ライフサイエンスコーパス: Chlamydiaceae

1 thway toward the synthesis of menaquinone in Chlamydiaceae.

2 salicylaldehydes, can inhibit the growth of Chlamydiaceae.

3 overall gene content in comparison to other Chlamydiaceae.

4 l bacteria in the order Chlamydiales, family Chlamydiaceae.

5 Two tests exclusively recognized the Chlamydiaceae: a multiplex test targeting the ompA gene

6 nted, C.caviae provides a good model for the Chlamydiaceae and a point of comparison against the huma

7 hanism that is central to the biology of the Chlamydiaceae and many other pathogens whose virulence d

8 or circular peptidoglycan-like structures in Chlamydiaceae and penicillin inhibits cytokinesis, a phe

9 hesize tryptophan is not universal among the Chlamydiaceae, but species that have a predicted tryptop

10 a hypothetical protein unique to the family Chlamydiaceae, CT795, elicit strong immune responses in

11 Chlamydiaceae do not appear to encode amino acid racemas

12 Intracellular Chlamydiaceae do not need to resist osmotic challenges a

13 Genome sequencing of members of the Chlamydiaceae family and Protochlamydia amoebophila has

14 sis that PG is synthesized by members of the Chlamydiaceae family and suggest that D-amino acids, spe

15 ies with a complete genome sequence from the Chlamydiaceae family of obligate intracellular bacterial

16 ned to 1.95 A resolution in complex with the Chlamydiaceae family-specific trisaccharide antigen Kdo(

17 his crucial addition to the set of completed Chlamydiaceae genome sequences is enabling dissection of

18 were conserved in all three other completed Chlamydiaceae genomes.

19 Genomic analysis of the Chlamydiaceae has revealed a multigene family encoding l

20 ndicate that only some members of the family Chlamydiaceae have an arginine-responsive mechanism of g

21 ood from 44 patients were assessed for seven Chlamydiaceae infections by three polymerase chain react

22 with LcrE produced from the three species of Chlamydiaceae; LcrH-2 from C. psittaci reacted with LcrE

23 ch shows that intracellular bacteria such as Chlamydiaceae may also undergo recombination but whether

24 em were detected at high prevalence, notably Chlamydiaceae on all colonies (32.1% [26.6-38] in seabir

25 Members of the family Chlamydiaceae possess at least 13 genes, distributed thr

26 an (PG)-synthesis proteins suggests that the Chlamydiaceae possess the ability to synthesize PG yet b

27 significantly from previously characterized Chlamydiaceae-specific mAbs despite being raised against

28 We analyzed this site in 45 Chlamydiaceae strains having diverse geographical and pa

29 centration of > or =20 microM; inhibited all Chlamydiaceae tested; and could inhibit the development

30 In Chlamydiaceae, the nucleotide sequence between the 5S rR

31 Thus, it appears that in the Chlamydiaceae TTS, LcrH-2 interacts with LcrE, and there

32 d in biopsies of 39 patients (89%); no other Chlamydiaceae were detected.