戻る
「早戻しボタン」を押すと検索画面に戻ります。

今後説明を表示しない

[OK]

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  bleaching (either due to absence or extreme low abundance).
2 led structural analysis of TPPII despite its low abundance.
3  persisted in the brain, albeit sometimes in low abundance.
4 ack of gamma2 subunit capture was not due to low abundance.
5 gical samples is cumbersome because of their low abundance.
6 acromolecular assemblies, which are often of low abundance.
7 nked PG precursors, which are of notoriously low abundance.
8 her nonspecific for malignant disease or had low abundance.
9 yst for this is platinum-a precious metal of low abundance.
10  short anti-sense RNA species expressed with low abundance.
11                   Both complexes are of very low abundance.
12 ons from retina explants, and because of its low abundance.
13  protein allergen, Ara h 9, were detected in low abundance.
14 educing producers' ability to invade when at low abundance.
15  soil, but key decomposers are ubiquitous in low abundance.
16 lotypes, but all were found to be present at low abundances.
17  discrimination of overlapped ion peaks with low abundances.
18 SPalphabeta ultracentrifuge studies reveal a low abundance 2:2 complex with approximately 10-fold low
19 found in few flies; in contrast, despite its low abundance (2.9%), DNA from the Fabaceae family was d
20 cleotide small interfering RNAs (siRNAs) and low-abundance 22-nucleotide siRNAs produced from double-
21    The sensitive method enables detection of low-abundance 5hmC sites, providing a more complete 5hmC
22                      Dematin is a relatively low abundance actin binding and bundling protein associa
23 s abundant fatty acid carboxylate anions and low-abundance acyl neutral losses as free acids and kete
24 on and possesses great potential in studying low-abundance ADC analytes such as those from animal or
25 a Treg cell repertoire that is biased toward low abundance agonist self-peptides.
26                                   To analyze low-abundance amino-terminally truncated Abeta peptides
27  threshold (false positives), while peaks of low abundance analytes may occasionally fall below the f
28 isualizing and spatially characterizing very low abundance analytes separated only by 20 mDa.
29 g proteomics tool capable of profiling >1000 low-abundance analytes with high sensitivity and high pr
30 duct ion scoring, which enables detection of low-abundance analytes with poor precursor ion signal.
31    Furthermore, we identified untargeted and low-abundance analytes, including neuropeptides deriving
32 re normally limited only by random errors of low-abundance analytes, the method maximizes the range o
33  process of H2 export, as was the relatively low abundance and activity of methanogens and sulfate re
34 ing and regulatory proteins are expressed at low abundance and are difficult to measure in single cel
35                              Measurements of low abundance and heterogeneously distributed d-AAs in c
36 f challenges related to materials, including low abundance and high costs of redox-active metals, exp
37 enhanced proteome coverage, particularly for low abundance and high MW proteoforms.
38                              Their typically low abundance and highly heterogeneous nature, however,
39 ared expression and shared structure despite low abundance and low sequence identity.
40  their intrinsic properties of short length, low abundance and sequence homology among family members
41 is challenging in part due to the relatively low abundance and short length of the miRNAs.
42 muscle SP cells has been challenged by their low abundance and the absence of specific SP cell marker
43 ld explain general lncRNA properties such as low abundance and tissue specificity.
44 s are unknown at the molecular level, as the low abundance and transient nature of assembly intermedi
45                                    Retaining low-abundance and dynamic subcellular structures or macr
46 Notably, TRPML channels are activated by the low-abundance and LEL-enriched signalling lipid phosphat
47 d elusive because they exist transiently, in low abundance, and involve subtle movements of protons t
48 The essential nature of this subcomplex, its low abundance, and its multiple interactions with key di
49 d with mitochondrial disease, R-loops are of low abundance, and there is mitochondrial DNA aggregatio
50              We use the technique to isolate low abundance antibodies specific to different HIV antig
51 ventional diffusometry can be compromised at low-abundance antigens because proteins are much smaller
52                                      Certain low-abundance bacterial species, such as the periodontit
53 localization, and structural confirmation of low abundance bioactive ceramides and other sphingolipid
54  for the detection and the quantification of low abundance biomarkers.
