Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
about
Misframed ubiquitin and impaired protein quality control: an early event in Alzheimer's diseaseA-to-I RNA Editing: Current Knowledge Sources and Computational Approaches with Special Emphasis on Non-Coding RNA MoleculesRNA editome in rhesus macaque shaped by purifying selectionReference-free population genomics from next-generation transcriptome data and the vertebrate-invertebrate gapAPOBEC3A is implicated in a novel class of G-to-A mRNA editing in WT1 transcriptsA disrupted RNA editing balance mediated by ADARs (Adenosine DeAminases that act on RNA) in human hepatocellular carcinomaChanging genetic paradigms: creating next-generation genetic databases as tools to understand the emerging complexities of genotype/phenotype relationshipsRNA Sequencing and AnalysisRASER: reads aligner for SNPs and editing sites of RNAKnowledge in the Investigation of A-to-I RNA Editing SignalsA genome-wide map of hyper-edited RNA reveals numerous new sitesMammalian conserved ADAR targets comprise only a small fragment of the human editosomeRADAR: a rigorously annotated database of A-to-I RNA editingHuman Transcriptome and Chromatin Modifications: An ENCODE PerspectiveSequencing of the needle transcriptome from Norway spruce (Picea abies Karst L.) reveals lower substitution rates, but similar selective constraints in gymnosperms and angiospermsDarned in 2013: inclusion of model organisms and linking with WikipediaThe human transcriptome: an unfinished storyRNA editing in the human ENCODE RNA-seq data.De novo transcriptomic analyses for non-model organisms: an evaluation of methods across a multi-species data set.New insights from existing sequence data: generating breakthroughs without a pipetteReliable identification of genomic variants from RNA-seq dataGenome-wide analysis of differential RNA editing in epilepsy.DREAM: a webserver for the identification of editing sites in mature miRNAs using deep sequencing data.Distinguishing low frequency mutations from RT-PCR and sequence errors in viral deep sequencing data.QoRTs: a comprehensive toolset for quality control and data processing of RNA-Seq experimentsPracticability of detecting somatic point mutation from RNA high throughput sequencing dataNoncoding RNA: Current Deep Sequencing Data Analysis Approaches and Challenges.Deciphering the functions and regulation of brain-enriched A-to-I RNA editingEvidence for transcriptome-wide RNA editing among Sus scrofa PRE-1 SINE elements.Integrated RNA and DNA sequencing improves mutation detection in low purity tumors.Mapping recently identified nucleotide variants in the genome and transcriptome.Does the central dogma still stand?Systematic investigation of insertional and deletional RNA-DNA differences in the human transcriptomeIdentifying RNA editing sites using RNA sequencing data alone.RNA-Seq data: a goldmine for organelle research.Determination of dosage compensation of the mammalian X chromosome by RNA-seq is dependent on analytical approachHigh-resolution sequencing and modeling identifies distinct dynamic RNA regulatory strategiesWhole-exome sequencing reveals a rapid change in the frequency of rare functional variants in a founding population of humans.Consistent errors in first strand cDNA due to random hexamer mispriming.Genome sequence-independent identification of RNA editing sites.
P2860
Q26782999-906D4F29-BCE8-4385-B905-EEA21A667379Q27003006-AB1B5B8F-ECE7-4DE4-9706-018477A16095Q27316422-33128710-8BB5-4729-89CE-45544EE8D846Q27323073-0ED2D478-DA87-46F1-9471-28994FC9B8D5Q28259425-C135A2FA-3244-44C4-A3CD-2465B1A74691Q28292754-166E6EE0-B7CB-4548-90EB-06130AAE3A12Q28387022-0DDA1BE4-2150-4862-B847-8FF6931846AAQ28602964-E509E23D-20DF-4687-9392-942D25263AB4Q28603473-25C2BCD1-5116-4977-AFB7-C34FCB3D5FC6Q28649490-CA27AD89-0F30-48DC-8FFD-0304B71F148CQ28652190-5A086949-F707-4AFB-A504-3DF6BB8DE82CQ28658383-1004EBBA-2929-410F-BCD7-A4757E251DFBQ28660721-3BC47815-04E7-4D54-AAAB-04FA7FFE1694Q28679909-B4BA8BAB-82D2-407C-9123-A81B5D9040C6Q28710006-EC1197CB-A049-43C1-BD7C-FEB2D2F7D3E9Q28710195-73A116DB-8DE3-4A36-9A05-0A07BBB11675Q28728363-06A66167-84BA-4B92-8EFC-FC2ABD2729E7Q30562419-02F58DB7-8D5B-4925-B5F3-AEC946976E8EQ30589178-F4D1265F-E852-4815-950C-4D8E014EBB29Q30593939-1CF5262A-575B-4BC1-9AD5-FB9DC084E718Q30670530-C18C8B49-CC96-4114-BEB3-74AE8138B0B5Q30840988-5D73A587-E36F-4822-B689-A1A31ECC670EQ30923034-C9995535-C0C5-4E8C-9848-7731747CC06AQ30935585-9A9D5A2B-B6FF-44FC-A4AA-0FAE86503DA9Q30981345-C52B7CB8-DF80-40C7-8296-956BA366C40BQ31068807-B43D103C-D201-4764-901D-6CAD74F46133Q31121214-EB7CBBD7-8F0C-4068-9318-203B4AB48AF8Q33588197-1B174D3F-6971-4BA0-A895-FC511C9A6860Q33652674-B74D8DC1-F34D-4B00-BF60-7E8C6ACD278DQ33983489-8282D210-B178-448E-A241-DCD43FDB1A5BQ34310659-2AA0C195-3CB0-4422-99DF-0F0129ACEB76Q34389862-B0F57E42-4C3D-42D8-8E9A-61260ABBC194Q34475758-4BA346BB-C534-4F3A-BEE4-340F3DBBA547Q34537341-CC6D9E71-6979-4F12-BB1F-68D81230E310Q34555171-DFF32110-9C99-4C57-BAF2-CAE6E0F64625Q34622555-9589BBEC-E222-496C-8818-B363C24532F5Q34747008-9EE190F8-9C7A-47CC-B647-0CD9D7AA5530Q35004530-EF987A78-B2F1-421F-9E76-CCD44ED2E4CEQ35081199-2B52D000-D893-48B9-A787-203D54FF3CB3Q35243317-C8EF6E54-6316-4682-B7A7-05BA7F031B6B
P2860
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@en
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@nl
type
label
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@en
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@nl
prefLabel
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@en
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@nl
P2093
P2860
P356
P1433
P1476
Comment on "Widespread RNA and DNA sequence differences in the human transcriptome".
@en
P2093
Jin Billy Li
Meng How Tan
Robert Piskol
P2860
P304
1302; author reply 1302
P356
10.1126/SCIENCE.1210624
P407
P577
2012-03-01T00:00:00Z