Detecting marker-QTL linkage and estimating QTL gene effect and map location using a saturated genetic map.
about
A quick method for computing approximate thresholds for quantitative trait loci detectionGenetic mapping of two new blood pressure quantitative trait loci in the rat by genotyping endothelin system genesDetection of expression quantitative trait Loci in complex mouse crosses: impact and alleviation of data quality and complex population substructure.Mapping QTLs regulating morpho-physiological traits and yield: case studies, shortcomings and perspectives in drought-stressed maize.MetaQTL: a package of new computational methods for the meta-analysis of QTL mapping experimentsAn empirical method for establishing positional confidence intervals tailored for composite interval mapping of QTLDiscovery and application of insertion-deletion (INDEL) polymorphisms for QTL mapping of early life-history traits in Atlantic salmonGenetic and genomic analysis of hyperlipidemia, obesity and diabetes using (C57BL/6J × TALLYHO/JngJ) F2 mice.Genetic analysis of blood pressure in 8 mouse intercross populationsQTL mapping in white spruce: gene maps and genomic regions underlying adaptive traits across pedigrees, years and environments.Joint QTL linkage mapping for multiple-cross mating design sharing one common parentA genome scan for quantitative trait loci affecting cyanogenic potential of cassava root in an outbred population.Genetic linkage maps of Eucalyptus grandis and Eucalyptus urophylla using a pseudo-testcross: mapping strategy and RAPD markers.Constructing confidence intervals for QTL locationInterval mapping of high growth (hg), a major locus that increases weight gain in mice.Linkage mapping in experimental crosses: the robustness of single-gene modelsThe genetic basis of salinity tolerance traits in Arctic charr (Salvelinus alpinus).Mapping of a quantitative trait locus for blood pressure on rat chromosome 2Replication of linkage studies of complex traits: an examination of variation in location estimates.Identification of quantitative trait loci that regulate Arabidopsis root system size and plasticityPolymorphisms in cinnamoyl CoA reductase (CCR) are associated with variation in microfibril angle in Eucalyptus sppA new approach to the problem of multiple comparisons in the genetic dissection of complex traits.Statistical methods for mapping quantitative trait loci from a dense set of markers.Multiple interval mapping for quantitative trait lociQuantitative trait loci affecting components of wing shape in Drosophila melanogaster.Quantitative trait loci controlling refractoriness to Plasmodium falciparum in natural Anopheles gambiae mosquitoes from a malaria-endemic region in western Kenya.High-resolution quantitative trait locus mapping reveals sign epistasis controlling ovariole number between two Drosophila species.Dense genetic linkage maps of three Populus species (Populus deltoides, P. nigra and P. trichocarpa) based on AFLP and microsatellite markersHigh-resolution mapping of quantitative trait loci by selective recombinant genotyping.Architecture of energy balance traits in emerging lines of the Collaborative CrossSubstitution mapping in dahl rats identifies two distinct blood pressure quantitative trait loci within 1.12- and 1.25-mb intervals on chromosome 3Mapping multiple quantitative trait loci under Bayes error controlA mixed-model approach to association mapping using pedigree information with an illustration of resistance to Phytophthora infestans in potatoQuantitative trait loci and candidate gene mapping of aluminum tolerance in diploid alfalfaSex-, diet-, and cancer-dependent epistatic effects on complex traits in miceConstruction of high-quality recombination maps with low-coverage genomic sequencing for joint linkage analysis in maizeCoding Gene Single Nucleotide Polymorphism Mapping and Quantitative Trait Loci Detection for Physiological Reproductive Traits in Brook Charr, Salvelinus fontinalisIdentification of QTLs Conferring Resistance to Deltamethrin in Culex pipiens pallensAllelic Variation of BnaC.TT2.a and Its Association with Seed Coat Color and Fatty Acids in Rapeseed (Brassica napus L.).Genetic approaches in comparative and evolutionary physiology.