55 is a viable alternative to NS tears for many low-abundance biomarkers and is able to replicate major
56 /MRM-MS) has been frequently used to measure low-abundance biomarkers in tissues and biofluids, owing
57 clude insufficient sensitivity for detecting low-abundance biomarkers, poor measurement reproducibili
58 washout (WO) method as an NS alternative for low-abundance biomarkers.
59 ant proteins, but is relatively untested for low-abundance biomarkers.
60 ur assay on microRNAs, an important class of low-abundance biomarkers.
61 of ICR biosensing measurements for detecting low-abundance biomolecules by lowering the limit of dete
62 CRTs)--those taxa that are typically in very low abundance but occasionally achieve prevalence--were
63                                As with other low abundance but persistent members of the microbiota,
64 eaked whale sightings is the result of their low abundance, but this is in contrast to our estimates
65 vers or alpha-bugs) exert their influence at low abundance by modulating both the composition and lev
66 lity network specifying whether a species at low abundance can increase in frequency in an environmen
67 rotocol should be widely applicable to other low abundance cell types and factors.
68    We demonstrate that the DBS method counts low abundance cell types such as immature reticulocytes
69 s a major obstacle for epigenomic studies of low-abundance cells.
70 ) binds to RG4s in the KRAS transcript under low-abundance cellular conditions.
71 s detection and mapping of G4s in important, low-abundance cellular RNAs.
72 manner, which tends to preclude detection of low abundance chemicals and chemicals found in small sub
73 mer (i.e., phosphatidylglycerol, PG, another low-abundance class of phospholipids).
74 cylglycero)phosphate (BMP), an important but low-abundance class of phospholipids, has been hindered
75 amine (PE)) and enhance the signals from the low-abundance CLs and gangliosides to allow their GCIB-S
76 izing the receiving ecosystem, but mostly as low abundance community members.
77 he inherent challenges of hydrophobicity and low abundance, complete membrane proteome coverage of cl
78 lure to address batch-specific truncation of low abundance compounds.
79 ughput, this method allows the annotation of low-abundance compounds that are otherwise not amenable
80 al samples with limited starting material or low-abundance cytosine modifications.
81 n provide new insights into diagnosing other low-abundance diseases in the future.
82 rasensitivity in monitoring trace amounts of low-abundance early biomarkers or environmental toxins,
83  many present high-ZT materials are based on low-abundance elements that pose challenges for scale-up
84 ng yields an analysis workflow for essential low-abundance endogenous metabolites that has enhanced s
85 htly controlled recruitment of telomerase, a low-abundance enzyme, to telomeres is essential for regu
86 tructing the investigations of important but low abundance epimers in isomeric mixtures.
87 xist in dynamic equilibrium with short-lived low-abundance 'excited states' that form by reshuffling
88 urification and mass spectrometry identified low-abundance exosome-associated proteins and protein co
89                LC-MS/MS detected isomers and low abundance fluorinated chain lengths.
90 he model reliably captures areas of high and low abundance for the large majority of functional group
91 oteome-wide identification of weak affinity, low abundance Fucalpha(1-2)Gal glycan-binding proteins (
92 larly well suited for the rapid detection of low-abundance fungal pathogens and identification of the
93                                  Furthermore low-abundance GATA1 mutant clones were detected by targe
94 pimastigote form of the organism expresses a low abundance glycoprotein associated with the flagellum
95 ditions to achieve labeling and detection of low-abundance GPCRs in live cells.
96 ss spectrometry (MS)-based methods to detect low-abundance HCP impurities.
97 e improvement of fragmentation efficiency of low-abundance HCP peptides by correlating the collision
98                            For both samples, low-abundance HCPs (down to 1 ppm) were confidently iden
99 m high-abundance homodimers and Pi-regulated low-abundance heterodimers.
100 m complexes, in facilitating presentation of low abundance high affinity antigens, or in preventing d
101 rehensive profiling of scarcely investigated low-abundance histone marks, revealing that concentratio
102 f next-generation sequencing (NGS) to detect low-abundance HIV-1 variants.
