ライフサイエンスコーパス: typing of

1 demonstrated 100% positive agreement for the typing of 179 influenza A viruses and 3 influenza B viru

2 ication was confirmed by multilocus sequence typing of 18 clinical isolates at 18 polymorphic loci.

3 Typing of 21 polymorphic markers, evenly spanning the CD

4 HLA-DRB1-DQA1-DQB1 typing of 2182 individuals was evaluated for this study

5 Molecular techniques were used for HLA typing of 219 white patients with systemic lupus erythem

6 t analyses of these families directed marker typing of 23 additional families.

7 On the basis of the typing of 24 ancestry-informative biallelic single-nucle

8 Molecular typing of 246 Staphylococcus aureus isolates from unsele

9 phylococcal chromosome cassette mec (SCCmec) typing of 261 isolates (including all hVISA isolates) re

10 Typing of 277 samples from 260 MSM identified distinct C

11 R exhibited 89% concordance with IS1245-RFLP typing of 28 M. avium subspecies avium strains.

12 DRB1 and TNF microsatellite typing of 297 Caucasian RA patients (132 men, 165 women)

13 tilocus sequence typing and antigen sequence typing of 3 outer membrane protein (OMP) genes: porA var

14 nverted high-resolution, sequence-based, HLA typing of 310 subjects from an ethnically heterogeneous

15 ormed extensive molecular identification and typing of 42 clinical isolates of M. abscessus, M. massi

16 ne marrow transplantation, we performed CD31 typing of 46 recipients of bone marrow (32 without GVHD

17 ultilocus sequence typing (MLST) results for typing of 49 of the 50 isolates; in addition to the one

18 bsp. equisimilis isolates, and attempted emm typing of 5 Streptococcus canis isolates from a recent p

19 ncy of 0.39 (range 0.13-0.71) based upon PCR typing of 54 feline markers.

20 The molecular typing of 81 pretreatment Helicobacter pylori isolates a

21 stem cell bank that circumvents prospective typing of a large number of individuals.

22 ent mixture of pathogen subtypes, laboratory typing of a subset of clinical cases can provide inferen

23 We demonstrate the simple, multiplexed typing of a variety of epigenetic cancer biomarker 5mC w

24 ed to open a new venue for the aptamer-based typing of a variety of microorganisms using a rapid, eco

25 Subsequent blood typing of affected family members confirmed the possessi

26 Therefore, confirmation and typing of amyloid are essential before initiating treatm

27 c types of systemic amyloidoses, unequivocal typing of amyloid deposits is now essential.

28 amyloidosis, histological demonstration and typing of amyloid deposits is still required for a subst

29 Typing of amyloid fibrils, a critical determinant of the

30 ly specific and sensitive novel test for the typing of amyloidosis in routine clinical biopsy specime

31 Current methods used for typing of amyloidosis such as immunohistochemistry have

32 accelerated the study of fine structure and typing of an important inversion in An. stephensi, putti

33 Ion Torrent PGM with Illumina MiSeq for the typing of antimalarial drug resistance genes.

34 We report on genomewide typing of approximately 10,000 single-nucleotide polymor

35 Comparison of typing of B. burgdorferi performed directly on 51 patien

36 scriminatory power of allele-based molecular typing of B. pertussis, we have developed a whole-genome

37 of an aptamer-based impedimetric sensor for typing of bacteria (AIST-B) is presented.

38 n of live bacteria and another 40min for the typing of bacteria strains).

39 or the characterization, identification, and typing of bacterial isolates that has value in epidemiol

40 To facilitate typing of bacterial isolates, we developed a novel genot

41 electronically portable, allowing molecular typing of bacterial pathogens (or other infectious agent

42 cts and has the important advantage over opa typing of being a more precise method of strain characte

43 e accuracy of the method enables the genetic typing of bi- and triallelic single-nucleotide polymorph

44 , gyrB, and gpi, with that of sequence-based typing of bla(OXA-51-like) genes (SBT-bla(OXA-51-like) g

45 The accurate and reliable typing of blood groups is essential prior to blood trans

46 We used molecular typing of Borrelia burgdorferi isolates obtained from pa

47 Multilocus sequence typing of Borrelia hermsii isolates reveals its divergen

48 cular surveillance of noroviruses, including typing of both polymerase and capsid genes, is important

