ライフサイエンスコーパス: anaerobic bacteria

1 ss regulator identified and characterized in anaerobic bacteria.

2 f certain species of aerobic and facultative anaerobic bacteria.

3 er than the BBL GasPak systems for growth of anaerobic bacteria.

4 but also effective recovery of facultatively anaerobic bacteria.

5 rom children were submitted for cultures for anaerobic bacteria.

6 oxidative stress resistance in aerotolerant anaerobic bacteria.

7 llary sinusitis were studied for aerobic and anaerobic bacteria.

8 l vaginosis (BV) have complex communities of anaerobic bacteria.

9 eficial lactobacilli and the augmentation of anaerobic bacteria.

10 e that PCBs and PCDD/Fs are dechlorinated by anaerobic bacteria.

11 id, inexpensive method for identification of anaerobic bacteria.

12 tural environments from inorganic mercury by anaerobic bacteria.

13 s were examined for the presence of obligate anaerobic bacteria.

14 tal, a process that is primarily mediated by anaerobic bacteria.

15 extracellular complexes produced by numerous anaerobic bacteria.

16 group A Streptococcus (GAS) or mixed aerobic/anaerobic bacteria.

17 unction may be a common feature within these anaerobic bacteria.

18 genus) are supplanted by a diverse array of anaerobic bacteria.

19 at catalyze the formation of hydrogen gas in anaerobic bacteria.

20 olved in the reduction of superoxide in some anaerobic bacteria.

21 ections were streptococcal, and 20% included anaerobic bacteria.

22 -acquired infection should treat aerobic and anaerobic bacteria.

23 tures of aerobic, facultative anaerobic, and anaerobic bacteria.

24 was the only determinant of the presence of anaerobic bacteria.

25 Of these, 99% are anaerobic bacteria.

26 ve clinical outcomes when infections involve anaerobic bacteria.

27 f bloodstream infection caused by obligately anaerobic bacteria (10 versus 3, P < 0.05; 10 versus 0,

28 ction (23/137 [17%]) and infection including anaerobic bacteria (10/49 [20%]; p < 0.00001, chi(2), 4

29 ed significantly more isolates of obligately anaerobic bacteria (16 versus 4, P < 0.05; 16 versus 0,

30 minant organisms isolated (49%), followed by anaerobic bacteria (16%), and Staphylococcus aureus (12%

31 ltured, 368 yielded 606 isolates of obligate anaerobic bacteria (248 from dogs, 50 from cats, and 308

32 ardnerella vaginalis predominated with other anaerobic bacteria (40.8%)-were identified in 688 women

33 We tested 322 clinically significant anaerobic bacteria according to the manufacturer's instr

34 acterized by a reduced abundance of obligate anaerobic bacteria and an expansion of facultative Prote

35 It enables anaerobic bacteria and archaea to reduce the low-potenti

36 h very high similarity to the rubredoxins of anaerobic bacteria and archaea, but it also contains a r

37 me plays a central role in the metabolism of anaerobic bacteria and archaea, catalyzing the reversibl

38 wo genes that are conserved as a cassette in anaerobic bacteria and archaea, CT1276 and CT1277, displ

39 ed in oxidative stress protection in several anaerobic bacteria and archaea, we suggest a similar fun

40 (NfnAB) is found in the cytoplasm of various anaerobic bacteria and archaea.

41 and repair in many facultative and obligate anaerobic bacteria and archaea.

42 f superoxide to hydrogen peroxide in several anaerobic bacteria and archaea.

43 ead, they contain enzymes typically found in anaerobic bacteria and are capable of producing molecula

44 amixicile is an effective inhibitor of oral anaerobic bacteria and as such, is a good candidate for

45 dehydrogenase/acetyl-CoA synthase enzyme in anaerobic bacteria and by the acetyl-CoA decarbonylase/s

46 However, it is found in some anaerobic bacteria and is absent in some aerobic bacteri

47 ltured to detect the presence of aerobic and anaerobic bacteria and mycobacteria.

48 cIAIs are commonly due to mixed aerobic and anaerobic bacteria and require both source control and b

49 cultatively anaerobic bacteria or obligately anaerobic bacteria and support the routine inclusion of

50 ter, positively correlated with abundance of anaerobic bacteria, and negatively correlated with abund

51 on containing enzymes that are widespread in anaerobic bacteria, archaea, and protozoa, serving as th

52 also cause non-oxidative cell death because anaerobic bacteria are also killed.