P2860
Q28345592-80D8FBF2-6A06-4D00-892D-4FE11B5A973CQ28582538-8A70F40E-CFF3-415A-83F0-B3186830B0E4Q30564394-E7735C21-30D4-41B4-974C-8417A91D7D88Q30598579-73A98DC1-0B4C-45F7-A1B8-B9E4EAD6539DQ33272874-1B158677-79F6-43B3-AE7E-D0F70A71823EQ33531763-B764A66B-825C-449F-AE98-5D006749EF9BQ33538313-B00787C8-8650-4CBE-9858-91D564A27454Q33774706-D4BD818E-2E93-4B30-B997-ED79C42AF4ABQ33789140-340BD999-A916-4AF6-8882-0CEEDBA5C03DQ33842901-3ACC3DA7-C210-47A8-9D11-5341C89D917DQ33851437-CC0275EF-57B0-4BCE-8A10-FB5AA06462FAQ33910558-737049CB-0733-49AA-832E-7D08749695C4Q33963341-8B9E553B-B93D-44F2-8556-E213BB828B23Q33964068-67C115A8-079F-4D41-BB0E-B6D410E45AC4Q33964922-6EBC58A7-3F72-4CD4-9D06-EA24C1628A37Q33970026-09627A06-6B24-4272-9A71-70464238E4B0Q34026792-8BCF42CC-CFA4-4A05-A089-BB644C9BD3E7Q34236250-67FADCA4-2E8D-4AD4-A8FE-CFF35150F088Q34390287-F16F464B-5F0B-4092-A0CC-993211EFC902Q34587385-FE4D3E6F-E374-4190-9720-0127E8E88EA8Q34589915-1D5ABE63-AFBC-494D-8B00-C45DD624FCDEQ34605844-4CB93D8A-4426-406C-9ECD-DA37BDE6545FQ34606150-BE6DF74C-0AD8-4D4D-AB66-C88F163E9C02Q34607189-AF15BDFB-54A0-498E-8C09-5E2971FAB0E1Q34609553-B0C7BFB7-DE14-4B9D-A415-40581342F1E1Q34611376-305B645C-AD28-4B27-A709-4943C1943728Q34611420-73F8BCF6-F64D-47B3-8A02-CB30A1C0EC41Q34612785-883D00A1-AD99-4949-8E91-BC412C097A9EQ34618256-2E79025F-5AE2-4561-AECC-07F7BF434534Q35055430-6370C206-C180-4D93-ACCD-FF2DF0DB31F0Q35221623-4FA54E23-17EB-40F6-94C0-729D7A7C9CF6Q35498763-CCABC405-2845-4E27-B493-E50956FFE333Q35641594-2235CEF3-3452-40FC-8D72-0945888EA228Q35650601-DE4CEC92-556B-4B3E-9696-F4AA58AE731AQ35711408-DCA4E448-C7DA-4C9C-8D7C-52CC11EF78EDQ35782264-68F39141-37EE-428C-A958-76CCCEBF74A9Q35794205-22B8BA27-58BA-4486-9D82-6CC326E459C7Q35814185-189952EA-5FE2-423C-9CFA-05FDA6EF0C1AQ35890449-C626DB7E-C6F5-4AA3-9D08-3F54ED157BB8Q35917510-39062E23-C3CA-414A-9325-3CC9EB7FA1D9
P2860
Detecting marker-QTL linkage and estimating QTL gene effect and map location using a saturated genetic map.
description
1993 nî lūn-bûn
@nan
1993 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@ast
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@en
type
label
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@ast
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@en
prefLabel
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@ast
Detecting marker-QTL linkage a ...... using a saturated genetic map.
@en
P2093
P2860
P1433
P1476
Detecting marker-QTL linkage a ...... using a saturated genetic map
@en
P2093
P2860
P304
P407
P577
1993-07-01T00:00:00Z