ライフサイエンスコーパス: molecular typing

1 cid sequences of the peptide-binding region (molecular typing).

2 ive adhesin protein (PvpA) as the target for molecular typing.

3 ed for antifungal susceptibility testing and molecular typing.

4 ent antimicrobial susceptibility testing and molecular typing.

5 iverse species and strains, as determined by molecular typing.

6 ecimens were cultured and isolates underwent molecular typing.

7 omprehensive drug susceptibility testing and molecular typing.

8 (A to H), which are distinguishable only by molecular typing.

9 their exacerbation (72%), was analyzed using molecular typing.

10 ous for early detection and is essential for molecular typing.

11 genous strains is often made on the basis of molecular typing.

12 Some MRSA isolates were not available for molecular typing.

13 hly in a prospective study were subjected to molecular typing.

14 On the basis of molecular typing, an exacerbation was diagnosed at 33.0

15 We performed whole-genome sequencing and molecular typing and AMR determinants were derived from

16 Molecular typing and AMR determinants were extracted fro

17 says will provide an improved capability for molecular typing and clinical diagnostics, as well as fa

18 e most widely used programs for genome-based molecular typing and demonstrate its ease of use, accura

19 ithm STing to provide turn-key solutions for molecular typing and gene detection directly from next g

20 We also performed molecular typing and in vitro susceptibility testing of

21 Our novel molecular typing and strain clustering schemes for S. mi

22 re successfully assembled to obtain the full molecular typing and vaccine antigen profile of the N. m

23 Molecular typing and virulence analysis are powerful too

24 by using a chromogenic medium, subculturing, molecular typing, and antifungal susceptibility testing

25 ew pathway for delivering disease diagnosis, molecular typing, and detection of antimicrobial resista

26 related infection, characterized microbes by molecular typing, and determined their susceptibility to

27 cterized, including susceptibility profiles, molecular typing, and molecular characterization of plas

28 m may be useful for epidemiological studies, molecular typing, and surveillance of Aspergillus specie

29 A comprehensive range of investigations and molecular typing are essential to accurately predict pro

30 The applicability of this molecular typing assay for environmental studies was dem

31 commercially available HAdV PCR assay and a molecular typing assay for species identification.

32 Methods for molecular typing based on phylogenetic comparisons of a

33 Molecular typing based on the allelic profile of houseke

34 rriage in a contact patient was positive and molecular typing by pulsed-field gel electrophoresis (PF

35 Serotyping and molecular typing by pulsed-field gel electrophoresis wer

36 Molecular typing by three independent methods establishe

37 ens from leprosy patients for the purpose of molecular typing by using short tandem repeats; the succ

38 Since molecular typing can complement contact tracing for reco

39 Molecular typing can estimate an E. coli isolate's extra

40 ifferent molecular typing systems, and thus, molecular typing cannot be the only means used to track

41 Molecular typing complements sequence-based identificati

42 Molecular typing confirmed these changes were likely due

43 Limited comprehensive molecular typing data exist currently for Panton-Valenti

44 tory infection were characterized to compile molecular typing data spanning 37 years (1978-2014).

45 for class I HLA antigens and low-resolution molecular typing for class II HLA alleles.

46 Case records were reviewed and molecular typing for common carbapenemases was performed

47 tion, we have developed a technique based on molecular typing for HLA class II alleles, which enables

48 Because molecular typing has been increasingly used since 1996,

49 Molecular typing identified 120 episodes of acquisition

50 Molecular typing identified 3 statistically distinct gen

51 Molecular typing identified 36 cases associated with AdV

52 Molecular typing indicated that 48 isolates were L. borg

53 Molecular typing indicated that the outbreak was due to

54 Molecular typing is an important adjunct to nucleic acid

55 These results indicate that PrP(Sc) molecular typing is based on quantitative rather than qu

56 In conclusion, molecular typing lowered the rate of DR and DQ blanks, b

57 el, based on 14 gene parameters, including 3 molecular typing markers and 11 genes implicated in redu