53 However, these anaerobic bacteria are fastidious to isolate, making dow

54 Obligatory anaerobic bacteria are major contributors to the overall

55 Anaerobic bacteria are often difficult to detect, especi

56 Infections involving anaerobic bacteria are often difficult to treat because

57 Anaerobic bacteria are present in large numbers in the a

58 ding traditional CF-associated pathogens and anaerobic bacteria, are common in CF airways.

59 th gram-positive or gram-negative aerobic or anaerobic bacteria, as well as by a polymicrobial etiolo

60 red quantitatively for major facultative and anaerobic bacteria at 1, 2, 4, and 8 wk of life.

61 ound specimens were cultured for aerobic and anaerobic bacteria at a research microbiology laboratory

62 Our studies indicate that obligate anaerobic bacteria belonging to the Barnesiella genus en

63 acquisition of two dominant groups of strict anaerobic bacteria belonging to the Firmicutes and Bacte

64 rom not only enhanced recovery of obligately anaerobic bacteria but also effective recovery of facult

65 inst the enzyme target in living aerobic and anaerobic bacteria, but did not kill the bacteria or har

66 Infections due to anaerobic bacteria can be severe and life-threatening.

67 Although some strictly anaerobic bacteria can consume oxygen through an integra

68 The final steps in butyrate synthesis by anaerobic bacteria can occur via butyrate kinase and pho

69 Under anoxic conditions, certain anaerobic bacteria can oxidize dissolved elemental mercu

70 that is primarily caused by the ubiquitous, anaerobic bacteria Clostridium perfringens and Clostridi

71 abscesses can be the result of infection by anaerobic bacteria; dental plaque would seem to be a log

72 tive bacilli) and relative paucity of strict anaerobic bacteria (especially Negativicutes) precede ne

73 010) and negatively associated with strictly anaerobic bacteria, especially Negativicutes (p=0.0019).

74 oenvironment that supports the growth of two anaerobic bacteria, even when cultured in ambient oxic c

75 nical specimens more often than any group of anaerobic bacteria except Bacteroides species, yet many

76 ated the unique molecular mechanisms used by anaerobic bacteria for cellulosome cellular attachment.

77 We have here systematically assessed anaerobic bacteria for their capacity to grow expansivel

78 ure model, a selected group of gram-negative anaerobic bacteria frequently associated with periodonta

79 Recovery of aerobic and anaerobic bacteria from clinical specimens maintained in

80 aerobic bacteria from three cysts/cavities, anaerobic bacteria from one, and mixed bacteria from thr

81 widespread among anaerobic and facultatively anaerobic bacteria from soil and freshwater environments

82 Hg methylation in nongrowing cultures of the anaerobic bacteria Geobacter sulfurreducens PCA and Desu

83 These data confirm the importance of anaerobic bacteria in periapical abscesses and demonstra

84 nt of swine dysentery (SD), from other fecal anaerobic bacteria in rectal and colonic swabs.

85 icrobial nature of SSI and the importance of anaerobic bacteria in SSI following spinal fusion.

86 Growth of anaerobic bacteria in the AnaeroPack (Mitsubishi Gas Che

87 isorder characterized by increased levels of anaerobic bacteria in the genital tract.

88 inate largely as fermentation by-products of anaerobic bacteria in the gut.

89 communities suggests a role for facultative anaerobic bacteria in the initial steps of unsaturated L

90 non-coding RNA class found in extremophilic anaerobic bacteria, including certain human pathogens.

91 biofilms, while the numbers of facultatively anaerobic bacteria increased in these communities.

