Optimal two-stage genotyping designs for genome-wide association scans. - Wikidata - awgldk - TriplyDB

Optimal two-stage genotyping designs for genome-wide association scans.

Optimal two-stage genotyping designs for genome-wide association scans.

http://www.wikidata.org/entity/Q46304991

about

Two-phase and family-based designs for next-generation sequencing studies A genome-wide association study identifies alleles in FGFR2 associated with risk of sporadic postmenopausal breast cancer Association of CASP9, CASP10 gene polymorphisms and tea drinking with colorectal cancer risk in the Han Chinese population A genome-wide association study of breast and prostate cancer in the NHLBI's Framingham Heart Study Joint analysis for genome-wide association studies in family-based designs.Two-stage association tests for genome-wide association studies based on family data with arbitrary family structure.Incorporation of genetic model parameters for cost-effective designs of genetic association studies using DNA pooling.Framingham Heart Study 100K project: genome-wide associations for cardiovascular disease outcomes.A two-step multiple-marker strategy for genome-wide association studies Marker selection for whole-genome association studies with two-stage designs using dense single-nucleotide polymorphisms.One-stage design is empirically more powerful than two-stage design for family-based genome-wide association studies.Genome-wide association tests by two-stage approaches with unified analysis of families and unrelated individuals.Calibrating the performance of SNP arrays for whole-genome association studies.Incorporating multiple-marker information to detect risk loci for rheumatoid arthritis.Variable selection method for quantitative trait analysis based on parallel genetic algorithm.Design of association studies with pooled or un-pooled next-generation sequencing data.Using public control genotype data to increase power and decrease cost of case-control genetic association studies.Optimal two-stage design for case-control association analysis incorporating genotyping errors.Robust joint analysis allowing for model uncertainty in two-stage genetic association studies Optimal DNA pooling-based two-stage designs in case-control association studies.Gene--environment-wide association studies: emerging approaches Genome-Wide Significance Levels and Weighted Hypothesis Testing.Genetic susceptibility to peripheral arterial disease: a dark corner in vascular biology.Capitalizing on admixture in genome-wide association studies: a two-stage testing procedure and application to height in African-Americans Two-stage family-based designs for sequencing studies.Leveraging the HapMap correlation structure in association studies.Genome-Wide Association Study for Autism Spectrum Disorder in Taiwanese Han Population.Strategies for identifying modifier genes in cystic fibrosis On the use of general control samples for genome-wide association studies: genetic matching highlights causal variants.Non-replication and inconsistency in the genome-wide association setting.Successful design and conduct of genome-wide association studies.BCL2 genetic variants are associated with acute kidney injury in septic shock*Probability that a two-stage genome-wide association study will detect a disease-associated snp and implications for multistage designs.Multistage designs in the genomic era: providing balance in complex disease studies Identifying Potential Regions of Copy Number Variation for Bipolar Disorder.Genetic epidemiology in aging research.The cost effectiveness of duplicate genotyping for testing genetic association.Search for cancer risk factors with microarray-based genome-wide association studies.Including additional controls from public databases improves the power of a genome-wide association study.Accommodating linkage disequilibrium in genetic-association analyses via ridge regression.

