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1 and placed downstream of a nickel-inducible signal transduction system.
2 sect a poorly understood hypoxia-sensing and signal transduction system.
3 ally regulated by the LevQRST four-component signal transduction system.
4 on by means of feedback input from the Nodal signal transduction system.
5 tion of motility by a modified two-component signal transduction system.
6 us species is controlled by the phosphorelay signal transduction system.
7 ci is regulated by the VanSARA two-component signal transduction system.
8 rs controlled by the BvgA-BvgS two-component signal transduction system.
9 sor kinase, respectively, of a two-component signal transduction system.
10 of the signal and regulatory partner in this signal transduction system.
11 ence determinants are regulated by the BvgAS signal transduction system.
12 of growth using the ArcA-ArcB two-component signal transduction system.
13 is regulated by the ResD-ResE two-component signal transduction system.
14 phoryl flux through a modified two-component signal transduction system.
15 e is regulated by FimS-FimR, a two component signal transduction system.
16 erichia coli through the DpiBA two-component signal transduction system.
17 rove the performance characteristics of this signal transduction system.
18 onism are integral functions of the TGF-beta signal transduction system.
19 nslation does not depend upon the chemotaxis signal transduction system.
20 homolog, which is a part of a two-component signal transduction system.
21 or the regulation and function of the sigmaE signal transduction system.
22 efective in the Fe(III)-responding PmrA/PmrB signal transduction system.
23 witching motility and potentially encoding a signal transduction system.
24 olled by the phospho-relay, a multicomponent signal transduction system.
25 isualizing and editing a representation of a signal transduction system.
26 y is intricately linked and dependent upon a signal transduction system.
27 d provide insights into the function of this signal transduction system.
28 ical and neurosensory pathways of the visual signal transduction system.
29 and the RegA/PrrA (RegB/PrrB) two-component signal transduction system.
30 gger to activate the DegS-DegU two-component signal transduction system.
31 e starvation via the two-component PhoR-PhoP signal transduction system.
32 ntrolled by ComC and the ComED two-component signal transduction system.
33 s a modulator of the EnvZ/OmpR two-component signal transduction system.
34 sphate starvation-responsive Pst/SenX3-RegX3 signal transduction system.
35 itive control of the ResD-ResE two-component signal transduction system.
36 axis through a highly conserved chemosensory signal-transduction system.
37 en individual cells using a contact-mediated signal-transduction system.
38 etween them and other paradigmatic bacterial signal transduction systems.
39 utput responses of prokaryotic two-component signal transduction systems.
40 onserved aspartic acid residues in bacterial signal transduction systems.
41 tal role in odontoblast function via diverse signal transduction systems.
42 hanges are partly regulated by two-component signal transduction systems.
43 rosine kinase that acts in numerous cellular signal transduction systems.
44 iety of response regulators of the bacterial signal transduction systems.
45 e applied to any organism with two-component signal transduction systems.
46 nism include sigma factors and two-component signal transduction systems.
47 ns of NODs are possible including regulating signal transduction systems.
48 er protein family of conserved two-component signal transduction systems.
49 or kinase protein of bacterial two-component signal transduction systems.
50 ion sigma factors and one- and two-component signal transduction systems.
51 elongs to the family of His-Asp phosphorelay signal transduction systems.
52 nd may be accelerated or inhibited by myriad signal transduction systems.
53 ic cellular responses that rely on canonical signal transduction systems.
54 (PHKs), which are involved in two-component signal transduction systems.
55 erize the function of key components of many signal transduction systems.
56 MAP) kinase by actions on any of a number of signal transduction systems.
57 S1m) in human neuroblastoma SH-SY5Y cells on signal transduction systems.
58 exists proteins and, in particular, protein signal transduction systems.
59 a comprehensive classification of microbial signal transduction systems.
60 thogeneicity islands (SPI) and two component signal transduction systems.
61 witch) makes it an essential feature of many signal transduction systems.
62 , including quorum sensing and two-component signal transduction systems.
63 transcriptional regulators and two-component signal transduction systems.
64 nisms are often controlled via two-component signal transduction systems.
65 scades of chemical reactions that constitute signal transduction systems.
66 ract, has only four identified two-component signal transduction systems.
67 nges via several broad categories of sensory signal transduction systems.
68 s insight into how fidelity is maintained in signal transduction systems.
69 and kinases and their response regulators in signal-transduction systems.
70 ir response to these signals through complex signaling transduction systems.
