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1 al strains, as achieved with typing based on genetic markers.
2 re to increase the ability to detect related genetic markers.
3 e thus far owing to the lack of identifiable genetic markers.
4 disease liability explained by large sets of genetic markers.
5 mate pedigree structure, both estimated with genetic markers.
6 lyses using >10 million genotyped or imputed genetic markers.
7 t been systematically studied due to lack of genetic markers.
8 under protein, cellular, gene expression and genetic markers.
9 y using two real data-sets with nearly 500 k genetic markers.
10 urther caution in reporting interactions for genetic markers.
11 oach was validated with multiple independent genetic markers.
12 s for learning epistatic relationships among genetic markers.
13 e myeloid leukemia (AML) is largely based on genetic markers.
14  assays targeting putative canine-associated genetic markers.
15 ted in a growing list of robustly associated genetic markers.
16 squitoes and diverged from NF54 parasites by genetic markers.
17 species differences that can be exploited as genetic markers.
18 ption about the correlation structure of the genetic markers.
19 d benefit from the application of additional genetic markers.
20 ferential expression and/or trait-associated genetic markers.
21 oportion of phenotypic variance explained by genetic markers.
22 pendently from dental phenotypes and neutral genetic markers.
23 eatments, clinical course, and serologic and genetic markers.
24  GDSC), again out-performing clinically used genetic markers.
25 rmed by sequencing taxonomically informative genetic markers.
26 ontemporary migration rates based on neutral genetic markers.
27 n variant genetic architecture or for single genetic markers.
28 tional fragment comprising an easy-to-select genetic marker, a fluorescent reporter, as well as an at
29                              We have defined genetic markers able to segregate stable HIV-1-controlle
30                 Conclusions: We have defined genetic markers able to segregate stable HIV-1-controlle
31                                          144 genetic markers across the entire genome were used for q
32 etween two individuals in the combination of genetic markers along their chromosomes indicates shared
33 ssful identification of associations between genetic markers and aggression would contribute to under
34                          The combined use of genetic markers and detectable minimal residual disease
35  In a typical eQTL study, the huge number of genetic markers and expression traits and their complica
36 rmation allows accurate inference of missing genetic markers and full genotypes of missing (and presu
37                           We applied mgRF to genetic markers and gene expression data from a cohort o
38 sults uncovered intricate interactions among genetic markers and genes that have been overlooked if o
39 ate networks representing interactions among genetic markers and genes.
40 view of current knowledge about mouse genes, genetic markers and genomic features as well as the asso
41  lineage sorting leads to random fixation of genetic markers and hence, random signals of relationshi
42                However, associations between genetic markers and imaging QTs identified by existing b
43 f related animals genotyped for thousands of genetic markers and invariably contain multiple errors i
44  our algorithm to characterize the effect of genetic markers and liver gene expression traits on mous
45 ecotypes, identified on the basis of neutral genetic markers and locally adapted populations, are ass
46 proach holds potential for elucidating novel genetic markers and mechanisms for cardiovascular diseas
47 s are based on a limited number of molecular genetic markers and morphology-based assessment of remis
48 tics intends to uncover associations between genetic markers and neuroimaging quantitative traits.
49 ured genotype analysis was performed between genetic markers and obesity-related traits i.e., anthrop
50 r available information, such as location of genetic markers and pathway information are not integrat
51 evels of linkage disequilibrium (LD) between genetic markers and quantitative trait loci (QTL) affect
52 h can be used to narrow the search for novel genetic markers and regulatory interactions.
53 to predict progression to CNV and GA because genetic markers and smoking status do not equally predic
54 c variation within populations, we collected genetic markers and speech recordings in the admixed cre
55 TSuV2 genomic DNA with or without introduced genetic markers and tandem-dimerized TTSuV2 plasmids wer
56 through association studies with millions of genetic markers and thousands of individuals.
57  integrates the correlation structures among genetic markers and traits simultaneously.
