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1 inders efficient microbial conversion due to carbon catabolite repression.
2     This regulatory phenomenon is defined as carbon catabolite repression.
3  carbon source, glucose, in a process called carbon catabolite repression.
4 he transcriptome appeared to be regulated by carbon catabolite repression.
5 pleiotropic developmental processes, but not carbon catabolite repression.
6 egulation of an array of functions including carbon catabolite repression.
7 l's major citrate synthase and is subject to carbon catabolite repression.
8 ion or phosphorylation at His-15 can prevent carbon catabolite repression.
9 phorylatable alanyl residue are resistant to carbon catabolite repression.
10 ]) on the chromosome was barely sensitive to carbon catabolite repression, although the H15A mutant H
11   Expression of fruA is under the control of carbon catabolite repression and is induced by growth in
12  suggest that His-15 of HPr is important for carbon catabolite repression and that either mutation or
13 in A (CcpA), a highly conserved regulator of carbon catabolite repression and virulence in a number o
14  in regulating central carbon metabolism and carbon catabolite repression, and is a frequent target o
15 including mechanisms of signal transduction, carbon catabolite repression, and quorum-sensing.
16 phorylation of HPr at Ser-46 is required for carbon catabolite repression as ptsH1 mutants in which S
17                                              Carbon catabolite repression (CCR) allows bacteria to al
18 ansports mannose and glucose, is involved in carbon catabolite repression (CCR) and regulates the exp
19 uscatabolite control protein (CcpA) mediates carbon catabolite repression (CCR) by controlling expres
20 ents (CREs), which have been shown to govern carbon catabolite repression (CCR) by functioning as neg
21  transcriptional regulator that accounts for carbon catabolite repression (CCR) control of the anaero
22               CcpA is the global mediator of carbon catabolite repression (CCR) in gram-positive bact
23 in ptsH, two regulatory genes that carry out carbon catabolite repression (CCR) in staphylococci and
24                                              Carbon catabolite repression (CCR) is a regulatory pheno
25                                              Carbon catabolite repression (CCR) is a regulatory pheno
26                            In many bacteria, carbon catabolite repression (CCR) is central to such re
27                                              Carbon catabolite repression (CCR) is one of the most fu
28         In Bacillus subtilis, CcpA-dependent carbon catabolite repression (CCR) mediated at several c
29                        In Bacillus subtilis, carbon catabolite repression (CCR) of many genes is medi
30 llus subtilis mutant that partially relieves carbon catabolite repression (CCR) of the hut operon was
31 in biofilm formation were under some form of carbon catabolite repression (CCR), a regulatory network
32 onse also includes inhibited glycolysis, and carbon catabolite repression (CCR)-mediated carbohydrate
33 emonstrated that CcpA plays a direct role in carbon catabolite repression (CCR).
34 e and integral to pneumococcus's strategy of carbon catabolite repression (CCR).
35  regulator (arcA and etrA [fnr homolog]) and carbon catabolite repression (crp and cya) proteins affe
36  important physiological roles, ranging from carbon catabolite repression in bacteria to mediating th
37 tion of ENR to the regulatory network behind carbon catabolite repression in Escherichia coli is pres
38 ation state of which is the control point of carbon catabolite repression in low G+C Gram-positive ba
39       In enteric bacteria, the key player of carbon catabolite repression is a component of the gluco
40 ion, compared with a relatively weak role in carbon catabolite repression, is similar to the role of
41                               CreA-dependent carbon catabolite repression of starch and ethanol utili
42                                  Synergistic carbon catabolite repression of the Bacillus subtilis ac
43                                              Carbon catabolite repression of the Bacillus subtilis ci
44                                              Carbon catabolite repression of the gnt operon of Bacill
45 ate-dependent phosphorylation, also prevents carbon catabolite repression of the gnt operon.
46 r glucose or casamino acids, suggesting that carbon catabolite repression plays a role in regulating
47 ylococcal abscess formation, indicating that carbon catabolite repression presents an important patho
48 s as the master transcriptional regulator of carbon catabolite repression/regulation (CCR).
49 changes in carbon source can favor different carbon catabolite repression strategies.
50   It is concluded that the components of the carbon catabolite repression system are essential to reg

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