71 How is specificity encoded in calcium-based signal transduction systems?
73 mily that regulates membrane trafficking and signal transduction systems able to control diverse cell
76 se (AioBA) is regulated by a three-component signal transduction system AioXSR, which is in turn regu
78 Signaling nucleotides are integral parts of signal transduction systems allowing bacteria to cope wi
80 long to a two-component His-Asp phosphorelay signal transduction system and that MrpC autoregulate it
81 scherichia coli, the CpxA-CpxR two-component signal transduction system and the sigma(E) and sigma(32
82 n and mode of action has been a paradigm for signal transduction systems and has shaped our understan
83 ium Vibrio furnissii involves at least three signal transduction systems and many genes, several of w
85 nately controlled by different two-component signal transduction systems and transcriptional regulato
87 stem: AgrA and AgrC resemble a two-component signal transduction system, and AgrB and AgrD are requir
89 l model that characterizes the dynamics of a signal transduction system, and that accounts comprehens
90 he intensity and duration of activation of a signal transduction system are important determinants of
93 onse regulator proteins within two-component signal transduction systems are activated by phosphoryla
95 tract infection model, suggesting that these signal transduction systems are important for the in viv
98 mong them, the CreBC and ArcAB two-component signal transduction systems are responsible for regulati
106 a variation of the well-known two-component signal transduction systems, as there are a transmembran
107 protein-protein interaction influencing the signal transduction system associated with cell adhesion
108 imilar to response regulators of 2-component signal transduction systems, but may not be phosphorylat
109 S. typhimurium mutated in the PhoP/PhoQ signal transduction system caused significantly less kil
110 javacas, suggesting an ancient origin of the signal transduction systems commonly associated with the
112 a developmental process governed by a novel signal transduction system composed of three two-compone
115 Helicobacter pylori ArsS-ArsR two-component signal transduction system, comprised of a sensor histid
117 yotic genomes, we found that the majority of signal transduction systems consist of a single protein
119 We identified an atypical phase-variable signal transduction system consisting of a histidine kin
120 the Helicobacter pylori ArsRS two-component signal transduction system contributes to acid-responsiv
121 sponse regulators (RRs) within two-component signal transduction systems control a variety of cellula
129 und that the global regulatory two-component signal transduction system CovRS mediates the ability of
130 ations affecting the BarA/UvrY two-component signal transduction system decreased csrB transcription
131 genic lines with agonists of the PKC and PKA signal transduction systems demonstrates that this remot
132 gn with any of the 13 proposed two-component signal transduction systems derived from in silico analy
133 P metabolism is highly regulated via various signal transduction systems, e.g., several serine/threon
135 a pertussis are regulated by a two-component signal transduction system encoded by the bvg regulatory
136 f many virulence factors via a two-component signal transduction system encoded by the bvgAS regulato
138 diate response regulator of the phosphorelay signal transduction system for sporulation initiation in
140 ted a potential requirement of two-component signal transduction systems for acid resistance in Helic
141 roach, including elements of a two-component signal transduction systems for thermoregulation, and a
143 respond to P availability and is typical of signal transduction systems found in diverse organisms.
144 nsing system of E. faecalis, a two-component signal transduction system, has also been repeatedly lin
145 ose/lactose branch of the phosphotransferase signal transduction system, has been determined by NMR s
147 -DosT/DevRS-Rv2027c, and MprAB two-component signal transduction systems have previously been implica
148 ella pathogenicity islands and two component signal transduction systems, have been mainly focused.
149 d genome that encodes only two two-component signal transduction systems, Hk1-Rrp1 and Hk2-Rrp2 (in a
150 owledge, the BumSR TCS is the only bacterial signal transduction system identified so far that mediat
151 The YycFG two-component system is the only signal transduction system in Bacillus subtilis known to
155 dicted response regulator of a two-component signal transduction system in M. catarrhalis yielded a m
157 ating the phosphatidylinositol 3'-kinase/Akt signal transduction system in VEGF-mediated neuroprotect
158 hese results identify a branched proteolytic signal transduction system in which a single intramembra
159 expression is controlled by a novel type of signal transduction system in which activity of a site-s
165 th factor (EGF)/EGF receptor (EGFR), two key signal transduction systems in the normal and diseased l
166 orylation, notably in studying two-component signal transduction systems in which low molecular weigh
167 nA, functions by activating the phosphorelay signal-transduction system in response to as yet unknown
168 expression through various second-messenger signal transduction systems including activation of the
169 ted ras causes increased activity of several signal transduction systems, including the mitogen-activ
171 dpiBA operon, which encodes a two-component signal transduction system involved in the SOS response
173 inking two independent cyclic GMP-generating signal transduction systems involved in regulation of ur
177 component system and that the CseBC-sigma(E) signal transduction system is induced by a wide variety
180 ur data suggest that the BasSR two component signal transduction system is the likely adrenaline sens
181 y function of the Nla28S/Nla28 two-component signal transduction system is to regulate sporulation ge
184 he kinase partner of the MtrAB two-component signal transduction system, is necessary for the optimal
185 res the ComA response regulator of the ComPA signal transduction system, is repressed by Spx-alphaCTD
190 e database was updated to include classes of signal transduction systems modulated by either phosphor
193 sponse regulator of a putative two-component signal transduction system, mtrA-mtrB, of M. tuberculosi
194 trol the expression of a novel two-component signal transduction system, named FusKR, where FusK is t
199 stem: AgrA and AgrC resemble a two-component signal transduction system of which AgrC is a sensor kin
