ライフサイエンスコーパス: S. bovis

1 S. bovis and S. bovis variant (sometimes referred to as

2 S. bovis is divided into two biotypes: I and II.

3 Several cases of adult S. bovis meningitis have been reported, usually in assoc

4 an identify S. bovis biotype I strains among S. bovis clinical isolates.

5 S. bovis and S. bovis variant (sometimes referred to as S. bovis biot

6 reported for the Streptococcus pyogenes and S. bovis groups of species, even though many streptococc

7 S. bovis biotype II/2, those of cluster 1 as S. bovis biotype II/1, and that of cluster 2a as S. bovi

8 ovis biotype II/1, and that of cluster 2a as S. bovis biotype I.

9 system identified isolates of cluster 2b as S. bovis biotype II/2, those of cluster 1 as S. bovis bi

10 y among organisms historically classified as S. bovis.

11 ly related to and historically identified as S. bovis (e.g., S. macedonicus) are associated with mali

12 om 1975 to 1985 and previously identified as S. bovis or streptococcus group D nonenterococci were sh

13 d S. bovis variant (sometimes referred to as S. bovis biotypes I and II, respectively) are phenotypic

14 There are many reports linking both S. bovis bacteremia and endocarditis with various forms

15 atum (F. nucleatum) and Streptococcus bovis (S. bovis) for timely predicting CRC.

16 ate with bacteremia and meningitis caused by S. bovis variant (S. bovis biotype II/2) and review the

17 We estimate R(0) for S. bovis to be greater than one in cattle (1.43; 95% CI

18 nd 0.80 (95% CrI 0.73-0.85) respectively for S. bovis and F. nucleatum.

19 Compared to CTRL, lactate concentration from S. bovis JB1 was reduced approximately by 31% and 22% in

20 cellent correlation of biotype and genotype: S. bovis biotype II/2 isolates form a separate genospeci

21 However, S. bovis is capable of causing fulminant neonatal sepsis

22 potential for onward transmission of hybrid S. bovis x S. haematobium offspring within human populat

23 development of a PCR test which can identify S. bovis biotype I strains among S. bovis clinical isola

24 that are more able to definitively identify S. bovis group organisms.

25 le in the predominance of this subspecies in S. bovis endocarditis.

26 Bacterial species including S. bovis and F. nucleatum were measured by absolute quan

27 Fifteen introgressed S. bovis genes are approaching fixation in northern S. h

28 hat according to the Bayesian bivariate LCM, S. bovis and F. nucleatum had a more significant predict

29 ledge, the third documented case of neonatal S. bovis meningitis in the English language literature.

30 een disease states and different biotypes of S. bovis are apparent.

31 he CTRL, the maximum specific growth rate of S. bovis JB1 decreased by approximately 19% and 23% when

32 ayesian bivariate LCMs, the sensitivities of S. bovis and F. nucleatum were calculated as 93% (95% Cr

33 LCMs demonstrated that the sensitivities of S. bovis and F. nucleatum were estimated to be 86% [95%

34 ed by different biotypes or newer species of S. bovis.

35 s isolates with fewer genes present in other S. bovis group species/subspecies.

36 obium hybridizes with the livestock parasite S. bovis in the laboratory, but the frequency of hybridi

37 oup D nonenterococci were shown to represent S. bovis biotypes I (11 isolates) and II/2 (1 isolate),

38 orm a separate genospecies distinct from the S. bovis, S. gallolyticus, and S. infantarius type strai

39 o explore the incidence of competence in the S. bovis group, 25 isolates of S. infantarius and S. mac

40 Two of the S. bovis biotype I cases were associated with colon canc

41 clude that at least these two species of the S. bovis group retain a robust system of natural transfo

42 ovide a brief overview of the history of the S. bovis group, an outline of the currently accepted cla

43 nd epidemiological trends for members of the S. bovis group.

44 distance of about 2.5% dissimilarity to the S. bovis type strain (cluster 2) and were associated wit

45 fection (UTI), and sepsis clustered with the S. bovis type strain ATCC 33317 (cluster 1); other close

46 uately differentiate type strains within the S. bovis group (range, 0 to 37.5%).

47 itively identify all type strains within the S. bovis group.

48 ns representing all seven strains within the S. bovis group.

49 luster 2b) that was biochemically similar to S. bovis biotype II/2 (mannitol negative and beta galact

50 a and meningitis caused by S. bovis variant (S. bovis biotype II/2) and review the literature.

51 tudinal simulations, we also show that where S. bovis and S. haematobium are coendemic (in livestock

52 Whether S. bovis biotype II or other organisms closely related t

53 atio for gender and age (+/-3 years) without S. bovis bacteremia and personal history of CRN and with