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1  M. oralis along with 14 bacteria, including S. intermedius.
2 only known case of metastatic infection with S. intermedius.
3 te the possibility of cryptic species within S. intermedius.
4 the evolution of morphological divergence of S. intermedius.
5 o genetic evidence of cryptic species within S. intermedius.
6 ed the strains to be methicillin-susceptible S. intermedius.
7 icated that the dominant species present was S. intermedius.
8  patient also was tested and found to harbor S. intermedius.
9 eported case of a noninvasive infection with S. intermedius.
10    No hybridization signal was observed with S. intermedius.
11 Ccanine) expressed by pathogenic isolates of S. intermedius.
12  activity, which may affect pathogenicity of S. intermedius.
13 igrum as an "inadequate ID, E. faecalis 90%, S. intermedius 9%." A total of 2 of the 18 cultures of F
14 t the S. intermedius AIP is processed by the S. intermedius AgrB protein to generate a cyclic lactone
15                 We demonstrate here that the S. intermedius AIP is processed by the S. intermedius Ag
16 the bindin nucleotide diversity is close for S. intermedius and S. droebachiensis, but noticeably hig
17 t the bindin sequences from the two forms of S. intermedius are intermingled with no evidence of gene
18 ggest that A. aphrophilus, F. nucleatum, and S. intermedius are key pathogens for the establishment o
19 nalysis shows that the bacteria symbionts of S. intermedius belong to the phylum Bacteroidetes, but t
20 ould have been identified as S. anginosus or S. intermedius by biochemical tests.
21 six antibiotics of fresh S. constellatus and S. intermedius clinical isolates from human periodontiti
22    A total of 30% of the S. constellatus and S. intermedius clinical isolates were resistant in vitro
23 thern Primorye (Sea of Japan) populations of S. intermedius consist of two sympatric morphological fo
24              Subgingival S. constellatus and S. intermedius exhibited variable antibiotic susceptibil
25 have analyzed the genetic composition of the S. intermedius forms using the nucleotide sequences of t
26 ee distinct groups, with S. constellatus and S. intermedius found to be more closely related to each
27 ights the impact of robust identification of S. intermedius group organisms on the selection of appro
28                                  Previously, S. intermedius has been associated with dog bite wounds,
29              We report two separate cases of S. intermedius infection in which a false-positive rapid
30  M. oralis-inoculated mice (P < 10-6), 32/95 S. intermedius-inoculated mice (P < 10-6), and 75/104 mi
31 9 Staphylococcus aureus strains and a single S. intermedius isolate, all of which were previously typ
32 /L), and amoxicillin was most active against S. intermedius (MIC90 0.125 mg/L).
33 04 mice inoculated with M. oralis mixed with S. intermedius (P < 10-6) 7 days post-inoculation.
34  cells to surface immobilized gp340 than did S. intermedius Pas protein, or S. mutans SpaP or PAc pro
35 nger hemolytic activity mediated by ILY when S. intermedius PC574 was cultured in fetal bovine serum
36                    This unique case confirms S. intermedius pulmonary infection as the source of meta
37         We propose that the U and G forms of S. intermedius represent distinct ecomorphological adapt
38 he Streptococcus anginosus, S. gordonii, and S. intermedius species.
39  cross-inhibitor, and that all of five other S. intermedius strains examined also produce serine-cont
40 ith the Fluo-card (8%), all S. anginosus and S. intermedius strains identified by sequencing were sim
41         A total of 33 S. constellatus and 17 S. intermedius subgingival strains, each recovered from
42 had a neutralizing effect on cytotoxicity of S. intermedius toward HepG2 cells in FBS, and a higher c
43 tus was most likely to be beta-hemolytic and S. intermedius was most likely to have a dry colony type
44          In mice, a synergy of M. oralis and S. intermedius was observed.
45 LXG toxins to interbacterial interactions in S. intermedius, we show that LXG genes are prevalent in
46 re was an association of S. constellatus and S. intermedius with both the respiratory tract and upper
47 ssified as S. anginosus, S. constellatus, or S. intermedius with the API 20 Strep system (bioMerieux

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