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1 dels the change in enhancer signature upon a single nucleotide substitution.
2 U) by the insertion of a nucleotide and by a single nucleotide substitution.
3 of the parent Y942H virus, which possessed a single nucleotide substitution.
4 differentiate a spurious target containing a single-nucleotide substitution.
5 -gamma), and interleukin 10 (IL-10) based on single nucleotide substitutions.
6 with the germ-line sequences with only four single nucleotide substitutions.
7 as similarly affected by linked selection as single nucleotide substitutions.
8 second binding site in E2 that can vary with single nucleotide substitutions.
9 ions in an infected host covers all possible single nucleotide substitutions.
10 g conserved genes, nucleotide deletions, and single nucleotide substitutions.
11 on/duplication of these elements rather than single nucleotide substitutions.
12 , reagentless, room-temperature detection of single nucleotide substitutions.
13 acid changes leading to escape resulted from single nucleotide substitutions.
14 rted in mouse and human and to date, all are single nucleotide substitutions.
15 among LDSIs of a strain were associated with single-nucleotide substitutions.
16 to structural divergence-twice the number of single-nucleotide substitutions.
17 hanges resulting from 3'-untranslated region single-nucleotide substitutions.
18 e sequence, of which 9726 were nonsynonymous single-nucleotide substitutions.
19 used frequency-validated SNPs resulting from single-nucleotide substitutions.
20 and a noticeable capability to discriminate single-nucleotide substitutions.
21 equences, and thus prevents viral escape via single-nucleotide substitutions.
23 ciency), a stop codon insertion (36%), and a single nucleotide substitution (19%) in the exopolysacch
24 revealed seven rare and private heterozygous single nucleotide substitutions (4% of individuals).
25 ion, a 1 bp deletion, a 13 bp deletion and a single nucleotide substitution affecting a donor splice
26 proximately 3%, more than half of which were single nucleotide substitutions affecting a basic clamp-
28 of these codon mutations was generated by a single nucleotide substitution and therefore had the pot
30 data show that Jun-Fos heterodimer tolerates single nucleotide substitutions and binds to TGACTCA var
33 er filtering, >2000 rare variants (including single nucleotide substitutions and indels) were shared
34 f 25mer probes complementary to all possible single nucleotide substitutions and insertions, and one
36 the effects of 2 common types of mutations, single-nucleotide substitutions and simple sequence repe
40 ough oligonucleotide probes complementary to single nucleotide substitutions are commonly used in mic
41 but instead is organized in such a way that single nucleotide substitutions are more likely to resul
49 d oligodeoxyribonucleotide and distinguishes single nucleotide substitutions at any position of a 20-
50 m switching results from the introduction of single nucleotide substitutions at defined locations in
51 g of the promoter activity revealed that two single nucleotide substitutions at positions -331 and -1
52 me of an organism arises from such events as single nucleotide substitutions at the DNA level, differ
53 Mutation screening of KERA revealed a novel single-nucleotide substitution at codon 215, which resul
54 ges did not reduce tR1 function, 11 specific single-nucleotide substitutions at eight positions inter
55 showed that the mutations were predominantly single-nucleotide substitutions broadly distributed with
56 tically detects the presence of heterozygous single nucleotide substitutions by fluorescencebased seq
57 rations (e.g., insertions and deletions) and single-nucleotide substitutions by comparing the followi
58 nocytopenia caused by a heterozygous de novo single nucleotide substitution, c.35G>A (p.G12E) in RAP1
59 Recent research has illustrated that even a single nucleotide substitution can alter the selective b
60 ncing showed that the defect was linked to a single nucleotide substitution causing an amino acid cha
61 -infectious isolates bosR allele contained a single nucleotide substitution, converting an arginine t
63 y, these assays identified a site at which a single nucleotide substitution could distinctly impact p
67 t into connected components that represented single nucleotide substitution events revealed a network
71 the second leucine rich repeat, the other, a single nucleotide substitution (G2078 --> A) for the try
73 and functional interrogation, we identify a single nucleotide substitution in an anthocyanin-activat
74 f different dimorphic polymorphisms based on single nucleotide substitution in chronic HCV patients (
75 f pairs apparently resulted from a concerted single nucleotide substitution in each pairing oligonucl
77 the photorespiratory sat mutants revealed a single nucleotide substitution in the AGT1 gene from the
78 out a family history of uveal melanoma had a single nucleotide substitution in the conserved splice d
