コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 ridization (for levels and proportions of 40 bacterial species).
2 m a ring-like structure, the Z-ring, in most bacterial species.
3 our approach with a synthetic mixture of 12 bacterial species.
4 s phages-have been described for hundreds of bacterial species.
5 profound effects on the behavior of resident bacterial species.
6 lution assays for a range of antibiotics and bacterial species.
7 trointestinal tract, and is composed of >770 bacterial species.
8 ng also plays a role among certain clades of bacterial species.
9 ence of a phylogenetic tree that relates all bacterial species.
10 intestines bound phylogenetically unrelated bacterial species.
11 osition in -10 elements of promoters in most bacterial species.
12 the lectin has evolved to recognize distinct bacterial species.
13 of other metabolic processes, especially in bacterial species.
14 in a catalytic domain conserved across many bacterial species.
15 anding polar growth strategy in a variety of bacterial species.
16 ch identified at least one archaeal and five bacterial species.
17 dditional novel T6SS genomic loci in diverse bacterial species.
18 that modulates biofilm formation across many bacterial species.
19 d and it is not essential for growth in many bacterial species.
20 ntibiotic resistance and other traits to new bacterial species.
21 for molecular epidemiology studies of other bacterial species.
22 r host-pathogen interactions involving other bacterial species.
23 f complex systems such as consortia of mixed bacterial species.
24 is known about RNase E homologues from other bacterial species.
25 nk this to the increasing number of reactive bacterial species.
26 otic resistance spreading in many pathogenic bacterial species.
27 during biofilm formation by a Gram-negative bacterial species.
28 ology and/or pathogenesis of a wide range of bacterial species.
29 ed for detection of 7 potentially pathogenic bacterial species.
30 l niches, prompting an adaptive radiation of bacterial species.
31 members of the GpsB interactome in all three bacterial species.
32 methane or methanol, is a feature of various bacterial species.
33 l antibiotics tested across highly divergent bacterial species.
34 ed instead of methods specific to individual bacterial species.
35 change non-specialized genetic cargo between bacterial species.
36 hat Nus factor autoregulation occurs in many bacterial species.
37 s elegans can be induced to settle by single bacterial species.
38 direct RS complexation by LS cages in other bacterial species.
39 lism across the major obligate intracellular bacterial species.
40 family and hundreds of nitrogen (N2)-fixing bacterial species.
41 , which included all coding sequences of 100 bacterial species.
42 presence has also been confirmed in several bacterial species.
43 gene for identification, we cultured 329 new bacterial species.
44 e levels of genetic cohesion associated with bacterial species.
45 in Mie scatter spectra created by different bacterial species.
46 isolated from various Gram (+) and Gram (-) bacterial species.
47 by increasing antibiotic resistance in many bacterial species.
48 CR and then perform dHRM to identify the two bacterial species.
49 ty of chemical modifications among different bacterial species.
50 e a promising probe for detecting Pse across bacterial species.
51 d competitive metabolic interactions between bacterial species.
52 functionally important in related pathogenic bacterial species.
53 as tested against seven foodborne pathogenic bacterial species.
54 'culture-difficult' or 'not-yet-culturable' bacterial species.
55 olonized with different ampicillin-resistant bacterial species.
56 ent adjacent to pelABCDEFG in >100 different bacterial species.
57 r 59 plant, 256 animal, 115 archeal and 1678 bacterial species.
58 83 amplicon sequence variants as proxies for bacterial species.
59 foreign genes in a variety of Gram-negative bacterial species.
60 omplex than that of prototype T4SSs in other bacterial species.
61 ediators were highly correlated with certain bacterial species.
62 diates communication within and between many bacterial species.
63 e-assembled genomes (MAGs), representing 150 bacterial species.
64 it mobile genetic elements (MGEs) among many bacterial species.
65 h the outer cell surface of S-layer-carrying bacterial species.
66 y profiles were obtained by HOMINGS, and 408 bacterial species and 84 genus probes were assigned.
