about
DNA sequences at a glanceExome sequencing identifies DLG1 as a novel gene for potential susceptibility to Crohn's disease in a Chinese family studySystematic pharmacogenomics analysis of a Malay whole genome: proof of concept for personalized medicineU87MG decoded: the genomic sequence of a cytogenetically aberrant human cancer cell lineUltrafast and memory-efficient alignment of short DNA sequences to the human genomeTowards a comprehensive structural variation map of an individual human genomeHuman genetics and genomics a decade after the release of the draft sequence of the human genomeState of the art de novo assembly of human genomes from massively parallel sequencing dataSequencing and analysis of a South Asian-Indian personal genomeDe novo assembly and characterization of root transcriptome using Illumina paired-end sequencing and development of cSSR markers in sweet potato (Ipomoea batatas)Fast identification and removal of sequence contamination from genomic and metagenomic datasetsSHRiMP: accurate mapping of short color-space readsAncient human genome sequence of an extinct Palaeo-EskimoHuman genome sequencing in health and diseaseRecent de novo origin of human protein-coding genesPersonal genome sequencing: current approaches and challengesGenotype to phenotype: a complex problemGenetic diagnosis by whole exome capture and massively parallel DNA sequencingMinke whale genome and aquatic adaptation in cetaceansThe genome of Mesobuthus martensii reveals a unique adaptation model of arthropodsComplete Khoisan and Bantu genomes from southern Africa.The sequence and de novo assembly of the giant panda genomePersonalized medicine: hope or hype?Exome sequencing identifies truncating mutations in PRRT2 that cause paroxysmal kinesigenic dyskinesiaThe human Major Histocompatibility Complex as a paradigm in genomics researchAccurate and comprehensive sequencing of personal genomesGenome analysis of the domestic dog (Korean Jindo) by massively parallel sequencingTIARA: a database for accurate analysis of multiple personal genomes based on cross-technologyTargeted capture and massively parallel sequencing of 12 human exomesA map of human genome variation from population-scale sequencingHapZipper: sharing HapMap populations just got easierBiases in Illumina transcriptome sequencing caused by random hexamer primingNucleotide-resolution analysis of structural variants using BreakSeq and a breakpoint librarySequencing technologies and genome sequencingThe 1001 genomes project for Arabidopsis thalianaSequence and structural variation in a human genome uncovered by short-read, massively parallel ligation sequencing using two-base encodingThe first Korean genome sequence and analysis: full genome sequencing for a socio-ethnic groupMassively parallel sequencing: the next big thing in genetic medicineDe novo assembly of human genomes with massively parallel short read sequencingChallenges, Solutions, and Quality Metrics of Personal Genome Assembly in Advancing Precision Medicine
P2860
Q21090689-F950D64A-4F9B-47B7-A9E4-AA5253A213CEQ21132010-C715C57F-5584-4A89-B266-39232DAD029BQ21132550-4B69CEEF-8476-4961-AFA1-A568C810A1C8Q21144984-0C71CA0D-ED6F-418A-8C28-1B7BB1F83428Q21183894-DB9D0232-4719-4D2B-91DF-1F058351766DQ21184038-B845490E-ED83-4070-83CE-855DC8985824Q21245451-A88911E4-7C58-4564-9467-CF81B771FDD3Q21245455-7B9A0E4D-048C-4ABC-90C1-7A189D41B1E2Q21266697-82811762-6F27-4F77-9281-28014E6B04B6Q21267203-36692575-1075-4E6F-AA5E-D08DA54FE192Q21560848-6EB33AE9-011A-4268-97F4-C539BFAF2DB1Q21563490-A35082CF-08A3-47CD-BD68-E8E94F2B187EQ21972850-E08131A1-67E0-4E9E-8687-783088EA52C0Q22065433-5E8CD5C8-FAB5-4275-AB3B-97A1751C6733Q22065774-EC3D9CEB-CED2-4F06-B304-080CFFCF7782Q22065782-E2DC030B-729B-4B9F-9CF8-99853EF713ACQ22065893-58940C91-6AB9-4CF4-AC89-84D028D045E9Q22066282-35FDD2FE-9B8F-47DE-8D52-85308528CE3EQ22122070-F27AB8F0-1193-4A59-9C67-037D1D97D323Q22122096-18838057-A110-4A04-91F7-46419FB8EAA0Q22122197-4BFF9DE6-7DED-40CD-96E4-4F0180F757B9Q22122211-6FBDA859-47AE-4828-BBC1-02D7824F40DEQ24289193-4B62A00F-7A36-460C-9615-803A56867A2EQ24297970-1984F36B-4E1E-479C-AF2D-CFB7B44B8E3CQ24596895-61A757A3-3615-4BC2-9FDA-798FC60FF2ACQ24604867-C0761AAD-AFB9-44E2-A597-210BE03714CAQ24606665-4658A903-598F-42BA-AB44-88B859171D11Q24613521-2FBDC101-E689-4916-871C-E03ED6C0DA98Q24615381-C84B28B8-82A6-43BF-8E7A-F9CA9ED8E0E1Q24617794-9237E11D-23EE-44B9-BEBE-F6ED8233F015Q24619679-B024C249-563E-4F99-A3AB-23F80FBABDE4Q24620975-5F8D5EE2-C58B-4B63-A46C-452C1BEDA9BFQ24633716-2272BC93-4505-499C-AF42-6E0D26169076Q24635185-DB91EAA1-9FB3-44C1-BFD7-8ED56B51CA48Q24642186-FE24C606-7DFD-4BE1-8DF0-FD86DF96AF2DQ24647100-31DFA60A-1C65-49D5-AD74-014B0CBFF6E4Q24647197-801D7D19-5AC0-4778-97B9-3229DD9DFC96Q24653648-9E14BA42-204F-4608-B37A-15892D93C67FQ24655711-28EB0BC9-A5DB-45E8-B4FE-9D9D1E9E857BQ26750544-1A5B032E-F86F-4FA8-8FCF-C8358B142048
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
The diploid genome sequence of an Asian individual
@ast
The diploid genome sequence of an Asian individual
@en
The diploid genome sequence of an Asian individual
@en-gb
The diploid genome sequence of an Asian individual
@nl
type
label
The diploid genome sequence of an Asian individual
@ast
The diploid genome sequence of an Asian individual
@en
The diploid genome sequence of an Asian individual
@en-gb
The diploid genome sequence of an Asian individual
@nl
prefLabel
The diploid genome sequence of an Asian individual
@ast
The diploid genome sequence of an Asian individual
@en
The diploid genome sequence of an Asian individual
@en-gb
The diploid genome sequence of an Asian individual
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
The diploid genome sequence of an Asian individual
@en
P2093
Binxiao Feng
Dongyuan Liu
Fang Liang
P2860
P2888
P3181
P356
10.1038/NATURE07484
P407
P50
P577
2008-11-06T00:00:00Z
P5875
P6179
1016969839