58 ation was evident between the results of one molecular typing method and those of the others, suggest

59 A molecular typing method based on the 16S rRNA sequence d

60 nce typing (MLST) is a highly discriminatory molecular typing method that defines isolates of bacteri

61 We therefore developed a molecular typing method to examine these isolates.

62 We report on a comparison of four molecular typing methods (ribotyping, pulsed-field gel e

63 Combining molecular typing methods and geographical information sy

64 Molecular typing methods can discriminate unique alleles

65 Molecular typing methods combined with spatial analysis

66 Commonly used rapid molecular typing methods often leave large groups of Man

67 Molecular typing methods were used to characterize 38 Es

68 fication can be coupled with error-sensitive molecular typing methods with low-copy-number sequences

69 The molecular typing methods, i.e., PFGE, MLST, and Rep-PCR,

70 Three molecular typing methods, IS6110 restriction fragment le

71 Among the several molecular typing methods, pulsed-field gel electrophores

72 ducibility were compared with those of other molecular typing methods.

73 and capable of higher throughput than other molecular typing methods.

74 from a single institution, were identical by molecular typing methods.

75 tes prior to conducting more labor-intensive molecular typing methods.

76 ed by antibiotic susceptibility patterns and molecular typing methods.

77 morphism (RFLP) analysis and three PCR-based molecular typing methods: random amplified polymorphic D

78 from cultures of sputum was performed by two molecular typing methods: spacer oligonucleotide typing

79 Current molecular-typing methods for detection of outbreaks and

80 is the current "gold standard" for bacterial molecular typing, multilocus sequence typing (MLST) may

81 Molecular typing of 246 Staphylococcus aureus isolates f

82 The molecular typing of 81 pretreatment Helicobacter pylori

83 ove the discriminatory power of allele-based molecular typing of B. pertussis, we have developed a wh

84 iguous and electronically portable, allowing molecular typing of bacterial pathogens (or other infect

85 We used molecular typing of Borrelia burgdorferi isolates obtain

86 latively rapid and discriminatory method for molecular typing of C. rugosa in outbreaks.

87 Molecular typing of ESBL-producing E. coli is useful for

88 Advances in molecular typing of fusariosis would facilitate the stud

89 protocols were prepared for serological and molecular typing of GBS strains based on the Strep-B-Lat

90 and epidemiological data were combined with molecular typing of gonococcal isolates by a new methodo

91 Included were studies in which molecular typing of HLA-DRB1 alleles was performed and i

92 Molecular typing of HLA-DRB1 and HLA-DQB1 alleles reveal

93 In addition to case ascertainment, molecular typing of isolates was performed to characteri

94 Clinical information, sputum cultures, molecular typing of isolates, and immunoassays to measur

95 High resolution molecular typing of large, clinically well-defined cohor

96 hat RAPD and AFLP provide valuable tools for molecular typing of M. bovis.

97 ng loci, has become the method of choice for molecular typing of many bacterial and fungal pathogens

98 Molecular typing of Mycobacterium tuberculosis by using

99 Molecular typing of Mycobacterium tuberculosis can be us

100 repeat (VNTR) analysis (MLVA) method for the molecular typing of Mycoplasma pneumoniae.

101 Molecular typing of Neisseria gonorrhoeae and contact tr

102 Molecular typing of Neisseria gonorrhoeae strains is an

103 Molecular typing of NTHi strains revealed that five of n

104 ative catheter cultures, blood cultures, and molecular typing of organisms to determine catheter-rela

105 sequence itself and have been useful for the molecular typing of other organisms.

106 Molecular typing of respiratory specimens from 9 patient

107 Molecular typing of S aureus strains was performed by re

108 Molecular typing of sputum isolates of nonencapsulated H

109 ic systems in A. fumigatus; for example, the molecular typing of strains during infection.