49 t that using MLST as a first step in routine typing of C. difficile followed by WGS for MLST concorda

50 Strain typing of C. difficile isolates from the involved hospit

51 Stain typing of C. difficile isolates is documenting the sprea

52 rdized protocol and centralized database for typing of C. difficile pathogens will increase comparabi

53 logies for RAPD typing, ribotyping, and PFGE typing of C. diphtheriae strains were improved to enable

54 apid and discriminatory method for molecular typing of C. rugosa in outbreaks.

55 e of real-time PCR for the genotype-specific typing of C. trachomatis strains that cause sexually tra

56 cagA genotype and typing of cag pathogenicity island genes were poorly pre

57 and, where available, genetic and antigenic typing of case isolates.

58 and, where available, genetic and antigenic typing of case isolates.

59 universally recognized, further careful sub-typing of cases may provide more precise genomic signals

60 Typing of class I and II genes was performed by using DN

61 phoresis (PFGE) using SmaI were compared for typing of Clostridium difficile.

62 110 restriction fragment length polymorphism typing of cultured bacteria was used to compare these is

63 d directly on 51 patient skin specimens with typing of cultures originally isolated from the same tis

64 The detection and successful typing of dengue virus (DENV) from patients with suspect

65 pid, sensitive, and specific approach to the typing of dengue viruses.

66 A technique for the multiplex detection and typing of DENV serotypes 1 to 4 (DENV-1 to DENV-4) from

67 Subsequent typing of DNA samples of individual progeny snails showe

68 udy of transplantation is histocompatibility typing of donors and recipients.

69 ired infection (HAI) BioDetection System for typing of E. coli isolates compared well with the result

70 trachomatis and used it specifically for the typing of either eight genovars from D to K or three gen

71 y of molecular methods for the detection and typing of enteroviral infections.

72 virology and reference laboratories for the typing of enteroviruses, for the study of the epidemiolo

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

74 he replacement of traditional serology-based typing of Escherichia coli by WGS is supported by user-f

75 ific bacterial strain identification for the typing of Escherichia coli O157:H7 and other gram-negati

76 ypically characterized, including multilocus typing of five genes and whole-genome sequencing.

77 have not been exploited in the diagnosis and typing of flaviviruses.

78 e feasibility of rapid point-of-analysis DNA typing of forensic casework, of mass disaster samples or

79 DRB1 and DQB1 typing of founders showed that the three haplotypes cont

80 ituations, uncertainty may be reduced by the typing of further siblings, whose disease status may be

81 Advances in molecular typing of fusariosis would facilitate the study of its e

82 Furthermore, this method is useful for rapid typing of GAS isolates and culture-negative specimens du

83 were prepared for serological and molecular typing of GBS strains based on the Strep-B-Latex aggluti

84 Rapid typing of genetic variation at many regions of the genom

85 matography (GP-dHPLC), for the detection and typing of genital HPV using an automated 96-well plate f

86 rase chain reaction, thereby permitting CD31 typing of genomic DNA from additional normal subjects.

87 miological data were combined with molecular typing of gonococcal isolates by a new methodology based

88 Typing of gonococcal strains is a valuable tool for the

89 Typing of group A Streptococcus (GAS) is crucial for inf

90 (EQA) studies for molecular and serological typing of group B streptococcus (GBS) strains as part of

91 acid-based test for the rapid detection and typing of herpes simplex virus (HSV) DNA was developed a

92 The accurate detection and typing of high-risk human papillomavirus (HPV) are criti

93 a where improvements are necessary is in the typing of highly similar samples, such as those samples

94 Accurate typing of HLA genes with short-read sequencing data has

95 hing of the donor and recipient was based on typing of HLA-A and -B antigens by serologic methods and

96 ical disease (BHWCD), we performed DNA-based typing of HLA-DPB1, HLA-DQB1, and HLA-DRB1 loci on 55 su

97 and -B antigens by serologic methods and by typing of HLA-DRB1 alleles by molecular methods, and don