58 for analysing genetic inheritance and to map genetic markers and traits.
59 ssypium raimondii are available with aligned genetic markers and transcripts.
60 etect an association between a disease and a genetic marker, and second, the effect of leaving miscla
61 d poplar plantations using morphological and genetic markers, and developed a spatially explicit land
62    However, the links between peripheral OT, genetic markers, and their combined contribution to huma
63                       We employed a multiple genetic marker approach to test whether the successful e
64  about the genetics of sainfoin and only few genetic markers are available to assist breeding and gen
65                                              Genetic markers are essential when developing or working
66                              Assessing which genetic markers are involved in determining trait status
67 network graphical structure by incorporating genetic markers as covariates.
68 BMI) and 25-hydroxyvitamin D [25(OH)D] using genetic markers as instrumental variables (IVs) in bi-di
69                                              Genetic markers associated with age at puberty will allo
70 identification of the infecting organism and genetic markers associated with antibiotic resistance.
71 e PCR capable of detecting aspergillosis and genetic markers associated with azole resistance.
72     Although numerous studies have looked at genetic markers associated with depression, the role of
73                                              Genetic markers associated with divergent cannabinoid ph
74                    To identify mycobacterial genetic markers associated with increased transmissibili
75 analysis with PolyPhen software identified 6 genetic markers associated with longevity for all 4 anti
76                   In this study, to identify genetic markers associated with MM overall survival (MM-
77 in single-nucleotide polymorphisms (SNPs) as genetic markers associated with naphthyl-keratin adduct
78 ve been extensively conducted, searching for genetic markers associated with outcomes beyond clinical
79 maintain both overall diversity and identify genetic markers associated with the environmental factor
80               Recent studies have identified genetic markers associated with the reaction of cattle t
81                 To review the most promising genetic markers associated with the variability in the s
82 asure of disease progression and to identify genetic markers associated with this progression measure
83                                              Genetic markers at the gene encoding the metabotropic gl
84  lake illustrated that the highest levels of genetic markers at the raw water intakes were associated
85 n host control of infection and suggest that genetic marker-based selection for resistance to bTB has
86 Spatial heterogeneity of transcriptional and genetic markers between physically isolated biopsies of
87 gly, based on cytoarchitectonic criteria and genetic markers, blocking thalamocortical neurotransmiss
88 ted, on average, by seed metabolites than by genetic markers, but DiPR using both sets of predictors
89 for association between complex diseases and genetic markers by using combinations of full triads, pa
90                           While high density genetic markers can be easily obtained nowadays in genet
91 ps previously evaluated using relatively few genetic markers can now be addressed with thousands of l
92 re characterized by multiple factors such as genetic markers, clinical variables and treatments.
93 ed evidence of an association between AD and genetic markers close to or within the IFITM cluster or
94                            Pyrosequencing of genetic marker, COI (cytochrome c oxidase subunit I) and
95 luxes on the basis of taxonomic identity and genetic marker composition of replicated clones of indiv
96                     A set of high-resolution genetic markers could be useful to infer the genetic rel
97 ytogenetics and a limited panel of molecular genetic markers, coupled with morphological assessment o
98 een much interest in the use of modern dense genetic marker data to infer segments of gene identity b
99                                 High-density genetic marker data, especially sequence data, imply an
100                                          The genetic markers did not show evidence of pleiotropic eff
101                               Genomics-based genetic marker discovery is allowing unprecedented colle
102 o pinpoint the molecular mechanisms by which genetic markers drive variation in RNA-processing, catal
103                                        Using genetic markers, each subpeak within this combinatorial
104 Based on the whole-genome sequence data, two genetic markers encoding the 60-kDa glycoprotein (gp60)
105 Mcs1b was narrowed to 1.8 Mb of RN02 between genetic markers ENSRNOSNP2740854 and g2UL2-27.
106 de closely linked and thus highly correlated genetic markers, especially when high-density marker map
107 inkage or genomic position are available for genetic markers, estimates of recombination rate between
108   In recent genome-wide association studies, genetic markers explaining a small portion of the geneti
109  sufficient sizes, and genome-wide panels of genetic markers facilitated systematic and agnostic scan
110 d increase in mRNA for MYCN, the most common genetic marker for a poor prognosis in neuroblastoma.
