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 p to 30 nucleotides in length differing by a single base substitution.
2 train-specific genetic polymorphism due to a single base substitution.
3 which codons are mutually exchangeable by a single-base substitution.
4 d by site-directed mutagenesis, usually by a single-base substitution.
5 eletion variant calls are less reliable than single base substitutions.
6 kely to be due to both inherited and somatic single base substitutions.
7 sible amino acid changes that can arise from single base substitutions.
8 ancers, where each signature is a pattern of single base substitutions.
9 ines have been developed for the analysis of single base substitutions.
10 rtiary interactions in a group I ribozyme by single-base substitutions.
11 titutions, whereas 10.0% showed semitargeted single-base substitutions.
12 f these were derived from GGX for glycine by single-base substitutions.
13 including a three-nucleotide deletion and 12 single-base substitutions.
16 mutations were identified in 25 patients (23 single-base substitutions, 3 deletions, 1 duplication).
19 molysis bullosa simplex patient with a novel single base substitution (A-->T1414) that changes the ly
20 th an increased mutagenic frequency for both single base substitutions and deletions compared with un
21 quantitation of various mutations including single base substitutions and indels down to 0.001% VAF
22 ung samples, from small-scale events such as single base substitutions and insertions/deletions, to c
23 spectrum in which T-->C is the most frequent single-base substitution and differs significantly from
24 silon synthesizes DNA accurately, generating single-base substitutions and deletions at average error
25 of the induced psoralen-pcPNA mutations were single-base substitutions and deletions at the predicted
26 ed for mutations resulting from all types of single-base substitutions and for a wide variety of sing
27 g acute infection is predominantly fueled by single-base substitutions and is limited by treatment in
29 C of the human factor IX gene and 100% of 42 single-base substitutions and one microdeletion present
30 y of disease-associated mutations constitute single-base substitutions and short deletions and/or ins
31 BEs), which can correct the four most common single-base substitutions, and prime editors, which can
32 nt can detect 10 of the 12 types of possible single-base substitutions; and (ii) the SSCP component i
33 g than standard DNA alone and that hachimoji single-base substitutions are distinguishable with high
35 odel mutant DNA fragments, each containing a single base substitution, are achieved using both single
36 ture is characterized by a high frequency of single-base substitutions as well as insertions and/or d
39 B cells of C3H/HeJ mice reveals a consistent single base substitution at position 870, where a thymid
42 ss, we compared the cleavage kinetics of all single base substitutions at 152 sites across the Bacill
43 in certain sequence contexts, and generates single base substitutions at an average rate of 2.4 x 10
46 this observation by generating all possible single-base substitutions at positions 43, 44, and 45 of
47 se substitutions are not due to two adjacent single base substitutions but likely occur as single gen
48 9-base PCR product enables identification of single base substitutions by direct molecular weight det
51 ce specificity of HilC and HilD, a series of single base substitutions changing each position in a DN
53 yzed where mass differences corresponding to single base substitutions could be accurately assigned.
55 ecular spectrum of fast-neutron (FN)-induced single base substitutions differed substantially from th
56 This fact, combined with the high rate of single base substitution errors and complex mutations ob
58 vo (that is, newly arisen and not inherited) single-base substitution, G608G(GGC > GGT), within exon
59 DNA molecules differing by as little as a single-base substitution have traditionally been disting
63 reduced infectivity of CM972 and detected a single base substitution in TC_0236 in CM3.1 that may be
66 nsfected 3T3-L1 cells demonstrated that this single base substitution in the putative E2 box signific
68 se(6), contributed the largest proportion of single base substitutions in adenocarcinomas, and was en
69 e used N-ethyl-N-nitrosourea (ENU) to induce single base substitutions in spermatogonial stem cells.
70 nal significance of the G24 residue, we made single base substitutions in SRP RNA at this position an
72 ated by the effects of several deletions and single base substitutions in the nir promoter upstream s
73 is and candidate genes for causing the major single-base substitution in cancer-associated DNA mutati
75 tospacer, mice homozygous for a PE2-mediated single-base substitution in the Tspan2 CArG box displaye
77 gene-modifying proteins capable of creating single-base substitutions in DNA, can be used to perturb
84 16 alterations of 36% (nine deletions, three single base substitutions, including one polymorphism).