98 Included were studies in which molecular typing of HLA-DRB1 alleles was performed and in which th

99 Molecular typing of HLA-DRB1 and HLA-DQB1 alleles revealed 335 DRB

100 ith a week-48 visit, blood was available for typing of HLA-DRB1 and HLA-DQB1 in 174 (85%) and success

101 Typing of HSV isolates may be useful in persons with rec

102 view the different methods for detection and typing of HSV, including light microscopy, culture, sero

103 y for automated high-throughput simultaneous typing of human erythrocyte antigens (HEAs), platelet an

104 co-workers describe the results of classical typing of human leukocyte antigen (HLA) alleles in 1,404

105 Molecular strain typing of human prion diseases has focused extensively o

106 noise of single-cell data make accurate cell typing of individual cells difficult.

107 s (ChIMP) method to support multi-label cell typing of individual cells jointly profiled via scRNA-se

108 tween different laboratories involved in the typing of individual species.

109 tion of this technology to the detection and typing of influenza and other viruses.

110 Typing of influenza virus strains is an important aspect

111 xchange was confirmed by multilocus sequence typing of isolates and of uncultivated natural consortia

112 Typing of isolates around the world shows global spread

113 Multilocus enzyme electrophoresis typing of isolates from 19 case patients identified 5 di

114 In addition to case ascertainment, molecular typing of isolates was performed to characterize the out

115 ical information, sputum cultures, molecular typing of isolates, and immunoassays to measure antibodi

116 oped a system, termed "ATLAS" (amplification typing of L1 active subfamilies), that enables the selec

117 High resolution molecular typing of large, clinically well-defined cohorts has beg

118 ed typing as the gold standard for DNA-based typing of Legionella pneumophila, the Legionella laborat

119 emonstrate the utility of this technique for typing of Listeria monocytogenes, four outbreaks of epiz

120 reased the discrimination possible in strain typing of M. bovis, with the added benefit of an intuiti

121 nd AFLP provide valuable tools for molecular typing of M. bovis.

122 eful tool as a first-line method for routine typing of M. tuberculosis isolates, especially where Bei

123 lity, stability, and reproducibility of PFGE typing of M. tuberculosis.

124 We have compared high resolution typing of major histocompatibility complex class II loci

125 as become the method of choice for molecular typing of many bacterial and fungal pathogens (and non-p

126 Sequence typing of Metarhizium isolates revealed four species, wi

127 Rapid identification and typing of methicillin (meticillin)-resistant Staphylococ

128 2005 to 31 December 2006), performed SCCmec typing of methicillin-resistant S. aureus (MRSA) isolate

129 Following microsatellite typing of mice with resistant and susceptible phenotypes

130 Strain typing of microbial pathogens has two major aims: (i). t

131 tion of a degenerate P[8] primer resulted in typing of most VP4 strains.

132 HLA typing of mothers and sons indicated that HLA compatibil

133 fective, allowing for high-throughput SCCmec typing of MRSA isolates.

134 ysis could be used as a screening method for typing of MRSA strains because of the shorter turnaround

135 ssfully validated it for use for the routine typing of MTBC strains in the research and public health

136 Multilocus sequence typing of multiple isolates from the same procedure reve

137 aneous detection and identification (genetic typing) of multiple enterotoxin (ent) genes.

138 oratory equipment for the large-scale global typing of Mycobacterium avium subspecies paratuberculosi

139 Typing of Mycobacterium avium subspecies paratuberculosi

140 Drug resistance surveillance and strain typing of Mycobacterium leprae are necessary to investig

141 Molecular typing of Mycobacterium tuberculosis by using IS6110 sho

142 Molecular typing of Mycobacterium tuberculosis can be used to eluc

143 is a tool for the molecular characterization/typing of Mycobacterium tuberculosis complex (MTBC) stra

144 it-variable number tandem repeat (MIRU-VNTR) typing of Mycobacterium tuberculosis complex isolates is

145 Typing of Mycobacterium tuberculosis could provide a mor

146 duced the IS6110-PvuII kit for semiautomated typing of Mycobacterium tuberculosis using the RiboPrint

