ライフサイエンスコーパス: heme receptor

1 gulated gene which encodes an outer membrane heme receptor.

2 lization mutant, suggesting that HugA is the heme receptor.

3 e but share no similarity to known bacterial heme receptors.

4 s present in BhuR but not in other bacterial heme receptors.

5 HmuR and HusB TonB-dependent outer membrane heme receptors.

6 e but share no homology with known bacterial heme receptors.

7 It was designated tdhA (for TonB-dependent heme receptor A) since it was related by sequence homolo

8 While BhuR, the outer membrane heme receptor, and RhuI have been shown to be indispensa

9 ropose PhuR and HasR represent non-redundant heme receptors, capable of accessing heme across a wide

10 cum involves induction of the outer membrane heme receptor gene hmuR and other genes within the heme

11 ncoded a potential in-trans regulator of the heme receptor gene in trans.

12 the heme transport locus, downstream of the heme receptor gene shuA.

13 ediated by the outer membrane hemoglobin and heme receptor HmuR, as well as gingipain K (Kgp), a lysi

14 ve in heme-responsive production of the BhuR heme receptor; hurI in trans restored heme-inducible Bhu

15 of the mature protein of the Vibrio cholerae heme receptor, HutA.

16 Comparison of HemR with other heme receptors identified several highly conserved histi

17 ient to function as a typical TonB-dependent heme receptor in E. coli.

18 shuA encodes a 70-kDa outer membrane heme receptor in Shigella dysenteriae.

19 Although the role of outer membrane heme receptors in this process has been extensively char

20 ontains motifs which are common to bacterial heme receptors, including a consensus FRAP domain, an NP

21 Rd and also shared homology with five other heme receptors, including HxuC, HemR, HmuR, ChuA, and Sh

22 huR, which encodes a putative outer membrane heme receptor, mediates efficient acquisition of Fe from

23 s significant sequence similarity to HumA, a heme receptor of Moraxella catarrhalis, and contains con

24 ulation of the structural gene for HupA, the heme receptor of V. vulnificus.

25 transfer from the more basic outer cell wall heme receptor protein Shr.

26 The heme receptor Rev-erb alpha, a core negative component o

27 ative feedback mechanism whereby the nuclear heme receptor Rev-erbalpha tightly controls the level of

28 ntration or by providing extra copies of the heme receptor shuA on a plasmid.

29 ich is required for virulence in humans; the heme receptor TdhA; and an uncharacterized conserved hyp

30 eme utilization proteins: HugA, the putative heme receptor; TonB and ExbBD; HugB, the putative peripl

31 idence suggested that expression of the BhuR heme receptor was stimulated by the presence of heme und

32 reviously, three of six UPEC siderophore and heme receptors were identified as vaccine candidates by