Unbiased whole-genome amplification directly from clinical samples
about
Current challenges in the bioinformatics of single cell genomics.Single virus genomics: a new tool for virus discoveryWhole genome amplification and de novo assembly of single bacterial cells.Genetic structure of chimpanzee populationsSpecific and complete human genome amplification with improved yield achieved by phi29 DNA polymerase and a novel primer at elevated temperatureReal-time PCR detection of human herpesvirus 1-5 in patients lacking clinical signs of a viral CNS infectionMultiple displacement amplification for complex mixtures of DNA fragmentsCRISPR/Cas9-mediated gene editing in human tripronuclear zygotesEfficient de novo assembly of single-cell bacterial genomes from short-read data setsGenomic sequencing of single microbial cells from environmental samplesAmplification of multiple genomic loci from single cells isolated by laser micro-dissection of tissuesAssessment of whole genome amplification-induced bias through high-throughput, massively parallel whole genome sequencingPerformance of high-throughput DNA quantification methodsInvestigating the utility of combining phi29 whole genome amplification and highly multiplexed single nucleotide polymorphism BeadArray genotypingHigh accuracy genotyping directly from genomic DNA using a rolling circle amplification based assayEvaluation of multiple displacement amplification in a 5 cM STR genome-wide scan.Somatic mosaicism in the human genomeIsothermal amplification methods for the detection of nucleic acids in microfluidic devicesAdvancements toward a systems level understanding of the human oral microbiomeParallel single cancer cell whole genome amplification using button-valve assisted mixing in nanoliter chambersLarge fragment Bst DNA polymerase for whole genome amplification of DNA from formalin-fixed paraffin-embedded tissuesNanoliter reactors improve multiple displacement amplification of genomes from single cellsSingle cell genome amplification accelerates identification of the apratoxin biosynthetic pathway from a complex microbial assemblageArtificial polyploidy improves bacterial single cell genome recoveryFinding the needles in the metagenome haystackMicrofluidics for genome-wide studies involving next generation sequencing.Genetic and environmental control of fruit maturation, dry matter and firmness in apple (Malus × domestica Borkh.).Mosaic copy number variation in human neuronsSequencing viral genomes from a single isolated plaque.Multiple displacement amplification as a pre-polymerase chain reaction (pre-PCR) to process difficult to amplify samples and low copy number sequences from natural environments.Whole genome amplification of DNA from laser capture-microdissected tissue for high-throughput single nucleotide polymorphism and short tandem repeat genotypingGenomic profiling by DNA amplification of laser capture microdissected tissues and array CGHDiversity of oxygenase genes from methane- and ammonia-oxidizing bacteria in the Eastern Snake River Plain aquifer.Amplification of whole tumor genomes and gene-by-gene mapping of genomic aberrations from limited sources of fresh-frozen and paraffin-embedded DNA.Frequency of common HFE variants in the Saudi population: a high throughput molecular beacon-based study.Whole-metagenome amplification of a microbial community associated with scleractinian coral by multiple displacement amplification using phi29 polymerase.Mechanism of chimera formation during the Multiple Displacement Amplification reaction.Detection of novel amplicons in prostate cancer by comprehensive genomic profiling of prostate cancer cell lines using oligonucleotide-based arrayCGH.Sequence specific detection of DNA using nicking endonuclease signal amplification (NESA).A high-density admixture scan in 1,670 African Americans with hypertension.
P2860
Q21129298-E6AE0554-7826-450F-88D4-C648A800B9A3Q21135519-76CFFF2A-E8D3-460F-995B-BEBF06A0BFB7Q21142771-528CDE44-64A1-40F4-9150-BB0C4466DF18Q21145232-227EF184-B15A-4E04-8341-A8B1127A19DFQ21202149-29306049-4FA2-456C-848A-C05337978D09Q21261832-94D41AC1-98A6-4CB7-AA80-724ECA0105B8Q21263169-900E8705-AFF1-4FE3-A322-C548E582D392Q22337358-5A88E379-90FB-4D52-A8D8-6911DE428678Q24629862-D86BCD0C-0E3B-4B75-B21F-EDDC4C9D85B7Q24631339-F7021EC0-807B-4FD6-B06A-E317BAD0760EQ24655179-8CB9FCF9-D109-42C7-9CE9-E6940572CFC9Q24676617-4DA5E32B-A710-4F89-9B30-F6FA6A0E6A35Q24796958-F7C7E6A0-4879-4945-9319-69E38C18D1D1Q24802893-8F6A06DE-BD23-43CF-AE96-5DF17B2AA3BCQ24805368-28A46D2C-1FBB-4E3F-8AB2-38BE5635269EQ24816052-9150E9E2-BEDC-4C1F-8A2D-B64D08F47016Q26823199-BA715A14-0287-4B9A-BE18-2632DA3A67C4Q26825157-B3CC93E0-CEA8-465B-8509-FDDCFB96DF2CQ27022745-999453E6-E22A-49A4-B0E3-62A66AA458EAQ27346403-82069907-766A-4876-A006-30977A63D5C4Q27496613-B3231EE1-0203-44B3-BAAF-A7419CD8D7D4Q28469305-708905C7-D31E-4A58-B010-3965760C934BQ28477732-2BFD9C79-15E1-4ACD-9A24-CDB10D10AAB3Q28483890-220119EB-18C3-4F6A-883B-7B7D3916F582Q28757389-F9D43812-1A58-4A25-9351-13947058CF3FQ30359014-E44E89F9-D205-437F-8607-A7D71CFDE7F2Q30400535-10611992-68B1-48C6-B749-0CC1D49742E7Q30409886-CE6F8B20-E3FB-4A59-86DE-7785F1B41B93Q30431535-135ABF8C-CB4C-4BBB-A5A1-5F7A8B888394Q30785410-817E9D22-B06A-435A-9E79-4FA36956BFF8Q31034423-98CDB192-AF37-437E-A8A1-B69AE6083CBAQ33208489-7C67A137-1AEC-4834-94BF-9172F5E5BC78Q33213767-90E5FA3E-0F72-4251-902D-DBE168498184Q33214484-2C77D688-A7F3-4350-8DE9-9339D2DC269AQ33242100-A6BD9C5D-AA7A-4B9A-851B-EDFB2A8BEF19Q33248704-2BBC7A16-7A7A-4254-9EA3-B87BF3CEFD24Q33281958-4947914E-53A0-4505-9257-EFD9EE97B38CQ33294835-21F40961-090B-4CF7-B016-D0C8ADA0F4DEQ33298014-19ADA539-4443-4D73-A930-B09B07546007Q33306108-423A037C-0A9A-4AA3-A6BC-4DDCA4FBA8C2
P2860
Unbiased whole-genome amplification directly from clinical samples
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Unbiased whole-genome amplification directly from clinical samples
@en
type
label
Unbiased whole-genome amplification directly from clinical samples
@en
prefLabel
Unbiased whole-genome amplification directly from clinical samples
@en
P2093
P2860
P50
P356
P1433
P1476
Unbiased whole-genome amplification directly from clinical samples
@en
P2093
A Fawad Faruqi
Michael Egholm
Roger S Lasken
Seiyu Hosono
Xiaohong Wu
Zhenyu Sun
P2860
P304
P356
10.1101/GR.816903
P577
2003-04-14T00:00:00Z