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1 ouble-helical structure with a complementary nucleic acid sequence.
2 ific for four-way junction structure and not nucleic acid sequence.
3 ptxA(1) and ptxA(2), showing differences in nucleic acid sequence.
4 ules as a function of either antigenicity or nucleic acid sequence.
5 f velocity and processivity on force and the nucleic acid sequence.
6 Old World arenaviruses that differ by 40% in nucleic acid sequence.
7 but interacts preferentially with a distinct nucleic acid sequence.
8 ithin the cell, helicases process a range of nucleic acid sequences.
9 irions may involve factors other than CP and nucleic acid sequences.
10 r study analogous to the PCR used to amplify nucleic acid sequences.
11 ay yield useful applications in detection of nucleic acid sequences.
12 nd negative inter-positional correlations in nucleic acid sequences.
13 sitive results because they target different nucleic acid sequences.
14 ighly sensitive (1 nM) detection of specific nucleic acid sequences.
15 s (SBS) offers a robust platform to decipher nucleic acid sequences.
16 procedures for the purification of synthetic nucleic acid sequences.
17 er membrane that binds short single-stranded nucleic acid sequences.
18 es cleavage complex formation at 22 specific nucleic acid sequences.
19 irus (VZV), and human herpes virus-6 (HHV-6) nucleic acid sequences.
20 ind, bind, and dissociate from complementary nucleic acid sequences.
21 omplexity to define the distance between two nucleic acid sequences.
22 of genetic information present in unnatural nucleic acid sequences.
23 nd amplification from a large random pool of nucleic acid sequences.
24 ptical sensors for the detection of specific nucleic acid sequences.
25 per is to provide a new tool to classify the nucleic acid sequences.
26 peptides that bind specific single-stranded nucleic acid sequences.
27 nuclease (Cas3) for destruction of invading nucleic-acid sequences.
28 aracterized by using electron microscopy and nucleic acid sequencing.
29 hemical analysis, antimicrobial testing, and nucleic acid sequencing.
30 ropriate genus or genus and species by using nucleic acid sequencing.
31 on amplification products were determined by nucleic acid sequencing.
32 confirmed to be specific by hot blotting and nucleic acid sequencing.
33 and electron microscopy and high-throughput nucleic acid sequencing.
34 nologies such as single-molecule sensing and nucleic-acid sequencing.
36 While the "gold standard" for testing is nucleic acid sequencing, a variety of hybridization assa
38 he program operates by mutagenizing an input nucleic acid sequence according to mutation parameters s
39 n primer-initiated amplification of specific nucleic acid sequences achieve high levels of sensitivit
43 D4 cell counts, plasma HIV-1 RNA levels, and nucleic acid sequence analysis for drug-resistant mutati
54 llects, maintains and presents comprehensive nucleic acid sequence and related information as part of
56 erials whose properties can be controlled by nucleic acid sequence and that can be interrogated in un
58 irect relationship between the genotype of a nucleic acid sequence and the phenotype of its associate
59 nd culture for evidence of pathogen-specific nucleic acid sequences and bacterial growth, respectivel
60 clude broad-range amplification of microbial nucleic acid sequences and comparative or subtractive me
61 eotide mimics that can be used as probes for nucleic acid sequences and could convey the necessary st
62 , simple, and sensitive method for analyzing nucleic acid sequences and may find wide utility in micr
64 erein, a new approach is described, in which nucleic acid sequences and sequence counts are used as t
66 ugh protein nanopores, the discrimination of nucleic acid sequences and the detection of sequence-spe
67 nce alignments, to the discovery of genes in nucleic acid sequences and the interactive annotation of
68 reactions can be signaled intrinsically, by nucleic acid sequences and the RNA polymerase, or extrin
73 roSeq 500 microbial identification system by nucleic acid sequencing and the Mayo Clinic experience w
74 BLASTN (ver. 2.1.3; against the nonredundant nucleic acid sequence) and dbEST databases (both provide
75 cture of each has been deduced from the cDNA nucleic acid sequence, and each has been analyzed by mas
76 e to form stable duplexes with complementary nucleic acid sequences, and efficiently direct RNase H d
77 s where the ratio of amino-acid sequences to nucleic-acid sequences approaches 1; it effectively side
78 n clinical utility, new methods of detecting nucleic acid sequences are being developed in order to r
82 iminary results show that, when coupled with nucleic acid sequence based amplification (NASBA), this
83 olorimetric detection method for identifying nucleic acid sequences based on the distance-dependent o
85 oli as an indicator organism in water, using nucleic acid sequence-based amplification (NASBA) and el
87 early, and late gene expression detected by nucleic acid sequence-based amplification (NASBA) as mar
88 formance characteristics of a new, real-time nucleic acid sequence-based amplification (NASBA) assay
92 irus (HIV) RNA levels were measured with the Nucleic Acid Sequence-Based Amplification (NASBA) assay
93 licor HIV-1 Monitor test was compared to the nucleic acid sequence-based amplification (Nasba) assay
96 c RNA sequences isolated and amplified using nucleic acid sequence-based amplification (NASBA) from E
97 n technique based on 16S rRNA gold nanoprobe-nucleic acid sequence-based amplification (NASBA) in an
98 otein hsp70, followed by amplification using nucleic acid sequence-based amplification (NASBA) method
102 The biosensor is coupled to the isothermal nucleic acid sequence-based amplification (NASBA) techni
105 ification of the mRNA was accomplished using nucleic acid sequence-based amplification (NASBA), an is
106 tion criteria, including PCR, real-time PCR, nucleic acid sequence-based amplification (NASBA), and l
107 rase chain reaction (PCR), real time PCR and nucleic acid sequence-based amplification (NASBA), have
110 MONITOR test and either the Organon Teknika nucleic acid sequence-based amplification (NASBA-QT) ass
112 transcriptase PCR (qRT-PCR) and quantitative nucleic acid sequence-based amplification (QT-NASBA) are
113 ned by microscopy and real-time quantitative nucleic acid sequence-based amplification (QT-NASBA).