111 ngobium sp. BiD32, and may serve as a future genetic marker for BPA degradation.
112  a KRAS fragment encoding G12D, an important genetic marker for guiding therapy of certain cancers.
113 lipase 3 gene has been identified as a novel genetic marker for hepatic steatosis.
114                                The lack of a genetic marker for microbial MeHg production has prevent
115 ear HTR3C and ABCC5 might constitute a novel genetic marker for prediction of the transition from Bar
116 based algorithms to search a large number of genetic markers for a disease-associated joint associati
117 ost discovery and genotyping of thousands of genetic markers for any species, including non-model org
118                                    Candidate genetic markers for clinically relevant SSG-resistant pa
119 some 9p21 variants are among the most robust genetic markers for coronary artery disease (CAD), and p
120                                              Genetic markers for enterococci, total Bacteroides, and
121                                      Testing genetic markers for Hardy-Weinberg equilibrium (HWE) is
122                                  To identify genetic markers for laryngeal squamous cell carcinoma (L
123                             The abundance of genetic markers for methane-oxidizing bacteria (pmoA) wa
124 in AML, and provide a new source to identify genetic markers for normal karyotype AML.
125               Our findings may provide novel genetic markers for predicting the immunogenicity of PEG
126 findings provide important information about genetic markers for PSA that may improve PCa screening,
127 h reproductive traits or physically close to genetic markers for reproduction, SNPs in genes that are
128 (PIK3CA) mutations were the most significant genetic markers for resistance and sensitivity to PP242,
129                                              Genetic markers for sheep resistance to gastrointestinal
130 tudying phylogeny of Diptera, and developing genetic markers for species identification in leafminers
131 ) and Ascl1/Mash1(-/-) mice) to identify new genetic markers for specific subsets of dorsal horn inhi
132 et of SNPs identified here represents useful genetic markers for strain differentiation of more clona
133 bled gorilla Y Chromosome sequence to design genetic markers for studying the male-specific dispersal
134 eisseria are naturally competent and acquire genetic markers from each other in vivo, in the absence
135 ons as quantitative traits while considering genetic markers, genetical genomics analysis has shown i
136 t could reveal associations between a set of genetic markers (genomic feature) and a complex trait.
137             Here the association between the genetic marker (GM) 3/17 variants in the immunoglobulin
138 on and opened the door to the possibility of genetic marker-guided treatment (personalized medicine).
139 clinical and laboratory characteristics, but genetic markers had a strong influence on response and s
140 isequilibrium (LD) between unlinked pairs of genetic markers has become an important tool in the fiel
141 of this naturally occurring constellation of genetic markers has provided insights into the poorly un
142 nces on age-related nuclear cataract but few genetic markers have been identified thus far.
143                                     Specific genetic markers have been previously identified that inf
144                                              Genetic markers have helped to prognosticate diffuse lar
145 orals, Chrysogorgia, for which few classical genetic markers have proved informative.
146                Previous studies based on few genetic markers have revealed a conspicuous lack of gene
147                                  Hundreds of genetic markers have shown associations with various com
148 ublished ancient DNA analyses of uniparental genetic markers have shown that the Guanches carried com
149 -needle aspiration, and better molecular and genetic markers help raise the suspicion of a thyroid no
150 development in Saudi population and can be a genetic marker however, further studies are needed with
151  the results seen with a combination of five genetic markers (icaA, IS256, sesD [bhp], mecA, and argi
152  to explore the intrinsic associations among genetic markers, imaging QTs, and clinical scores of int
153 ine whether inclusion of clinically relevant genetic markers improved accuracy beyond prediction usin
154  quantitative PCR for a Common Carp-specific genetic marker in two experiments.
