about
Intragenomic polymorphisms among high-copy loci: a genus-wide study of nuclear ribosomal DNA in Asclepias (Apocynaceae)RNA-guided human genome engineering via Cas9Cpf1 is a single RNA-guided endonuclease of a class 2 CRISPR-Cas systemFever as an important resource for infectious diseases researchSparse RNA folding revisited: space-efficient minimum free energy structure predictionRNA motif discovery: a computational overviewFitness Landscapes of Functional RNAsComputational biology of RNA interactionsComputing Molecular Devices in L.major through Transcriptome Analysis: Structured Simulation ApproachDynamical features of the Plasmodium falciparum ribosome during translation.Molecular evolution of Zika virus as it crossed the Pacific to the AmericasApplications of High-Throughput Sequencing for In Vitro Selection and Characterization of AptamersTools for Sequence-Based miRNA Target Prediction: What to Choose?Emerging applications of read profiles towards the functional annotation of the genomeThe dynamic N(1)-methyladenosine methylome in eukaryotic messenger RNACopraRNA and IntaRNA: predicting small RNA targets, networks and interaction domainsWidespread occurrence of organelle genome-encoded 5S rRNAs including permuted moleculesCatalysts from synthetic genetic polymersMBSTAR: multiple instance learning for predicting specific functional binding sites in microRNA targetsCrumple: a method for complete enumeration of all possible pseudoknot-free RNA secondary structuresA parallel implementation of the Wuchty algorithm with additional experimental filters to more thoroughly explore RNA conformational spaceMicroRNA-like small RNAs prediction in the development of Antrodia cinnamomeaModel-Free RNA Sequence and Structure Alignment Informed by SHAPE Probing Reveals a Conserved Alternate Secondary Structure for 16S rRNAStructure-Based Alignment and Consensus Secondary Structures for Three HIV-Related RNA GenomesIn silico ribozyme evolution in a metabolically coupled RNA populationRich RNA Structure Landscapes Revealed by Mutate-and-Map AnalysisProbing Xist RNA Structure in Cells Using Targeted Structure-SeqPOSTAR: a platform for exploring post-transcriptional regulation coordinated by RNA-binding proteinsReconstruction of ancestral RNA sequences under multiple structural constraintsAvoidance of stochastic RNA interactions can be harnessed to control protein expression levels in bacteria and archaeaGenome-wide gene expression and RNA half-life measurements allow predictions of regulation and metabolic behavior in Methanosarcina acetivoransSelf-assembly Controls Self-cleavage of HHR from ASBVd (-): a Combined SANS and Modeling StudyComparative Large-Scale Mitogenomics Evidences Clade-Specific Evolutionary Trends in Mitochondrial DNAs of BivalviaRetrozymes are a unique family of non-autonomous retrotransposons with hammerhead ribozymes that propagate in plants through circular RNAsLokiarchaeota Marks the Transition between the Archaeal and Eukaryotic Selenocysteine Encoding SystemsFinding microRNA targets in plants: current status and perspectivesRNAlien - Unsupervised RNA family model constructionThe spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisonsAlgebraic Dynamic Programming over general data structuresTunable protein synthesis by transcript isoforms in human cells
P2860
Q21128700-1D1A45C1-9C61-40DC-B77A-D33299D115ECQ24598394-52A25154-DC27-4DAB-927F-3392E7309D20Q24669821-B4B455A3-1B67-4D46-91FE-6FDE4BE72CD7Q26748091-88103A44-1D4E-4874-A387-7D269CF89E2DQ26750652-C751F459-4907-4697-9944-3C604C9C8FE5Q26785324-13FFF481-440B-42D5-A5B9-829955BE5A1CQ26797312-FD4E3700-844C-4805-AB48-41C1A87F3BB0Q26852710-B76E1297-8988-4AB9-90BB-92D1B6439F90Q27322625-3419F61B-C0D1-4685-A380-0413B388DCD5Q27324220-9956F0C0-BD53-4DF6-B8A6-68E23A9F6B64Q28008670-EBB3DA3E-C5FD-4426-A02D-274450C5DE71Q28071419-1AEF9459-04CB-467B-A955-548B166AB5F3Q28075865-11221D72-04DE-47E9-BFBC-396D7F30E809Q28084490-29496F57-A352-4CAD-831B-0004AE57588DQ28116053-76A1DE3D-A6A5-4803-AA46-608A1293CDB0Q28240309-DE433AEA-E6CE-4A87-8484-21AF57114D55Q28252265-A51E87FC-F774-42EE-B7EB-7642335CAE8CQ28253153-5EF45B61-32A5-44E8-B592-CB529FD59529Q28255832-25BF9747-54D5-4C22-AA92-6A0628577A3DQ28484610-74A39F55-A0A7-4447-922F-92CAC932EDD2Q28543538-046817A9-0CAC-42F8-91F7-C174C7ECE847Q28546041-1575DF79-37E8-457E-9FEF-F683BBF807C3Q28547350-240E4470-1B49-4243-B1B1-5CD774B33F5FQ28547355-827C2FBC-E641-473D-B843-D163977A823CQ28547503-477CF655-B388-4946-AEB1-56409364EEB5Q28550945-9834908F-3A66-42C5-99C3-74E3C51503B1Q28551427-78AEE2B3-657C-41DC-BC82-065AA92229ECQ28584439-79660D5B-E926-420B-994D-C32CD56871F4Q28593075-9F2C1B31-736B-48E6-B332-C8F625509728Q28595573-3D4DB191-5931-46B1-9F54-6A9C0EC0F317Q28595650-0D9E4784-EDEC-4551-B75F-4246ED786E5BQ28595889-135F442E-57E1-4F27-BC18-D87697B98180Q28596339-91DD12EE-0D1C-47B6-84DC-1824D827A3D5Q28597482-C83C24F0-BD65-4400-9EC2-3F8D64B536FCQ28597716-E8FB752D-39CA-486A-887A-FB9F47407CEDQ28597863-4D3F7A70-C2FB-4ED8-98E3-BBE2A0223CB4Q28598251-04BC9A94-5978-4A65-B530-0FFB08225025Q28601481-F9455B9B-2C8E-4779-97B9-C9845727358EQ28603763-D128706A-A75C-4757-9E45-1E90D579E219Q28603873-72C6C636-4B2F-4002-B073-8ECE9C505049
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականին հրատարակուած գիտական յօդուած
@hyw
2011 թվականին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
ViennaRNA Package 2.0
@ast
ViennaRNA Package 2.0
@en
ViennaRNA Package 2.0
@en-gb
ViennaRNA Package 2.0
@nl
type
label
ViennaRNA Package 2.0
@ast
ViennaRNA Package 2.0
@en
ViennaRNA Package 2.0
@en-gb
ViennaRNA Package 2.0
@nl
prefLabel
ViennaRNA Package 2.0
@ast
ViennaRNA Package 2.0
@en
ViennaRNA Package 2.0
@en-gb
ViennaRNA Package 2.0
@nl
P2860
P50
P921
P3181
P356
P1476
ViennaRNA Package 2.0
@en
P2093
Stephan H Bernhart
P2860
P2888
P3181
P356
10.1186/1748-7188-6-26
P407
P50
P577
2011-01-01T00:00:00Z
P5875
P6179
1046184001