103                               Owing to their low abundance, however, health risks were primarily asso
104 ammalian gastrointestinal tract and includes low-abundance human oral bacteria that appear to prolife
105 served greater than threefold improvement in low-abundance human-protein identification and quantitat
106                            More importantly, low abundance hybrid oligosaccharides can only be detect
107 d selectivity of MRM enable the detection of low abundance IgG glycopeptides, even when IgG was diges
108 microfluidic method to identify and quantify low-abundance IgG N-glycans and show some of these IgGs
109 f the Abeta fibril, but they are actually of low abundance in an Abeta fibril several micrometers lon
110 ify preexisting drug resistance mutations at low abundance in an HIV-infected subject.
111 stic biomarkers (i.e. proteins) are often in low abundance in bodily fluids presenting many challenge
112 in heterogeneity and study microorganisms at low abundance in complex microbial communities from terr
113 a novel splice variant that was expressed at low abundance in normal human tissues but was significan
114 ly expressed in many human cancers but is of low abundance in normal tissues, [corrected] the Wnt/bet
115                            Since they are in low abundance in samples like oxidized low-density lipop
116  occurs only for library members that are of low abundance in the absence of a replication pathway.
117 The sensitivity of pH to soluble elements in low abundance in the host rocks, such as carbon, alkali
118 he advanced lesions, they were in relatively low abundance in the newly described early lesions that
119 e "enriched" sequences that are absent or of low abundance in the other tissue.
120 undant bacteria that were undetectable or at low abundance in their diet.
121  single radial glia cells but is detected at low abundance in tissues.
122 cing also facilitated detection of clades at low abundance in unexpected places.
123 igh volatility and incompatibility, but have low abundances in most geological and planetary material
124 990s, and many populations have persisted at low abundances in recent years.
125                                   To exclude low-abundance infections, we subjected 514 of these samp
126 d and demonstrated for the enrichment of the low abundance ions.
127 able to identify and image both abundant and low-abundance isobaric and isomeric species within each
128 chnique allowed us to generate ion images of low-abundance isobaric lipids.
129  in which fractionation was used to identify low-abundance kinases.
130 more readily in response to low-affinity and low-abundance ligands both in vitro and in vivo due to a
131  brittleness, low infrared transmittance and low abundance limit suitability for certain industrial a
132 ternative mechanism might better explain how low-abundance lncRNAs transcribed from noncoding DNA fun
133 As (lncRNAs), with increased sensitivity for low-abundance lncRNAs.
134 halophilus and Methanolobus were detected at low abundance (<2%) in produced waters several months af
135 9 (9%) untreated CLL that, due to their very low abundance (median allele frequency: 2.1%), were miss
136                                   D2-HG is a low-abundance metabolite, but we show that it can meanin
137                                 Detection of low abundance metabolites is important for de novo mappi
138 yses, and are poorly suited for detection of low abundance metabolites present in urine samples.
139 quantitative information recovery of various low abundance metabolites.
140 l the major metabolites of APAP and multiple low-abundance metabolites (e.g., acetaminophen hydroxy-
141 ization of statistically relevant changes in low-abundance metabolites in body fluid.
142 f the raw mass spectrometry data, especially low-abundance metabolites.
143 ed the idea of the "keystone-pathogen" where low-abundance microbial pathogens (Porphyromonas gingiva
144                 Here, we discovered that the low abundance minor spliceosome's catalytic snRNP, U6ata
145 re-based detection systems, where 88% of the low abundance miRNA targets could not be detected under
146 for miRNAs derived from blood cells, and for low abundance miRNAs (non-detectable in over 10% of samp
147 ed 100 times (to 1 pM) allowing us to detect low-abundance miRNAs in an RNA extract.
148 MmiR is not sufficiently sensitive to detect low-abundance miRNAs.
149  Nowadays, it is still a challenge to detect low-abundance miRNAs.
150  a powerful method for the identification of low-abundance modified peptides within the same sample.
151 lso contribute to faster detection times for low abundance molecules in small sample volumes.
152 ecessary for spatially resolved detection of low-abundance molecules in complex matrices.