155 ruminant (BacR) fecal Bacteroidales 16S rRNA genetic markers in a drinking water source (Lake Radasjo
156 mes, based on the discovery of male-specific genetic markers in both species.
157                 In this study, we identified genetic markers in convergent evolution of M. tuberculos
158  This study provides new information linking genetic markers in denitrifier and nitrifier populations
159  the benefits to be had from using molecular genetic markers in experimental breeding programmes (e.g
160 eotide polymorphisms (SNPs), the most common genetic markers in genome-wide association studies, are
161             The role of immunophenotypic and genetic markers in guiding chemotherapy choice and postr
162 on based on the cotransformation of unlinked genetic markers in naturally competent microorganisms.
163    Microsatellites are among the most useful genetic markers in population biology.
164                                              Genetic markers in significant regions accounted for app
165      Integration of phenotypic features with genetic markers in the subtyping analysis is a promising
166 and effluent indicated that the abundance of genetic markers in the water column was likely controlle
167                                              Genetic markers in this family segregated either in 1:2:
168 wed the interrogation of thousands of common genetic markers in thousands of individuals from the sam
169  on the transport and decay of host-specific genetic markers in water sources.
170 eukaryotic genomes, and are commonly used as genetic markers, in particular for identity and parental
171 rticipants' race/ethnicity, or the number of genetic markers included in the GRMs.
172 ticipants' race/ethnicity, and the number of genetic markers included.
173 roinflammatory stimuli and the expression of genetic markers including iNOS, arginase1, Ym1, and Fizz
174 ty of the map was verified through extensive genetic marker information and the analysis of topologic
175                        It is unclear whether genetic markers interact with risk factors to influence
176 not improve appreciably with the addition of genetic markers into conventional risk factor-based mode
177                                   This novel genetic marker is an important factor regulating oxidize
178                       A transposon bearing a genetic marker is randomly transposed in vitro in genomi
179 three related genomes and the performance of genetic markers is diminished if the primers are not gen
180                                The design of genetic markers is of particular relevance in crop breed
181 ow into the wild population, estimated using genetic markers, is often smaller than the fraction of i
182 ulu Sea, and tested selected regions of four genetic markers (ITS1, 18S rRNA, 28S rRNA and COI) for t
183 nments and does not require perturbations or genetic markers, making it generally applicable to quant
184 , repetitive elements, polymorphisms, mapped genetic markers, mapped NCBI Rosaceae genes, gene homolo
185                                   Therefore, genetic markers may be useful as an addition to clinical
186 0 values; none had multiple pfmdr1 copies, a genetic marker of mefloquine resistance.
187 carriage of high-expression MIF alleles is a genetic marker of morbidity and mortality of pneumococca
188 ed a mediator complex subunit 12 mutation, a genetic marker of neoplastic transformation.
189 ation mode in many eukaryotes, we identify a genetic marker of pseudopod formation, the morphological
190 screening for GATA1 mutations, the signature genetic marker of TAM.
191 son of the genomes of these viruses revealed genetic markers of airborne transmissibility in the Poly
192 al macrophages showed that the expression of genetic markers of alternative activation, namely, Fizz1
193 nt findings indicate that there are powerful genetic markers of cancer risk outside of these regions,
194 as removed by adjusting for neuroimaging and genetic markers of cerebral small vessel disease.
195 with seizures the following neuroimaging and genetic markers of cerebral small vessel disease: APOE v
196 tometry, can be used to fluorescently detect genetic markers of CTCs in the context of whole blood.
197 lance of the African parasite population for genetic markers of emerging drug resistance.
198                Understanding the dynamics of genetic markers of fecal bacteria in these matrices is e
199  sand and sediment may act as reservoirs for genetic markers of fecal pollution at some freshwater si
200 of waterborne contamination typically target genetic markers of host-specific microorganisms.