67 isms of 2,7-anhydro-Neu5Ac catabolism across bacterial species and a novel sialic acid transport and
69 olecules produced and released by nearly all bacterial species and are classified according to the ch
70 uced by both gram-positive and gram-negative bacterial species and are used to kill or inhibit other
71 ogues across Gram-negative and Gram-positive bacterial species and co-occurrence with sialic acid tra
72 strains, and they were selective over other bacterial species and eukaryotic cells, metabolically st
73 oss-reactivity study using 74 non-Bordetella bacterial species and five yeast species revealed that t
74 years of antibiotic resistance data from 10 bacterial species and genera of clinical interest from o
75 le is a signalling molecule produced by many bacterial species and involved in intraspecies, interspe
76 aprin rapidly kills N. gonorrhoeae and other bacterial species and is non-irritating in ocular assays
77 on revealed significant associations between bacterial species and metabolic phenotypes, highlighting
80 er-2 (AI-2), is widely produced by different bacterial species and presumed to enable V. cholerae to
81 preserve the physiological state of selected bacterial species and seawater bacterial community in co
82 nterfacial (micro)environment depends on the bacterial species and strain even when differences in bi
83 ntestinal domination by antibiotic-resistant bacterial species and strains on the colonic mucosa.
84 efflux pump for cationic biocides in several bacterial species and that increased efflux through SmvA
85 he human urothelium and suggest that diverse bacterial species and the adaptive immune response play
86 ples contained genetic material from various bacterial species and the in-depth analysis uncovered th
87 studies are increasingly defining commensal bacterial species and the inhibitory mechanisms they use
88 ncidence of infections caused by seven major bacterial species and their drug-resistant variants in a
90 r weight loss included features of diet, gut bacterial species and urine metabolites (ROC-AUC: 0.84-0
91 reportedly vary between RNAPs from different bacterial species and, probably, different types of tran
92 Nus factors are broadly conserved across bacterial species, and are often essential for viability
93 CRISPR-Cas immune systems within and between bacterial species, and highlight the strong selective be
94 recombination parameters for a wide range of bacterial species, and inferred the distribution of shar
95 EFG operon is highly conserved among diverse bacterial species, and Pel may therefore be a widespread
96 tives inhibit the growth of other pathogenic bacterial species, and why high serum levels of these in
101 le and fast detection and differentiation of bacterial species are required, for instance, in medicin
103 measurements on two different gram-positive bacterial species as the cells uptake membrane-specific
105 etic Biology approaches towards non-standard bacterial species as well as genetically programming new
106 terium Mannheimia haemolytica is the primary bacterial species associated with bovine respiratory dis
107 to changes in the coral pathobiome (multiple bacterial species associated with disease) and general h
108 d HMP cohorts evidenced different subsets of bacterial species associated with HLA-A29 status, likely
109 d, a more diverse microbiota, an increase in bacterial species associated with periodontal disease, m
112 op molecules active against a broad range of bacterial species at the top of the WHO priority list.
113 oach for "omics-driven" classification of 15 bacterial species at various taxonomic levels achieving
114 , yet prediction of unknown classes, such as bacterial species, at upper hierarchy levels may be suff
115 GpsB with peptidoglycan synthases from three bacterial species (Bacillus subtilis, Listeria monocytog
116 o profoundly affect the P450 profiles in the bacterial species belonging to the phylum Firmicutes.
117 n biomarker levels (IL-1beta and sRANKL) and bacterial species between peri-implant and periodontal s
118 the human colon, formate is produced by many bacterial species but is normally detected only at low c
120 s CarD, a transcription factor found in many bacterial species but not in beta- and gamma-proteobacte
121 have been found in animal, plant, fungal and bacterial species, but have not yet been identified in v
123 eats are conserved for BAPs across different bacterial species, but the function of these domains is
124 the abundance and potential function of gut bacterial species by next-generation bacterial sequencin
125 the applicability of this approach to other bacterial species by predicting sRNA-mRNA binding region
126 Here we identify 1,952 uncultured candidate bacterial species by reconstructing 92,143 metagenome-as
127 usly defining the core essential genome of a bacterial species by studying many pathogen strains and
129 ostmenopausal RUTI patients and that diverse bacterial species can be isolated from the bladder tissu
131 the expression of ARGs by harmless commensal bacterial species can destroy antibiotics in the intesti
132 at rapid information regarding the infecting bacterial species can improve predictions substantially.