118 arriage was determined by Pfs25 quantitative nucleic acid sequence-based amplification assays; infect
120 the brain was documented for most animals by nucleic acid sequence-based amplification or in situ hyb
121 1 QT assay, a highly sensitive test based on nucleic acid sequence-based amplification technology, wa
125 f a new target sequence or when using actual nucleic acid sequence-based amplified RNA sequences.
126 d results were compared to those obtained by nucleic acid sequence-based identification as the refere
129 inds non-specifically to all single-stranded nucleic acid sequences, but in addition is capable of sp
130 TF/TR/CR genes from genome-scale protein and nucleic acid sequences by systematically analyzing Inter
131 on and depends on a 5'-proximal, transcribed nucleic acid sequence called ops that induces transcript
132 olution can be achieved, it is possible that nucleic acid sequences can be determined at rates exceed
135 Generation of complex libraries of defined nucleic acid sequences can greatly aid the functional an
137 deoxynucleotides designed to target specific nucleic acid sequences can interact nonspecifically with
138 t can hybridize specifically with the target nucleic acid sequence, can be coupled to the universal b
140 n nanopores have attracted much interest for nucleic acid sequencing, chemical sensing, and protein f
141 CP27 RGG box is unique in its recognition of nucleic acid sequences compared to other RGG box protein
142 culture and biochemical identification with nucleic acid sequence confirmation of the resistance det
146 ng from a transgene composed of a randomized nucleic acid sequence core flanked by translational star
147 Azyme sequence and a ribonuclease-containing nucleic acid sequence (corresponding to the substrate of
153 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
157 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
158 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
161 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
162 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
163 In addition to maintaining the GenBank(R) nucleic acid sequence database, the National Center for
165 riance models (CMs), and uses them to search nucleic acid sequence databases for homologous RNAs, or
166 correlation analysis to assess covariance of nucleic acid sequencing datasets such as chromatin immun
169 at is capable of locating members of a given nucleic acid sequence family in either local or global s
174 omic next generation sequencing, we detected nucleic acid sequences from 2 novel viruses in the famil
175 for the point-of-care detection of specific nucleic acid sequences from complex body fluids such as
176 metagenomics, the study of uncultured viral nucleic acid sequences from different biomes, relies on
177 is further supported by examination of SV40 nucleic acid sequences from the ori-enhancer and large-T
178 rofluidic chip, which when exposed to target nucleic acid sequences from the test sample, generates f
179 86 min on the chromosome, a region where the nucleic acid sequence has recently been determined.