92 Anaerobic bacteria known to methylate mercury were notab

93 osis was observed in Gas6(-/-) mice, because anaerobic bacteria largely expanded by using inflammator

94 The production of methyl Hg by anaerobic bacteria may be limited in anoxic sediments by

95 is study, it appears that viable aerobic and anaerobic bacteria may be present within supragingival c

96 g sun cooler than today's, certain groups of anaerobic bacteria may have been pumping out large amoun

97 Anaerobic bacteria may play a role in the pathogenesis o

98 tudies have shown that probiotics containing anaerobic bacteria may reduce the rate of necrotizing en

99 ha- and gamma-proteobacteria, and thus other anaerobic bacteria must synthesize these acids using dif

100 d CVM predominantly comprised either diverse anaerobic bacteria (n = 39 [42%]), Lactobacillus iners (

101 Anaerobic bacteria of the genus Clostridia are a major t

102 The effects of BV-associated anaerobic bacteria on HIV expression in monocytoid cells

103 ria only were isolated in 13 (9%) instances, anaerobic bacteria only were isolated in 27 (19%) instan

104 only were recovered from 9 (36%) specimens, anaerobic bacteria only were recovered from 4 (16%), and

105 eam infection caused by either facultatively anaerobic bacteria or obligately anaerobic bacteria and

106 who devised culture techniques to visualize anaerobic bacteria, parasites, and spirochetes.

107 c conditions of the early atmosphere to form anaerobic bacteria, photosynthetic bacteria and eventual

108 Fastidious anaerobic bacteria play critical roles in environmental

109 ABC-flxABCD gene cluster is widespread among anaerobic bacteria, pointing to a general and important

110 support the growth of clinically significant anaerobic bacteria previously identified by the Anaerobe

111 complex interaction of commensal aerobic and anaerobic bacteria provides the constant antigenic drive

112 Nontransgenic rats colonized with anaerobic bacteria served as negative controls.

113 givalis and Filifactor alocis are fastidious anaerobic bacteria strongly associated with chronic form

114 erway presently indicates that obligate oral anaerobic bacteria such as P. gingivalis produce substan

115 Anaerobic bacteria, such as Clostridium and Salmonella,

116 from other metabolically distinct groups of anaerobic bacteria, such as denitrifying bacteria and su

117 ce of Staphylococcus (RES, 0.48; P 0.03) and anaerobic bacteria, such as Prevotella (RES, 0.25; P < 0

118 rons of all nitrogen-fixing Archaea and some anaerobic Bacteria suggests that this mode of nitrogenas

119 s the plant cell wall degrading apparatus of anaerobic bacteria termed the cellulosome.

120 entified correctly 286 of 322 (88.8%) of the anaerobic bacteria tested.

121 have CVM dominated by L. iners or by diverse anaerobic bacteria, than by L. crispatus.

122 We theorized that anaerobic bacteria that can selectively destroy the hypo

123 ty of inorganic divalent mercury (Hg(II)) to anaerobic bacteria that methylate Hg(II).

124 rcury has been attributed to the activity of anaerobic bacteria, the formation of methylmercury in th

125 le, the mechanisms that enable some obligate anaerobic bacteria to survive a sudden exposure to oxyge

126 To facilitate the uptake of released sugars, anaerobic bacteria use highly ordered protein-protein in

127 Identification of anaerobic bacteria using phenotypic methods is often tim

128 We evaluated 253 clinical isolates of anaerobic bacteria using the Bruker MALDI Biotyper (Bruk

129 ectrum antiinfective agent effective against anaerobic bacteria, viruses, and parasites.

130 In clinically stable patients, aerobic and anaerobic bacteria were detected in 40 of 40 (100%) and

131 Anaerobic bacteria were isolated in the CSF samples from

132 ecovered from 4 (16%), and mixed aerobic and anaerobic bacteria were recovered from 12 (48%).

133 These complexes were first described in anaerobic bacteria, where species-specific dockerin doma

134 as discrete elements in contrast to certain anaerobic bacteria, where they are assembled into large

135 ten characterized by a depletion of obligate anaerobic bacteria, whereas the relative abundance of fa

136 in the genomes of some methanogens and other anaerobic bacteria, which are also thought to have incom

137 vely correlating with G. vaginalis and other anaerobic bacteria, which depleted tenofovir by metaboli

138 In general, PFOR is present in all obligate anaerobic bacteria, while oral commensal aerobes, includ

139 However, there are a number of anaerobic bacteria whose genomes do not contain a fabA h

140 obic atmosphere and supporting the growth of anaerobic bacteria within 72 h.

141 , the specific labelling of live endogenous, anaerobic bacteria within the mammalian host.