133 activity of SpoT (or its homologues in other bacterial species) can likely influence the cell cycle b
134 Here, we studied the interactions between 4 bacterial species capable of degrading metal working flu
135 genetic analysis demonstrated that different bacterial species (closely related to Muribaculum intest
137 neralization performance for all pairs of 13 bacterial species co-cultured with MSH1, we built a Gaus
139 bjects who were HLA-A29 positive differed in bacterial species composition (beta diversity) compared
140 ffect of host genetic factors in shaping the bacterial species composition in the rumen by performing
144 e many abundant taxa are indeed active, most bacterial species detected by conventional molecular pro
145 ted on plasmids or on the chromosome from 53 bacterial species distributed across different ecologica
147 address how the study of a growing number of bacterial species enables the search for common principl
148 idyl ester dilution assays) and 9 intestinal bacterial species (Escherichia coli, Lactobacillus acido
149 presented higher mean total levels of the 40 bacterial species evaluated, higher proportions of red c
153 women or men (or >=10(2) CFU/ml of a single bacterial species from a single catheterized urine speci
156 iches in different bloom phases, and certain bacterial species from the Pseudoalteromonadaceae might
157 ed Clostridium immunis, a previously unknown bacterial species from this family, that-when administer
163 -TOF MS) has become the standard for routine bacterial species identification due to its rapidity and
169 oculum, route of infection and the causative bacterial species in different wild-type mouse backgroun
170 However, given the near-exclusive focus on bacterial species in establishing these protective benef
174 ococcal carriage do not strongly impact most bacterial species in the oropharynx, variation in the up
177 ed us to identify putative AI-2 receptors in bacterial species in which no receptors were known, as i
178 calis is one of the most frequently isolated bacterial species in wounds yet little is known about it
179 y of H(2)O(2) to antagonize susceptible oral bacterial species, including caries-associated Streptoco
180 quitous compound and can be utilized by many bacterial species, including enteric pathogens, as a car
182 -canonical HD-GYP phosphodiesterases in many bacterial species, including phyla previously not known
183 to acute UTI, failed to detect a variety of bacterial species, including recognized uropathogens.
186 al microbiota, including the presence of key bacterial species, influence a woman's risk of TV acquis
191 The evidence for mechanosensing in select bacterial species is reinterpreted, with a focus on mech
192 itomizes these obstacles: this gram-negative bacterial species is the most prevalent agent of UTIs wo
193 ryotes, unique to mycobacteria and few other bacterial species, is the reaction between cytidine diph
194 wage and identified resistance in individual bacterial species isolated from environmental water sour
195 men; a single voided urine specimen with one bacterial species isolated in a quantitative count >=10(
196 catheterized urine specimen with one or more bacterial species isolated in a quantitative count of >=
197 ns (preferably within 2 weeks) with the same bacterial species, isolated in quantitative counts of >=
198 proves widespread across cationic agents and bacterial species, it will help explain why resistance t
204 have implications for other biofilm-forming bacterial species.Most bacteria live in biofilms, surfac
207 Haemophilus influenzae (NTHI) is a commensal bacterial species of the human nasopharynx; however, in
208 neutralization of IL-1alpha changes specific bacterial species of the intestinal microbiome, which is
210 utibacterium acnes is one of the most common bacterial species on human skin and can promote the comm
211 At the sequence variant (SV) level, akin to bacterial species, only 1 of the top 100 SVs was signifi
212 ated to determine if selection of individual bacterial species or strains could be discerned within t
213 re to the TopoI-CTD found in the majority of bacterial species outside Actinobacteria, including Esch
215 metagenomes, which can contain thousands of bacterial species per gram of soil, imposes significant
217 Supragingival plaque harbors hundreds of bacterial species, playing a significant role in oral he
218 ibrosis patients that contain multiple mixed bacterial species, possess an HJ-like configuration.