201                        We sought to identify genetic markers of ICS response by conducting the larges
202 Blood, Astermark et al have identified novel genetic markers of inhibitory antibody formation in hemo
203                                              Genetic markers of liver fibrosis and inflammatory cytok
204 bacterial blood stream infections as well as genetic markers of methicillin and vancomycin resistance
205                                              Genetic markers of oligodendrocytes and astrocytes were
206                         We aimed to identify genetic markers of piperaquine resistance and study thei
207 officinalis, since they are one of the first genetic markers of postmitotic neural cells.
208 ss processing was negatively correlated with genetic markers of pre-manifest disease progression in d
209 s coding for placental expression enzymes as genetic markers of susceptibility to congenital T. cruzi
210               Furthermore, quantification of genetic markers of terminal electron acceptor and catabo
211         Results indicate that peripheral and genetic markers of the extended OT pathway are interrela
212 es, since psychosis has been associated with genetic markers of the immune system and with excess aut
213 al assays for the detection of host-specific genetic markers of the order Bacteroidales have been dev
214 and explain inconsistencies in detecting the genetic markers of these diseases among different ethnic
215                                  However, no genetic markers of treatment response have been reproduc
216 ogous XyG utilization loci (XyGULs) serve as genetic markers of XyG catabolism in Bacteroidetes, that
217                           Highly polymorphic genetic markers offer outstanding opportunities for gain
218                             Identifying this genetic marker offers direction for interrogation in sub
219 alysis of approximately 750,000 high-quality genetic markers on a combined sample of approximately 14
220                                        Using genetic markers, our study identified four outlier loci
221              Controlled crosses, following a genetic marker over multiple generations, demonstrated t
222 anged ALCLs, and 42% for cases lacking all 3 genetic markers (P < .0001).
223               The increasing availability of genetic markers physically anchored to reference genomes
224 FE) to identify novel nonribosomal microbial genetic markers potentially useful for detecting dog fec
225 rker relationships, whereas GBLUP weighs the genetic marker relationships equally.
226 ows differential weighting of the individual genetic marker relationships, whereas GBLUP weighs the g
227  has been established for variation in these genetic markers relative to morphological species design
228          A recent discovery of male-specific genetic markers reveals that these snakes instead posses
229  study (GWAS) of bladder cancer identified a genetic marker rs8102137 within the 19q12 region as a no
230 ngle-marker statistics, by including them in genetic marker set tests, that could reveal associations
231           None of the more than half million genetic markers significantly predicted response to anti
232                   We analyzed a dense set of genetic markers spanning TNIP1 and TAX1BP1, as well as t
233 gh linkage disequilibrium with rs12979860, a genetic marker strongly associated with HCV clearance.
234 he pathogen by cattle is associated with the genetic marker stx2.
235                                Commonly used genetic markers such as combined BRAF-MMR status have al
236 udies conducted to date have been limited to genetic markers such as haplotype-tagging single nucleot
237 o identify disease susceptibility genes with genetic markers such as microsatellites and Single Nucle
238 r task is to examine the association between genetic markers such as single-nucleotide polymorphisms
239 ing the bi-multivariate relationship between genetic markers such as single-nucleotide polymorphisms
240                      In part this is because genetic markers such as tag SNPs are usually studied, ra
241 ce, on the basis of incompletely informative genetic markers (such as single-nucleotide polymorphisms
242 global FA contributed independently of other genetic markers, such as white matter volume and cortica
243 th leukemia-free survival and tumor-specific genetic markers suggests a primarily host-driven biologi
244 d ASD to calculate risks of illness based on genetic marker tests.
245 re precisely estimated with large numbers of genetic markers than with pedigrees.