85 B that can result in the Rif(r) phenotype by single-base substitution is more limited than in certain
86 , such as an ethyl-methane sulfonate derived single base substitutions, is limited by array coverage
88 eosarcomas exhibit a specific combination of single-base substitutions, LOH, or large-scale genome in
89 timepoint across types of variants (based on single based substitution molecular signatures) and iden
90 poB gene of this clinical isolate revealed a single base substitution, most likely a silent point mut
91 ls, approximately 70% of mutations comprised single-base substitutions, mostly at G.C base-pairs, wit
92 cally characterizes the mutation density for single-base substitution mutational classes after adjust
96 We did observe an elevated occurrence of single base substitution mutations within mutation signa
97 tiple mutagenic outcomes including signature single-base substitution mutations (isolated and cluster
99 the RY box region has been used to show that single-base substitutions of A(r)G either 23 or 19 bp 5'
100 multigenerational family, identified unique single-base substitutions of highly conserved residues w
102 g of the entire 2.2-Mb interval identified 2 single-base substitutions, one in an intergenic region a
103 s as well as all mismatches, including three single-base substitutions, one microdeletion, one microi
105 eference strain emm sequences as a result of single base substitutions or other alterations likely to
107 hexanucleotide and its variants derived by a single base substitution, particularly A --> G and T -->
108 however, have indicated that, in addition to single-base substitutions, Polkappa generates single-bas
109 Finally, we identified a common, silent, single-base substitution polymorphism in the 5HT3R gene
114 erlying mutational processes for various DNA single base substitution (SBS) signatures and their asso
115 e often decomposed into a combination of the single-base substitution (SBS) "signatures" observed in
116 nal MSH6 is critical for the reduced rate of single-base substitution (SBS) mutations in gene bodies
117 A2 to elicit a cancer-associated, mutational single-base substitution (SBS) signature in nonmalignant
119 ke (APOBEC)-associated mutational signatures single-base substitution (SBS)2 and SBS13 were present i
121 mparison, we characterized 54 signatures for single base substitutions (SBSs), 11 for doublet base su
122 data shows a predominance of UVR-associated single base substitution signature 7 (SBS7) in the major
125 ted indel and doublet base signatures, and a single-base-substitution signature that we termed SBS_H8
127 ows high similarity to the cancer-associated single-base substitution signatures SBS18 and SBS36.
128 ecificity followed by those complementary to single base substitutions, single base deletions and sin
129 ted diseases have been found to be caused by single base substitutions, small insertions or deletions
131 break repair is eightfold more mutagenic for single-base substitutions than was previously understood
132 nscription and growth properties contained a single base substitution that increased the M gene end U
133 activation segment of the kinase domain as a single-base substitution that converts a valine to gluta
134 is most commonly caused by the Z mutation, a single-base substitution that leads to AAT protein misfo
137 embly of 3HT and 5HT complexes is blocked by single-base substitutions that disrupt individual interm
138 an airway epithelial cells and indicate that single base substitution (the silent mutation giving ris
139 pair missense mutations, one frameshift, one single base substitution to a stop codon and one dinucle
140 facilitate the high-fidelity introduction of single-base substitutions via HDR following co-delivery
142 of intron-gain alleles with that for derived single-base substitutions, we also provide evidence that
145 changes in electrophoretic mobilities due to single base substitutions were measured for single-stran
147 m the remains and one living relative, and a single-base substitution when compared with a second rel
148 HD domain mutations that we identified were single-base substitutions, whereas all of the PEST domai
149 the exon-skipping mutations that are due to single base substitutions, which we have identified in 2
150 s analyses reveal several types of clustered single-base substitutions, which include doublet- and mu
152 comparison between two cDNAs, differing by a single base substitution within the 3'-untranslated regi
153 recA operator mutants, we found that several single base substitutions within the 14 bp recA operator
155 nts, enabling isolation of mutant lines with single-base substitutions without antibiotic selection.