81 ns in stem-loop III allow snRNP formation, a single nucleotide substitution in the loop prevents tran
82 inal (Rld1-O) mutation, which results from a single nucleotide substitution in the miRNA166 complemen
83 site reversion to Tyr, Trp, Phe, or His by a single nucleotide substitution in the original mutant co
84 n of the duck hepatitis B virus that bears a single nucleotide substitution in the pre-S envelope pro
85 d mutant clones containing either SGD with a single nucleotide substitution in the R(144) codon or do
87 Somatic hypermutation introduces multiple single nucleotide substitutions in and around the rearra
88 ice established two obese pedigrees in which single nucleotide substitutions in Mc4r and Sim1 genes w
90 cient bacterium to identify four independent single nucleotide substitutions in the alsK and nanK gen
91 em of the poliovirus cre and was reversed by single nucleotide substitutions in the stem as well as t
93 rmed whole exome-sequencing (WES) to profile single nucleotide substitutions in UVB-irradiated primar
94 (SOLiD 3 ECC) for their ability to identify single nucleotide substitutions in whole genome sequence
96 c organization contribute to the patterns of single-nucleotide substitution in normal and cancer geno
98 ids was constructed containing predominantly single-nucleotide substitutions in a 24 nt region previo
99 more stable than the READY state, as several single-nucleotide substitutions in a hypervariable regio
103 ndependent human selections of four distinct single-nucleotide substitutions in the GmTfl1 gene, each
104 lly explaining the preferred accumulation of single-nucleotide substitutions in the nucleosome core a
105 characterize viruses harboring all remaining single-nucleotide substitutions in the pentaloop of MHV
106 inated from the reverse strand by synonymous single-nucleotide substitutions in the RdRp gene, sugges
109 human genome have been identified, including single nucleotide substitutions, insertion and deletion,
111 oach to quantify the effects of all possible single-nucleotide substitutions introduced into importan
112 determined that the frequency of intergenic single-nucleotide substitution is significantly higher i
113 be changed by random mutagenesis and that a single-nucleotide substitution is sufficient to change t
114 ypertrophy in callipyge sheep results from a single nucleotide substitution located in the genomic in
119 A mouse transgenic assay shows that these single nucleotide substitutions operate as gain-of-funct
120 All of these alleles are characterized by single nucleotide substitutions or deletions leading to
121 c molecular phenotypes in CMT2E, caused by a single nucleotide substitution (p.N98S) in the neurofila
122 hibited the mutation rate of >/=1.3 x 10(-8) single nucleotide substitutions per site per generation,
123 propose that, in addition to recombination, single nucleotide substitutions played an important role
127 LA binding peptides and screened for reduced single nucleotide substitution rates in large genomic da
128 resolution site (trs), CCGGT/CG, contains a single nucleotide substitution relative to the AAV(2) tr
130 isolated from normal cell types contained a single nucleotide substitution, resulting in an amino ac
132 Analysis of the genome-wide patterns of single-nucleotide substitution reveals that the human GC
133 P detection method has been validated on all single-nucleotide substitution scenarios in three synthe
134 ral types of spontaneous mutation, including single-nucleotide substitutions, short insertions and de
136 guide RNA target region and are comprised of single nucleotide substitutions, small insertions and de
137 quences for quality and number of reads, all single-nucleotide substitutions, small insertion and del
138 m of human genome variation: novel and known single-nucleotide substitutions (SNP/SNV), short inserti
140 ations are typical SHM consisting largely of single nucleotide substitutions targeted to hotspots.
141 nts, the heritable ADPKD mutation involves a single nucleotide substitution that converts the normal
142 e from an ancestral molecule was caused by a single nucleotide substitution that occurred after the c
147 he nonlytic plaque phenotype resulted from a single-nucleotide substitution that shifted a tyrosine r
148 of these enhancers evolved through multiple single-nucleotide substitutions that altered both the ti
149 o acid substitutions in HIV-1 RT; however, a single nucleotide substitution (thymine to cytosine) was
150 human brain evolution span a wide range from single-nucleotide substitutions to large-scale structura
154 eration and correction of disease-associated single-nucleotide substitutions via homology-directed re
156 udogene-derived mutation rates for different single nucleotide substitutions we have estimated, for t
157 cleotides required for function, a series of single nucleotide substitutions were introduced in the F
159 ected a gacA mutant of Pf-5 that contained a single nucleotide substitution within a predicted alpha-