147 TR) analysis (MLVA) method for the molecular typing of Mycoplasma pneumoniae.

148 Molecular typing of Neisseria gonorrhoeae and contact tracing prov

149 Molecular typing of Neisseria gonorrhoeae strains is an important

150 l-time behavioral analyses, rapid functional typing of neural responses via calcium imaging, optimal

151 dvance for point of care applications, blood typing of newborns, and general blood assays in small mo

152 ates that DNA sequence-based variable region typing of NMSB will be necessary to provide precise info

153 (RT)-PCR assays for the rapid detection and typing of NoV strains belonging to genogroups GI and GII

154 Molecular typing of NTHi strains revealed that five of nine patien

155 TS may provide a simple procedure for strain typing of O157 and other bacteria and that further evalu

156 eter cultures, blood cultures, and molecular typing of organisms to determine catheter-related coloni

157 , which have been used effectively in strain typing of other bacteria.

158 tself and have been useful for the molecular typing of other organisms.

159 cal microbiology, and it can be utilized for typing of other pathogenic bacteria species.

160 ollections from different locations, and for typing of other species, was not evaluated and needs fur

161 Biological strain typing of ovine scrapie isolates by serial passage in co

162 sive, and reliable means for epidemiological typing of P. aeruginosa.

163 variable number of tandem repeat (MIRU-VNTR) typing of pairs of isolates taken by sputum sampling: on

164 2 were type specific and correlated with PCR typing of parasites present at the time of infection.

165 ucleotide microarray was developed for rapid typing of pathogens based on analysis of genomic variati

166 Prospective typing of patients and donors in unrelated donor search

167 transfusion is to do prior extensive antigen typing of patients' red cells; however, this is not alwa

168 Initial typing of pooled material from each sample identified a

169 modelling approaches along with careful sub-typing of protein families will be a powerful combinatio

170 Sequence typing of pspA provides an added level of specificity in

171 d independently validated a workflow for the typing of PTC clinical samples into CLIP2-positive and C

172 Genetic typing of rabies viruses allowed us to distinguish trend

173 y on the physical map of the human genome by typing of radiation hybrids or screening YAC libraries.

174 MVR typing of rare-length alleles indicates that they are co

175 Molecular typing of respiratory specimens from 9 patients revealed

176 I sequences were resolved by sequence-based typing of rhesus, cynomolgus and pig-tailed macaques, ne

177 by multilocus sequence typing (MLST) and ABC typing of rRNA genes and determined their homozygosity o

178 Molecular typing of S aureus strains was performed by repetitive-s

179 ed with conventional gel electrophoresis for typing of S. aureus isolates of bovine origin.

180 S-PCR) and virulence gene identification for typing of S. aureus strains.

181 typic typing methods for the epidemiological typing of S. enteritidis.

182 Histo-blood group antigen (HBGA) typing of saliva showed that the norovirus strains infec

183 t the discriminatory ability of MLST for the typing of Salmonella is better than that of serotyping a

184 Overall, MLVA typing of Salmonella serotype Enteritidis had enhanced r

185 Methods for haplotyping and DNA copy-number typing of single cells are paramount for studying genomi

186 ion for multi-omics lineage mapping and cell typing of single cells.

187 ed method has recently been reported for the typing of single nucleotide polymorphisms using single n

188 We present STHD for probabilistic cell typing of single spots in whole-transcriptome spatial tr

189 eloped the CAMML method for multi-label cell typing of single-cell RNA-sequencing (scRNA-seq) data.

190 The method has been applied to the typing of single-nucleotide polymorphisms in PCR product

191 Molecular typing of sputum isolates of nonencapsulated Haemophilus

192 ated the use of IPRP HPLC for the sizing and typing of STR alleles from the HUMTHO1 locus.

193 in A. fumigatus; for example, the molecular typing of strains during infection.

194 ng that PFGE may be unsuitable for long-term typing of strains involved in epidemics.

195 Typing of strains revealed cocirculation of multiple mul

196 n addition, the molecular identification and typing of strains were also carried out.

197 culosis and used whole genome sequencing for typing of strains.

198 for whole genome sequencing for phylogenomic typing of strains.