246                BRAF mutation is a prognostic genetic marker that has improved risk stratification and
247                                     A simple genetic marker that quickly and accurately identifies th
248                            Identification of genetic markers that affect clinical response may result
249          BSA requires access to quantitative genetic markers that are polymorphic in the mapping popu
250 -cell maturation in mice was studied to find genetic markers that enable screens for factors that ind
251 ext-generation sequencing has identified new genetic markers that have altered prognosis for patients
252 cancer in the United States, and identifying genetic markers that may predict susceptibility in high-
253        To look for phylogenetic patterns and genetic markers that might be associated with increased
254 s to standardize outcome measures in asthma, genetic markers that predict risk for asthma and appropr
255 estigators have sought to identify molecular genetic markers that stratify newly diagnosed patients i
256 es from a public repository and selected 318 genetic markers that were significantly associated with
257  risk factors and other somatic and germline genetic markers, the CCNE1 variants could be useful for
258  Molecular identification was made using two genetic markers, the internal transcribed spacer (ITS) a
259 ed from each other more significantly in the genetic markers, thus demonstrating the superior perform
260           The present study employs the same genetic marker to explore the presence of a comparable p
261                      In this paper, we apply genetic markers to assess whether field elm is or is not
262           Thus, there is a need for reliable genetic markers to complement the morphological identifi
263 otoperiod for flowering and surveyed neutral genetic markers to control for demography when analyzing
264  use molecular phylogenetic analysis of four genetic markers to describe Symbiodinium thermophilum, s
265 roach that integrates clinical features with genetic markers to detect confirmatory evidence for a di
266 ant selection, and silent changes serving as genetic markers to determine the extent of oligo process
267     In this article, we evaluated the use of genetic markers to estimate ancestry as a predictive com
268 d two measures (FROH and FE) that use mapped genetic markers to estimate IBDG.
269 randomization approach, applying a set of 32 genetic markers to estimate the causal effect of adiposi
270 tion and could serve as potential predictive genetic markers to identify individuals who would derive
271  harness clinical, biochemical, imaging, and genetic markers to increase our understanding of healthy
272 ical and acoustic data, as well as different genetic markers to investigate their evolutionary histor
273 ND To develop a risk scoring system based on genetic markers to predict IVIG responsiveness in KD pat
274                                      We used genetic markers to understand genomic alteration dynamic
275 ADseq data, a problem that has plagued other genetic marker types in the past.
276 puting, flexible pedigree types and flexible genetic marker types.
277                                          The genetic markers used were the internal transcribed space
278 and serum to identify and monitor BM-derived genetic markers using high-resolution single nucleotide
279 er to fully exploit the potential of SSRs as genetic marker, we developed a novel method for SSR geno
280                  To increase the coverage of genetic markers, we implemented imputation techniques to
281  observations, common garden experiments and genetic markers, we tested the hypothesis that genetic s
282                          Seven breast cancer genetic markers were amplified by means of the MLPA reac
283                                              Genetic markers were determined by real-time PCR and, wi
284 imal fecal reference library, and crAssphage genetic markers were highly abundant in raw sewage and s
285 hisms and short indels with potential use as genetic markers were identified.
286                                      Several genetic markers were nominally significantly associated
287 TTSuV2 developed viremia, and the introduced genetic markers were retained in viral DNA recovered fro
288                                       Twelve genetic markers were shown to be prevalent among dog fec
289                                          Ten genetic markers were used to identify 108 thelytokously
290                             Highly conserved genetic markers, which are characteristic for specific s
291 tions about the correlation structure of the genetic markers, which may not be valid for certain stud
292 ical test of association between a trait and genetic markers, which we theoretically and practically
293 plementations test the effect of one or more genetic markers while including prespecified covariates
294 tegy of pruning the search space by skipping genetic markers whose upper bounds on test statistics ar
295 onstitutes the basis of SSRs as an effective genetic marker with various applications.
296 nd that demographic signatures inferred from genetic markers with different inheritance modes also ne
297  and highlighting the utility of integrating genetic markers with different temporal scale resolution
298 methods can simultaneously identify multiple genetic markers with high sensitivity and specificity wi
299                           Highly polymorphic genetic markers with significant potential for distingui
300 erences between sJIA and CAPS biomarkers are genetic markers, with CAPS being a family of monogenic d

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