153 ated with increased metabolite diversity and low-abundance molecules, suggesting they include cumulat
154 he absolute quantification of both high- and low-abundance mRNA transcripts, as well as micro-RNAs th
155 e, we present a fluorescence-based assay for low-abundance mutation detection based on toehold-mediat
156 ew assay accurately detected DRMs, including low-abundance mutations that were often missed by Sanger
157 l for detecting nucleic acids with extremely low abundance not only for food safety control but also
158                                          The low abundance of bacterial proteins in human serum durin
159 the gut microbiome are warranted because the low abundance of bifidobacteria and butyrate-producing s
160 ired for maintenance of DNA methylation, and low abundance of histone transcripts involved in heteroc
161 rincipal component analysis indicated that a low abundance of lactate-producing and butyrate-producin
162 Bacterial vaginosis (BV) is characterized by low abundance of Lactobacillus species, high pH, and imm
163                        We also find that the low abundance of lncRNAs observed from cell population m
164         However, this is challenging due the low abundance of microbial DNA relative to the host.
165 n remains a significant challenge due to the low abundance of phosphoproteins and the low stoichiomet
166  absence of suitable gamma emissions and its low abundance of positron emissions.
167                                              Low abundance of potential pathogens was detected by 16S
168       AH1206 engraftment was associated with low abundance of resident B. longum and underrepresentat
169 ha5, alpha7, beta2, and beta4 subunits and a low abundance of RNAs for alpha2, alpha4, alpha6, and al
170 gainst higher organisms, the high price, and low abundance of silver.
171                The minute sample volumes and low abundance of some constituents in cells hinder our u
172                                          The low abundance of TAG is also valid with respect to expre
173 hate is thought to be limited in part by the low abundance of the critical micro-nutrient iron.
174 sient nature of these contacts and the often low abundance of the participants present significant ex
175  higher levels of uncoupling protein 1 and a low abundance of the proinflammatory interleukin-6, a co
176                                   Due to the low abundance of the protein and some difficulty with th
177                                  Despite the low abundance of this last category of isoforms, their p
178 ows are developed to allow detection of very low abundance of transcripts, accurate quantitative dyna
179                                          The low abundance of VZV nucleic acids in human neurons has
180                                          The low abundances of Ir and Ru in the earth's crust and, he
181 ore branched alkyl side chains (>/=80%) with low abundances of n-alkanes and aromatics (<5%), similar
182                     Consequently, relatively low abundances of small particles are predicted at the o
183 he CI deficiency concomitantly occurred with low abundances of the mtDNA transcription factors TFAM a
184  challenging to detect and quantify, certain low abundance oligosaccharides are highly relevant to th
185                Detection and quantitation of low abundance oligosaccharides can also be achieved usin
186  less acidic and neutral species that are in low abundance or absent with NH4OH reagent.
187      Partial IGP food webs that had either a low abundance or high abundance of total prey were also
188 s potential for enhancing the sensitivity of low abundance or targeted species.
189 ticularly attractive for reactions involving low-abundance or expensive reagents.
190                  In contrast, responses from low abundance organisms of the NOR5/OM60 gammaproteobact
191 between naturally driven periods of high and low abundance over time scales of decades to centuries a
192   Most of the missing values are found to be low abundance peak pairs.
193 f the selected precursor can be removed, and low abundance peaks that are believed to have limited co
194 23%, and 34% for high, medium, low, and very low abundance peaks, respectively.
195 rogeneity and thus increase detectability of low abundance peaks.
196 e effective sampling and characterization of low abundance peptides derived from the antigen-binding
197 alyzed by SPE-GEMS allowing the detection of low abundance peptides usually not observed by direct ma
198 n for the direct quantitative MS analysis of low abundance peptides was observed.
199 on step and improved the signal intensity of low abundance peptides.