199 s a commonly used method for epidemiological typing of Streptococcus pneumoniae and many other bacter

200 HLA-C typing of target cells showed that KIR2DS2 recognition w

201 Typing of the 104 carriage isolates demonstrated 21 PFGE

202 ed among the isolates by multilocus sequence typing of the 16S rRNA, flaB, gyrB, and glpQ genes.

203 triction fragment length polymorphism (RFLP) typing of the 16S-23S ribosomal DNA intergenic spacer.

204 ucted next-generation sequencing (NGS)-based typing of the 33 human leukocyte antigen (HLA) genes in

205 Molecular typing of the abnormal form of the prion protein (PrP(Sc

206 Detailed molecular typing of the above alleles has previously not been repo

207 Molecular typing of the actinomycete Rhodococcus equi is insuffici

208 A technique was developed for the typing of the aoHGE based on the PCR amplification of th

209 rols showed a clear bimodality, enabling the typing of the cells into larger and smaller than average

210 MVR typing of the common alleles a1, a2, a3, and a4 shows th

211 We now present results with direct typing of the CYP3A5 genotype for this group of 180 kidn

212 the present study and are now available for typing of the E. coli O157:H7 lineage.

213 e aim of the present study to assess whether typing of the intergenic spacer region by using restrict

214 Typing of the isolates (n = 172) identified all 10 GBS s

215 nes from the microcosms as well phylogenetic typing of the isolates showed that ethenotrophs in the s

216 address this, we performed high-density SNP typing of the MHC in >32,000 individuals with IBD, impli

217 tiplex PCR assay allowed simple and accurate typing of the most prevalent clinical serovars of Salmon

218 uencing of the por gene (POR sequencing) and typing of the opa gene (OPA typing) for the characteriza

219 er than either porB nucleotide sequencing or typing of the opa gene.

220 The HLA typing of the patient showed HLA-DQ8, which was previous

221 ologic examination is essential for accurate typing of the polyps to predict malignant potential and

222 Typing of the porB variable region (VR) is an epidemiolo

223 On MRSA isolates, we performed typing of the staphylococcal cassette chromosome mec (SC

224 Isolation and genetic typing of the strain of M. tuberculosis responsible, and

225 ved to enable rapid and convenient molecular typing of the strains.

226 ay of intended transplantation by repeat ABO typing of the thawed unit at our transplantation center.

227 ng out ABO and human leukocyte antigen (HLA) typing of the thawed units before transplantation.

228 nts, in addition to correlating single-locus typing of the TP0548 allele with the T pallidum phylogen

229 Molecular typing of the tumor by DNA sequencing supports donor der

230 th GRCh38-based workflows, which enabled the typing of the vast majority of structural variant allele

231 acceptable antigens corresponding to the HLA typing of their previous donor (UA-PD) as a proxy for do

232 LA phenotypes, ascertained by low-resolution typing, of their family members.

233 Typing of these agents may complement disease assessment

234 High-resolution typing of these allelic subsets revealed that HLA-DQB1*0

235 xisting methodologies are inadequate for MHC typing of these key model animals.

236 -throughput alternative to direct laboratory typing of these loci and have enabled important findings

237 e opens the possibility of using array-based typing of these loci for human identification, loss-of-h

238 the proband, mapping of the TNX gene and HLA typing of this family suggest recessive inheritance of T

239 Continued molecular typing of this organism, particularly during outbreaks,

240 lex disease association studies will require typing of thousands of single-nucleotide polymorphisms (

241 ified16S rRNA genes, and multilocus sequence typing of three housekeeping genes confirmed culture pur

242 Typing of TNF microsatellite polymorphisms was carried o

243 advance in this technology that permits the typing of two alleles in a single microtiter well.

244 zygosity at the ELN locus was established by typing of two intragenic polymorphisms, quantitative Sou

245 ion (ISR) sequence analysis to the molecular typing of U.S. PDD-associated Treponema isolates.

246 R assay represents a valuable tool for rapid typing of uncharacterized Shigella isolates and provides

247 a chip-based format, including rapid tissue typing of unrelated volunteer donors.

248 horesis was used for molecular epidemiologic typing of vancomycin-resistant enterococci.

249 ucted a case-series investigation, molecular typing of viral isolates, surveys of rates of vaccinatio