180 ic trace and mapping it to a position in the nucleic acid sequence has required significant manual in
182 re in conjunction with Northern blotting and nucleic acid sequencing has been used to identify mRNAs
184 e and function into synthetic amino acid and nucleic acid sequences have largely focused on engineeri
185 quadruplex structures formed by guanine-rich nucleic acid sequences have received significant attenti
186 Recent discoveries link the recognition of nucleic acid sequence homology to the targeting of DNA m
190 tyrosine kinase (CADTK), and by peptide and nucleic acid sequencing identified it as a rat homologue
191 e C retrovirus of 8,132 bp with the greatest nucleic acid sequence identity to gibbon ape leukemia vi
193 beacon (MB) assay for detection of specific nucleic acid sequences in a liquid test sample and compa
195 ction of very low concentrations of specific nucleic acid sequences in homogeneous solution based on
196 ure described in this work may also apply to nucleic acid sequences in living systems that separate i
197 gative viruses, we quantified specific viral nucleic acid sequences in mouse trigeminal ganglia durin
198 se in sensitive, multiplex quantification of nucleic acid sequences indicative of environmentally rel
199 e is an increasing recognition that detailed nucleic acid sequence information will be useful and eve
205 apid discrimination of one base mutations in nucleic acid sequences is important in clinical applicat
206 n containing the mutation and, in cases when nucleic acid sequencing is required, significantly narro
207 t and it has been proposed that G-quadruplex nucleic acid sequence motifs may regulate translation as
208 st, favoring scenarios for short, functional nucleic acid sequences near origins; and (c) many pool d
213 on in the SARS-CoV genome, we determined the nucleic acid sequence of the S and N genes directly from
214 SERRS) for detecting the clinically relevant nucleic acid sequences of Chlamydia trachomatis in a bea
216 used polymerase chain reaction to search for nucleic acid sequences of several viruses in DNA and RNA
217 e hybrid primers were synthesized to contain nucleic acid sequences of the Chlamydia pneumoniae 16S r
219 Expression of AD7c-NTP was confirmed by nucleic acid sequencing of reverse transcriptase PCR pro
220 Molecular characterization was performed by nucleic acid sequencing of the small subunit rRNA gene a
221 mplates without requiring prior knowledge of nucleic acid sequence or cloned or characterized probes.
222 ng and alignment-free sequence comparison of nucleic-acid sequences; our implementation of this algor
225 amplification and quantification of specific nucleic acid sequences plays a major role in medical and
226 and differences in DNA cleavage patterns and nucleic acid sequence preferences were also observed bet
228 bably no large, rigidly conserved cis-acting nucleic acid sequences required for retrotransposition w
229 computerized data base search of protein and nucleic acid sequences revealed strong homology to the C
232 Other Launch pages provide access to (1) nucleic acid sequence searches, (2) multiple and pair-wi
234 s from a nasal lavage contained an identical nucleic acid sequence similar to that in the building ai
236 diverse cargoes including drugs, antibodies, nucleic acid sequences, small molecules, and inorganic p
237 have developed a simple method for exploring nucleic acid sequence space by nonhomologous random reco
238 vised a combinatorial strategy for accessing nucleic acid sequence space corresponding to proteins co
239 The ability to maximize the use of available nucleic acid sequence space would have been crucial duri
242 sequences and maximum likelihood analysis of nucleic acid sequences support the monophyly of the cyan
243 ally occurring microbial assemblages combine nucleic-acid-sequencing techniques with molecular-phylog
244 aine-detection template by the addition of a nucleic acid sequence that enables the autonomous second
245 perons of Escherichia coli requires a unique nucleic acid sequence that serves as a signal for modifi
246 ion of miR-30a-5p in the mPFC using a Locked Nucleic Acid sequence that targets miR-30a-5p restored B
247 imultaneous quantification of multiple short nucleic acid sequences that has a wide range of applicat
248 wo mechanisms is derived from studies on the nucleic acid sequences that influence their efficiency.
250 ment of our understanding of guanine(G)-rich nucleic acids sequences that form four-stranded structur
251 computing is to design biomolecules, such as nucleic acid sequences, that can be used to perform comp
252 f the protein binding at any position in the nucleic acid sequence, the impact of the protein on nucl
253 nce alignments, to the discovery of genes in nucleic acid sequences, the identification--directly fro
254 e attached to arbitrary nucleotides within a nucleic acid sequence, they may provide a means to "scan
255 akes advantage of intrinsically unstructured nucleic acid sequences to achieve exceptionally fast rat
256 rlying software that allows both protein and nucleic acid sequences to be searched against InterPro's
259 e describe here a new approach for analyzing nucleic acid sequences using a structure-specific endonu
261 the V(H) genes express evidence of increased nucleic acid sequence variation when compared to current
262 or the specific detection of single-stranded nucleic acid sequences via sandwich hybridization of spe
264 s revealed that two of the four isolates had nucleic acid sequences which were closely related to the
265 ished sequence for the vanB gene and two had nucleic acid sequences which were closely related to the
266 k copolymer brushes were functionalized with nucleic acid sequences, which allowed the polymers to co
267 t analysis, single-nucleotide polymorphisms, nucleic acid sequencing, whole genome sequencing, variab
268 erent RNA higher-order structures from their nucleic acid sequences will provide insight into their f
269 ds that can rapidly and specifically analyze nucleic acid sequences will revolutionize the diagnosis
272 thetic oligonucleotides, altering 24% of the nucleic acid sequence without changing the amino acid se
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