200 ted reaction monitoring (LC-SRM) analyses of low-abundance peptides spiked into a highly complex mixt
201 ylinositol 3,5-bisphosphate [PI(3,5)P2] is a low-abundance phosphoinositide presumed to be localized
202                                              Low-abundance populations with high intra-population div
203 re achieves improved MS/MS scan coverage for low-abundance precursor ions not captured by auto-MS(2)
204  reactivity of the cofactor coupled with its low abundance pressured development of an efficient syst
205         Melanoma antigen-A11 (MAGE-A11) is a low-abundance, primate-specific steroid receptor coregul
206                             We now show that low-abundance Primer IDs (offspring Primer IDs) are gene
207 al-to-noise ratio in MALDI-MS analysis for a low abundance protein, hemopexin.
208 used as a label-free system for detection of low-abundance protein biomarkers.
209                              Quantitation of low-abundance protein modifications involves significant
210        Here we show that Ypt11 is normally a low-abundance protein whose ER localization is only dete
211 However, precise quantification of extremely low abundance proteins (e.g., </= 100 pg/mL in blood pla
212 sibly trapped proteins remain captured while low abundance proteins are released and recovered in the
213 ting their high abundance proteins, as their low abundance proteins are upregulated.
214  be applied for the multiplexed detection of low abundance proteins from complex biological samples s
215 col enables the discovery of interactors for low abundance proteins in rice and opens the possibility
216 at promise for precisely measuring extremely low abundance proteins or protein modifications, especia
217                                 Isolation of low abundance proteins or rare cells from complex mixtur
218 coral isolate, showed that a large number of low abundance proteins were exclusively detected in OMVs
219      Translational readthrough gives rise to low abundance proteins with C-terminal extensions beyond
220 eomics has limited success at detecting many low abundance proteins, such as transcription factors fr
221  abundant proteins at higher efficiency than low abundance proteins, which are enriched in the supern
222 eting efficiency and to purify and visualize low abundance proteins.
223 ities for mapping a large number of high and low abundance proteins.
224 al individuals were randomized, enriched for low-abundance proteins by MAF, digested endoproteolytica
225 orm that enables single-molecule counting of low-abundance proteins by mechanically slowing-down thei
226 on limit and a 30% increase in the number of low-abundance proteins detected.
227 tudy conformation and interaction changes of low-abundance proteins directly in their endogenous cell
228 rminal sulfonation confirmed the identity of low-abundance proteins in 2-D gel spots that contained m
229 icating proof of concept for detecting these low-abundance proteins in crude extracts.
230 ced and identification of newly synthesized, low-abundance proteins is challenging.
231 all 10 influenza A virus proteins, including low-abundance proteins like the matrix protein 2 and non
232 nt when applied to the isolation of multiple low-abundance proteins or cell types.
233  improvements make possible the detection of low-abundance proteins present at sub-attomolar levels,
234 orescent proteins (FPs) in E. coli, allowing low-abundance proteins to be counted using standard tota
235 ethods for proteins, the immune-detection of low-abundance proteins using antibodies is fundamentally
236 ProteoMiner technology for the enrichment of low-abundance proteins with stable isotope-coded protein
237        Analyzing the spatial distribution of low-abundance proteins within cells is highly challengin
238 suggest that degradation is limited to a few low-abundance proteins.
239  ultrasensitive detection systems to measure low-abundance proteins.
240  abundance require tailoring to penetrate to low-abundance proteins.
241 FP repeats, critically enabling the study of low-abundance proteins.
242  MW proteins up to 223 kDa and also revealed low abundance proteoforms that are post-translationally
243 k, we first developed a new method to detect low-abundance PSVs with improved sensitivity.
244 t is the limited sensitivity for quantifying low-abundance PTMs, requiring the use of affinity reagen
245                  Importantly, mRNAs encoding low-abundance regulatory proteins tend to be enriched in
246 the signal transduction pathway owing to its low abundance relative to its binding partners.
247 composed of highly heterogeneous, relatively low-abundance repeat-derived DNA, supporting a scenario
248 chococcus and Cyanobium) with a long tail of low abundance representatives, and local peaks of bloom-
249  visualize native RNAs, particularly, short, low-abundance RNAs in live cells, can dramatically impac
250 e-function relationships of the multitude of low-abundance RNAs that prevail in living cells.
251 ondary-structure models, enables analysis of low-abundance RNAs, disentangles sequence polymorphisms
252 s and focused in vivo investigations of even low-abundance RNAs.