P2860

Q26828744-981D2974-3C95-45E7-BE31-F4E3CCCC24C2 Q28303909-A74DCE2E-D060-468C-A1F5-FB30B390DCA7 Q28392926-D9E8A8A5-76FD-4567-B78C-0A7E4E6A40F8 Q28943278-168F42C3-BDE8-43D6-A5FF-BEC645EF807E Q31026573-D988166C-7F10-4D6C-B422-FBC8C6B3573A Q31119724-A6F28B0B-3EAA-4E61-8C0F-CA7C2B035FE8 Q33290992-54B1DC74-C3F4-40F5-BEF6-41B782DE9959 Q33300816-F3499582-5645-473D-A585-21A4F5195153 Q33332826-D7D25184-DC47-4D2E-9A5B-5708B2487BAA Q33332829-5480EF90-048E-4288-826E-935CD13E2DBA Q33332834-A5952598-A8DB-4A6C-91FA-DDFAFD7ED765 Q33332845-37A2F46A-8241-4E23-8B85-62653D7DD2F0 Q33347139-5C39CDBD-78A4-4ABB-A1F6-9A8D97ACB170 Q33519285-3825FAD5-CA0C-441A-8275-A9B774B810AD Q33583545-F462EEFC-0556-4450-86B2-84EBE4877DD6 Q33605927-809B2A36-84A6-4002-B1B1-C1582A348F38 Q33686060-4ADDAFB7-269D-4EF2-9FDF-461F14CF4F7B Q33720521-7C0F44B3-CCD9-4467-B751-68D8254B724E Q33787548-DB7C3EA7-B708-4CED-B5FA-9AB41A4D83D7 Q33846849-58624741-A99B-437C-8DAA-A32F8EB8C195 Q33937986-D5BFDD66-AA2B-4269-AB26-FFE35C2BF66A Q34061938-D21A7C12-4740-4833-9602-AC4409156EAF Q35064459-B3A4CFCD-368B-4B21-B823-B27B41D97422 Q35095358-AB2DC5E5-92BE-4491-9645-48518765203E Q35527971-91DA62F6-EA93-49CE-9904-0B2493B0567B Q35752524-8980BA6C-0570-445B-B511-FD0D2503804A Q35784947-0199FAD1-E79B-4519-8C01-715F59E2A95B Q36698814-FA345236-BBE4-483C-B7D1-ED07032F4A9A Q36718825-228AA6FB-190B-4C52-A39E-A1D733D47886 Q36841272-857166CF-EADD-4B12-A28A-80568A485951 Q36863254-B27466A7-3231-4444-8588-9061A337B2B1 Q36948893-95582319-F6FC-4BE3-A741-F5361F554B52 Q36951986-8AB91474-6110-4037-9911-DE3EE281ED6E Q37018793-2D9C9DF0-4F61-4932-9902-D7B4174B5008 Q37214204-9B58FF20-65EE-4579-A5FB-5F048BD63863 Q37214302-8A476088-E928-4F95-AB75-89C757E12BD6 Q37337266-33397185-B771-4F3E-836F-05151E569EDC Q37706517-2DA8E071-CEF5-4043-A637-301CE4822BDC Q38375854-0399937E-30FD-4123-85F8-A409631C3F55 Q39142014-48CC7E1B-5D83-4FB8-9EBD-A91735695672

P2860

Optimal two-stage genotyping designs for genome-wide association scans.

http://www.wikidata.org/entity/Q46304991

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年学术文章

@wuu

2006年学术文章

@zh-cn

2006年学术文章

@zh-hans

2006年学术文章

@zh-my

2006年学术文章

@zh-sg

2006年學術文章

@yue

2006年學術文章

@zh

2006年學術文章

@zh-hant

name

Optimal two-stage genotyping designs for genome-wide association scans.

@en

Optimal two-stage genotyping designs for genome-wide association scans.

@nl

type

label

Optimal two-stage genotyping designs for genome-wide association scans.

@en

Optimal two-stage genotyping designs for genome-wide association scans.

@nl

prefLabel

Optimal two-stage genotyping designs for genome-wide association scans.

@en

Optimal two-stage genotyping designs for genome-wide association scans.

@nl

P1433

Q46304991-7745762F-18D4-4B51-957A-A5F44EBCFE03

P1476

Q46304991-AAF3FF3B-A3BC-4895-BC2F-5D31A1BF3266

P2093

Q46304991-481D2720-35FD-4DC5-8BC4-BBAECB9403FB

Q46304991-677BFBD4-B998-4CDD-B9BC-14CAE323FCFB

Q46304991-7FFD6401-8EAA-45B7-A541-3EAD1B9D5525

Q46304991-DD08D6CE-8A4F-4F32-9D83-572F79A71979

P304

Q46304991-C18B86AA-EFA5-44C7-9539-5AAE068530B9

P31

Q46304991-43917EDC-9168-4441-BD89-15C614DE18AA

P356

Q46304991-A7DBA100-C583-4A43-A3FA-E71D6248711E

P433

Q46304991-749B537F-BB18-468F-B37C-64CD020740E4

P478

Q46304991-A37A00D5-D5F2-426E-9CE6-3E9D28260DDD

P577

Q46304991-39206463-7202-4D4D-9AD9-F451D09A0083

P5875

Q46304991-94070BF9-0B77-4BE2-9EBC-0F60B8ADE51F

P698

Q46304991-26E0DB9D-9E27-4047-B38C-60E9E5D304D5

P921

Q46304991-CE039E4F-BDB7-45BA-B34F-69C083285353

P356

P1433

Genetic Epidemiology

P1476

Optimal two-stage genotyping designs for genome-wide association scans.

@en

P2093

Daniel O Stram

http://www.w3.org/2001/XMLSchema#string

Duncan C Thomas

http://www.w3.org/2001/XMLSchema#string

Hansong Wang

http://www.w3.org/2001/XMLSchema#string

Itsik Pe'er

http://www.w3.org/2001/XMLSchema#string

P304

356-368

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/GEPI.20150

http://www.w3.org/2001/XMLSchema#string

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

30

http://www.w3.org/2001/XMLSchema#string

P577

2006-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

7171718

http://www.w3.org/2001/XMLSchema#string

P698

16607626

http://www.w3.org/2001/XMLSchema#string

P921

genome-wide association study