219 rtantly, our findings show that sRNAs across bacterial species potentially may qualify as targets of
221 The method is able to deconvolute multiple bacterial species present in a specimen, is compatible w
222 was observed for DNA extracted from certain bacterial species previously detected in the brain, CSF
223 munoprophylaxis against antibiotic-resistant bacterial species, produced adverse effects in an in viv
224 which acidogenic, aciduric, and acid-adapted bacterial species promote a pathogenic environment, lead
225 PCR) for detection and identification of all bacterial species; real-time PCR (qPCR) assays targeting
226 r workflow on a large data set that contains bacterial species related to urinary tract infections.
229 ether significant vertical stratification in bacterial species richness and evenness (alpha diversity
230 ses to the Cas9 orthologs derived from these bacterial species, SaCas9 (S. aureus) and SpCas9 (S. pyo
231 creen to study around 200 effectors from six bacterial species, showing that over 30% of them interac
232 associated pneumonia specific changes and 2) bacterial species-specific changes in the exhaled gas.
233 influence the growth and viability of other bacterial species, specifically Staphylococcus aureus an
234 tive, electrical detection of the pathogenic bacterial species Staphylococcus aureus and antibiotic r
236 tive whole-genome data sets from six diverse bacterial species: Staphylococcus aureus, Streptococcus
238 text, extensive characterization of specific bacterial species such as Escherichia coli and Bacillus
239 r, it has been observed that strains of some bacterial species, such as Acinetobacter baumannii strai
242 ates < 1%, our approach identified many more bacterial species than the existing approaches such as t
243 tance against the immune response, using two bacterial species that are common sources of nosocomial
244 ylogenomics and metabolic modeling to detect bacterial species that are evolving by gene loss, with t
245 on four Gram-positive and four Gram-negative bacterial species that are highly relevant for environme
246 losporin with activity against Gram-negative bacterial species that are resistant to carbapenems and
247 urpose beta-lactam antibiotics activity with bacterial species that carry carbapenem-hydrolyzing clas
248 ribacter genus comprises insect endosymbiont bacterial species that cause destructive plant diseases,
249 ae is a Gram-negative, facultative anaerobic bacterial species that causes serious disease and can gr
250 in TGFB signaling had increased abundance of bacterial species that have been associated with the dev
251 mplex community largely populated by diverse bacterial species that provide metabolites, nutrients, a
252 thogen strains, together with enrichment for bacterial species that were antagonistic toward R. solan
253 series demonstrated its ability to identify bacterial species that were consistent with histological
254 complexity of interactions between a single bacterial species, the factors it produces and two speci
256 used a logistic additive model adjusted for bacterial species, the McCabe-Jackson classification, an
260 IV effector proteins from six Gram-negative bacterial species to interact with the eukaryotic plasma
261 tion can increase the susceptibility of both bacterial species to rapid killing by immune cells and c
262 he general stress response (GSR) allows many bacterial species to react to myriad different stressors
263 est whether this state can be found in other bacterial species to survive deep starvation conditions.
265 evolve rapidly in natural environments(3,4), bacterial species typically evolve phage resistance by t
269 ected at enrollment to identify and quantify bacterial species via high- performance sequencing.
272 When no knowledge regarding the infecting bacterial species was assumed, the ensemble model yielde
274 ty of the method for analysis of mixtures of bacterial species was shown with ternary mixtures of Bac
275 By borrowing information from neighboring bacterial species, we are able to improve the statistica
281 ) and Gram-positive (Bacillus thuringiensis) bacterial species were monitored with WLI over time by c
282 d, one factor was that essential genes for a bacterial species were often defined based on a single o
285 ated with health leading to the emergence of bacterial species, which are only present in low abundan
286 lated the availability of iron and biotin to bacterial species, which suggests that these may be cons
287 he statistical power of detecting associated bacterial species while controlling the FDR at desired l
289 on approach, we were able to detect pairs of bacterial species with cooperation scores significantly
290 The human gut microbiome harbors hundreds of bacterial species with diverse biochemical capabilities.
291 is particularly hard to address using extant bacterial species with poorly understood current ecologi
292 gnificantly higher than the average pairs of bacterial species with similar phylogenetic distances.
293 interactions of many pathogenic or symbiotic bacterial species with their respective eukaryotic hosts
296 hat reflects susceptibility profiles of each bacterial species within only 30 min of antibiotic expos
299 esignations involving clinically significant bacterial species would benefit clinical microbiologists