253 ease until they equal the influx rate of the low abundance sample species.
254                             Early-occurring, low-abundance "scout" DSBs lack homolog bias.
255 eby restricting responses to low-affinity or low-abundance self-antigens even in the context of an in
256 horylates phytic acid (InsP6) to produce the low abundance signaling molecules InsP7 and InsP8.
257 horylated phosphoinositide lipids (PPIs) are low-abundance signaling molecules that control signal tr
258  suggests that lower female recruitment into low abundance sites is contributing to these skews.
259          The detection and quantification of low-abundance somatic DNA mutations by high-throughput s
260 t the use of stressed conditions to generate low abundance species for detailed characterization of r
261  functions of antibody-based drugs; however, low-abundance species are difficult to detect.
262 ate that these exceptionally short-lived and low-abundance species form Watson-Crick-like base pairs,
263 s universally applicable to the detection of low-abundance species, since no Raman signal enhancement
264 tified, the functional significance of these low-abundance sphingolipids is unknown.
265                              Surprisingly, a low-abundance subset of SECs containing ELL2 and AFF1 wa
266 cific miRNAs, some with few target genes and low abundances, suggests their recent evolutionary origi
267  quantification of rare-event cells carrying low-abundance surface biomarkers.
268 ngle cells, including the ability to amplify low-abundance tags to make them detectable with sequenci
269 ingent limit-of-detection specifications for low-abundance target molecules.
270 quivalent proficiency, revealing hundreds of low-abundance targets missed by previous approaches.
271 ore increase the proportion of NGS reads for low-abundance targets.
272 ften had low relative abundances, suggesting low-abundance taxa may significantly contribute to rhizo
273 ere both non-linear and flow-dependent, with low abundance thresholds needed to suppress plant commun
274 ye fluorescence and permits visualization of low-abundance tissue markers such as Bcl-6 or MSH-6.
275 ecisely quantify these previously undetected low-abundance, trace and even ultra-trace N-glycans.
276 rectly assay the O-GlcNAcylation status of a low-abundance transcription factor from cell lysates wit
277  that microarray profiling fails to identify low abundance transcripts directly activated by p53.
278 efficient rRNA removal enhanced detection of low abundance transcripts via qPCR.
279  sensitivity is demonstrated by detection of low-abundance transcripts and rare cells.
280 gain mainly due to its improved accuracy for low-abundance transcripts.
281 APE-LMPCR to query the in vivo structures of low-abundance transcripts.
282 otein-coding transcripts were categorized as low-abundance transcripts.
283 y other amino acid-increases selectivity for low-abundance transition metal transport in the presence
284 ose members selectively and tightly bind the low-abundance transition metals, Ni(2+) and Co(2+).
285 ich enabled direct analysis of intrinsically low-abundance transmembrane proteins.
286    This sSNP introduces a codon pairing to a low-abundance tRNA that is particularly rare in human br
287                                              Low-abundance tRNAs decode rare codons slowly, but it is
288 itivity and specificity for the detection of low-abundance tumor cells was designed.
289                                              Low-abundance tyrosine phosphorylation is crucial to not
290 f >1,000 phosphorylation sites including 366 low-abundance tyrosine phosphorylation sites, with high
291                    We probe the structure of low-abundance U12 small nuclear RNA (snRNA) in Arabidops
292                                     How this low-abundance ubiquitin ligase targets rare stall-genera
293 tistical algorithm for identifying authentic low-abundance variants.
294               Real-time measurements of many low-abundance volatile organic compounds (VOCs) in breat
295      Our data illustrate that taxa driven to low abundance when dietary MACs are scarce are inefficie
296 e-biased sites are more frequent in areas of low abundance, which are now widespread across much of s
297 unity richness resulted from taxa present in low abundance with similar patterns of phyla distributio
298 ing a 2-OH-Trp72 group (oxTrp72-apoA1) is in low abundance within the circulation but accounts for 20
299  were exploited to improve the enrichment of low-abundance yeast cells in an iDEP channel.
300  have the potential to aid the enrichment of low-abundance yeast cells when filler volume fractions a

WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。
 
Page Top