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1 apparatus) and sipB (a substrate of the SPI1 export apparatus).
2 flagellar rotor switch complex and flagellar export apparatus.
3 membrane proteins that compose the so-called export apparatus.
4 on of the protein is linked to the flagellar export apparatus.
5 he switching of substrate specificity of the export apparatus.
6 revealing features of the rotor, stator and export apparatus.
7 ponents are exported by a flagellum-specific export apparatus.
8 Cia proteins are secreted from the flagellar export apparatus.
9 were still recruited to assemble the type I export apparatus.
10 s a member of the flagellum-specific protein export apparatus.
11 FlhB, a component of the type III flagellar export apparatus.
12 oplasmic component of the type III flagellar export apparatus.
13 ponents of the Salmonella type III flagellar export apparatus.
14 odes a protein that is exported via the SPI1 export apparatus.
15 asion proteins secreted by the SPI1 type III export apparatus.
16 required for the assembly or function of the export apparatus.
17 lves feedback from the assembly point to the export apparatus.
18 scB-L proteins of the yersiniae Yop type III export apparatus.
19 h other components in the flagellum-specific export apparatus.
20 nal signal sequence that targets them to the export apparatus.
21 FliJ is a general component of the flagellar export apparatus and has a chaperone-like activity for b
22 rved of the membrane-bound components of the export apparatus and has not been annotated for any of t
23 the needle complex base is initiated at the export apparatus and that, in the absence of export appa
24 ts of the inner membrane-localized flagellar export apparatus and the FlgSR two-component regulatory
25 uction of or signaling between the flagellar export apparatus and the FlgSR two-component regulatory
26 tor), spaS (a component of the SPI1 type III export apparatus) and sipB (a substrate of the SPI1 expo
27 ssociated needle complex, the inner membrane export apparatus, and a large cytoplasmic sorting platfo
31 pression or a typical defect in the flagella export apparatus as there was no class III gene downregu
32 ctural components of the MS ring, switch and export apparatus, as well as the genes encoding both Fli
35 rast, the secretin SctC (YscC) and the major export apparatus component SctV (YscV) display minimal e
36 basal body proteins, the flagellar type III export apparatus components FliO, FliP, FliQ, FliR, FlhA
37 export apparatus and that, in the absence of export apparatus components, there is a significant redu
39 The membrane-embedded part of the flagellar export apparatus contains five essential proteins: FlhA,
41 a gene encoding a component of the flagella export apparatus, eliminated lipase but not protease or
42 es with or works downstream of the flagellar export apparatus-FlgSR pathway to influence sigma(54)-de
43 ain of the largest membrane component of the export apparatus, FlhA; although small deletions in FliJ
44 a protein that is believed to be part of the export apparatus for flagellum assembly and which is hom
48 arily related to bacterial flagellar protein export apparatuses (fT3SSs), which are essential for fla
50 is linked to and downstream of the flagellar export apparatus in a regulatory cascade that terminates
51 em (T3SS) chaperones pilot substrates to the export apparatus in a secretion-competent state, and are
53 e locations of five proteins involved in the export apparatus including FliI, whose position below th
54 srupting certain components of the flagellar export apparatus inhibited transcription of the RpoN reg
55 wo of its proteins; that the RNA capping and export apparatus is a hollow cylinder, which probably se
56 liI from hydrolysing ATP until the flagellar export apparatus is competent to link this hydrolysis to
60 demonstrate here that the type III secretion export apparatus is required for the assembly of the nee
63 ns among several components of the flagellar export apparatus of Salmonella were studied using affini
65 in which at least the FlhA component of the export apparatus physically interacts with the MS ring w
66 and FliJ) of the type III flagellar protein export apparatus, plus the cytoplasmic domains (FlhAC an
71 FliH is a soluble component of the flagellar export apparatus that binds to the ATPase FliI, and nega
72 nvolves the synthesis of a dedicated protein export apparatus that subsequently transports other flag
73 liI mutants of C. jejuni that form flagellar export apparatuses that are secretion incompetent, we de
74 naceous components of the protein import and export apparatuses, the lipids found within plastid memb
75 The pre-inhibitor is cleaved by the protein export apparatus to a putative pro-inhibitor that is fur
76 gether with a membrane protein, FlhB, of the export apparatus to mediate the switching of export subs
77 the bacterial flagellum, a specific protein export apparatus utilizes ATP and proton motive force (P
79 agellar proteins are exported via a type III export apparatus which, in part, consists of the membran
80 FlhA is a component of the flagellar protein export apparatus, with an integral membrane domain encom
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