110 Molecular typing of the abnormal form of the prion prote

111 Detailed molecular typing of the above alleles has previously not

112 Molecular typing of the actinomycete Rhodococcus equi is

113 were improved to enable rapid and convenient molecular typing of the strains.

114 Molecular typing of the tumor by DNA sequencing supports

115 Continued molecular typing of this organism, particularly during o

116 spacer region (ISR) sequence analysis to the molecular typing of U.S. PDD-associated Treponema isolat

117 We conducted a case-series investigation, molecular typing of viral isolates, surveys of rates of

118 typing (NG-MAST) is a highly discriminatory molecular typing procedure that provides precise and una

119 ak setting was identified using a variety of molecular typing procedures, resulting in two P1 genotyp

120 plified and sequenced, and the antigenic and molecular typing results agreed for all isolates.

121 Molecular typing results obtained both by spa sequencing

122 Molecular typing revealed marked temporal clustering of

123 Molecular typing revealed that almost all patients withi

124 Molecular typing revealed that the strains harbored the

125 Molecular typing revealed the genotype of these strains

126 yping for Antimicrobial Resistance (NG-STAR) molecular typing scheme uses the DNA sequences of 7 gene

127 5 KD samples were unable to be cultured and molecular typing showed either HAdV-C (n = 3) or were no

128 Molecular typing showed that all P. fluorescens isolates

129 Molecular typing showed that most patients had similar s

130 identified a single physician (physician 4); molecular typing showed that the MRSA strain from physic

131 These changes and molecular typing suggest that the United States is on th

132 Molecular typing suggested the spread of a single genoty

133 In this paper, we present a novel molecular typing system based on rapidly evolving variab

134 We have developed a molecular typing system based on reverse transcription-P

135 No molecular typing system currently exists to allow for th

136 We recently developed a molecular typing system for Campylobacter jejuni and Cam

137 tilizing these polymorphisms, we developed a molecular typing system that allows for the genetic diff

138 We propose that the scheme is an important molecular typing system to allow accurate and reproducib

139 botyping in conjunction with a semiautomated molecular typing system.

140 cent years a wide variety of biochemical and molecular typing systems has been employed in the study

141 Molecular typing systems have shown associations of V. v

142 lar fingerprint of a strain in two different molecular typing systems, and thus, molecular typing can

143 ping (MLST) approach with a well-established molecular typing technique, pulsed-field gel electrophor

144 is review, we highlight the role that modern molecular typing techniques can play in tracking and abo

145 system would be greatly bolstered by use of molecular typing techniques to identify genetic subtypes

146 relation between Vsp profiles and any of the molecular typing techniques was observed.

147 Vsp) profiles on the profiles generated with molecular typing techniques was studied.

148 KG2 genes from 68 donors were analyzed using molecular typing techniques.

149 . aureus were collected and characterized by molecular typing techniques.

150 re characterized by a combination of several molecular typing techniques: multilocus sequence typing,

151 We did molecular typing to investigate genetic relatedness of n

152 he performance of the DiversiLab system as a molecular typing tool for 69 Aspergillus isolates (38 A.

153 typing by PFGE appears to be the most useful molecular typing tool for discrimination among strains o

154 WGS has come of age as a molecular typing tool to inform national surveillance of

155 Effective and easy-to-use molecular typing tools are essential for understanding b

156 The availability of discriminatory molecular typing tools to inform and assist conventional

157 Molecular typing was done by repetitive-sequence PCR to

158 Molecular typing was done, and risk factors for MRSA col

159 Molecular typing was performed in almost all studies, wi

160 Molecular typing was performed on E. coli isolates to de

161 Molecular typing was used to elucidate Neisseria gonorrh

162 including virus isolation and comprehensive molecular typing were performed.

163 Molecular typing with IS6110 was applied to Mycobacteriu

164 ricin B, voriconazole, and itraconazole; and molecular typing with random amplification of polymorphi

165 Molecular typing with the RAPD technique was useful in d