuli

91 VanS is a sensor histidine kinase that responds to the presence of

92 gnalling pathways, which typically involve a sensor histidine kinase that specifically phosphorylates

93 The AIs are detected by cognate sensor histidine kinases that all relay phosphate to the

94 Sporulation is regulated by at least five sensor histidine kinases that are activated in response

95 ed by the phosphorelay consisting of several sensor histidine kinases, the Spo0F response regulator,

96 stimulus via phosphotransfer from a cognate sensor histidine kinase to a specific aspartate residue.

97 TolR protein was engineered as a functional sensor histidine kinase (TolRSK) and an independent resp

98 The FsrC sensor histidine kinase, upon activation by the gelatina

99 his study, we report the identification of a sensor histidine kinase, VpsS, which can control biofilm

100 Five of the nine sensor histidine kinases were inferred to be capable of

101 the HisKA domain of B. subtilis sporulation sensor histidine kinases, which interacts with Spo0F.

102 e gene (mesS) encoding the predicted cognate sensor (histidine) kinase yielded a mutant with the same

103 The YycG (sensor histidine kinase)-YycF (response regulator/transc

104 n by any of the extracellular domains of the sensor histidine kinase YycG or the associated proteins