200 ent plasma to influence the NF-kappaB and GR-signal transduction systems of normal peripheral blood l
202 response regulator proteins of two-component signal transduction systems, phosphorylation of an aspar
204 ron binding proteins, but here we describe a signal transduction system (PmrA/PmrB) that responds to
205 mmunication systems, pervasive two-component signal-transduction systems, post-transcriptional regula
209 x pathway, raising the possibility that this signal transduction system provides a means for V. chole
210 tuberculosis requires the phosphate-sensing signal transduction system Pst/SenX3-RegX3 to resist hos
216 central to phosphotransfer in two-component signal transduction systems, regulating phosphorylation
217 e often response regulators of two-component signal transduction systems, remodel the polymerase so t
219 sensor kinase of the VieSAB three-component signal transduction system, resulted in failure to induc
220 fective in the vanRS and cseBC cell envelope signal transduction systems revealed significant cross-t
221 we identified the regulon of a two-component signal transduction system, SaeRS, and demonstrated that
222 his phenotype were mapped to a two-component signal transduction system similar to PmrAB of Salmonell
223 be regulated by a part of the two-component signal transduction system similar to that described for
224 he critical question of how a component of a signal transduction system specifically associates with
225 ral response regulators of the two-component signal transduction system, such as Pseudomonas aerugino
226 and discovered that the BumSR two-component signal transduction system (TCS) directs a response to b
227 d CiaH of S. mutans comprise a two-component signal transduction system (TCS) involved in regulating
230 sed studies have identified 13 two-component signal transduction systems (TCS) in Streptococcus pneum
231 us to investigate the role of two-component signal transduction systems (TCS), particularly the sens
234 tematic analysis of the entire two-component signal transduction system (TCSTS) gene complement of St
239 re gene complement of putative two-component signal transduction systems (TCSTSs) in Streptococcus pn
242 bsiella pneumoniae, comprise a two-component signal transduction system that can modulate the replica
243 s are key components of the high-performance signal transduction system that controls bacterial chemo
244 egulated histidine kinases, which initiate a signal transduction system that controls expression of g
245 e model of the sophisticated decision-making signal transduction system that determines the fate betw
246 diated through activation of a two-component signal transduction system that directly regulates the e
247 The Rcs phosphorelay is a two-component signal transduction system that is induced by cell envel
248 he nervous system and represent a widespread signal transduction system that is involved in the regul
250 nd HptA appear to constitute a two-component signal transduction system that regulates DMSO reduction
251 des a previously characterized two-component signal transduction system that regulates gene expressio
252 ay is an evolutionarily conserved ubiquitous signal transduction system that regulates many cell func
255 suggest that motile P. aeruginosa cells have signal transduction systems that are adapted to allow no
258 ) bioenergetic genes, and the epigenomic and signal transduction systems that coordinate these disper
260 regulated genes; the regulatory circuits and signal transduction systems that mediate the adaptive re
263 ress response, a protein quality-control and signal-transduction system that has not been well studie
264 ights into the interplays between ubiquitous signalling transduction systems that were most studied i
265 presentatives of the bacterial two-component signal transduction system, the combination of covarianc
266 findings establish a link between two major signal transduction systems: the inositol phosphates and
268 , known as CSP, is sensed by a two-component signal transduction system through a membrane receptor,
269 ndergoes conformational changes activating a signal transduction system through its associated hetero
270 modules control the output of two-component signal transduction systems through proteinratioprotein
271 ficile employs phase variation of the CmrRST signal transduction system to generate phenotypic hetero
272 AS (Bordetella virulence gene) two-component signal transduction system to sense the environment and
273 t, we constructed an insulated, modular GPCR signal transduction system to study how the response to
274 evere diarrheal disease cholera, has evolved signal transduction systems to control co-ordinately the
275 cterial pathogens have evolved sophisticated signal transduction systems to coordinately control the
276 logical material that has been combined with signal transduction systems to develop artificial chemos
277 starvation, integrates the activity of three signal transduction systems to regulate the level of the
278 transcription, bacteria use several types of signal transduction systems to sense the external enviro
280 t component of the bacterial phosphotransfer signal transduction system, undergoes one of the largest
281 RegB/RegA comprise a global redox-sensing signal transduction system utilized by a wide range of p
282 regulatory systems, the predominant form of signal transduction systems utilized by prokaryotes.
284 interactions that occur in the reconstituted signal transduction systems, we observed that essentiall
285 tibiotics that acted as inducers of the sigE signal transduction system were all inhibitors of interm
287 YycH protein, regulated the activity of this signal transduction system, whereas no function could be
289 contains a homolog of the CpxRA 2-component signal transduction system, which controls the cell enve
290 vation of the MtrAB two-component regulatory signal transduction system, which includes sensor kinase
291 gulated, in part, by the MprAB two-component signal transduction system, which is activated by and me
293 t is a member of the envZ-ompR two-component signal transduction system, which regulates outer membra
294 csrB/C requires the BarA-UvrY two component signal transduction system, which responds to short chai
296 on (ECF) sigma factors are a major family of signal transduction systems, which sense and respond to
299 we hypothesized that the components of this signal transduction system would be deregulated as breas
300 studies revealed that a novel two-component signal transduction system, YhcSR, is essential for the