about
Epistasis--the essential role of gene interactions in the structure and evolution of genetic systemsGenetic design and statistical power of nested association mapping in maizeBulked sample analysis in genetics, genomics and crop improvementMolecular plant breeding as the foundation for 21st century crop improvementAssociation and linkage analysis of aluminum tolerance genes in maizeGenetic Control of Photoperiod Sensitivity in Maize Revealed by Joint Multiple Population AnalysisA candidate gene based approach validates Md-PG1 as the main responsible for a QTL impacting fruit texture in apple (Malus x domestica Borkh).Action of multiple intra-QTL genes concerted around a co-localized transcription factor underpins a large effect QTL.Genetic networks controlling structural outcome of glucosinolate activation across developmentQTL mapping in new Arabidopsis thaliana advanced intercross-recombinant inbred lines.A developmental systems perspective on epistasis: computational exploration of mutational interactions in model developmental regulatory networks.QTL mapping for Mediterranean corn borer resistance in European flint germplasm using recombinant inbred lines.Intricate environment-modulated genetic networks control isoflavone accumulation in soybean seedsMapping complex traits as a dynamic system.Global gene expression of Poncirus trifoliata, Citrus sunki and their hybrids under infection of Phytophthora parasitica.Validation of QTL mapping and transcriptome profiling for identification of candidate genes associated with nitrogen stress tolerance in sorghum.Flowering time variation in oilseed rape (Brassica napus L.) is associated with allelic variation in the FRIGIDA homologue BnaA.FRI.a.A maize wall-associated kinase confers quantitative resistance to head smut.Mendelian and non-Mendelian regulation of gene expression in maize.Analysis of natural allelic variation in Arabidopsis using a multiparent recombinant inbred line population.Quantitative trait locus mapping of melanization in the plant pathogenic fungus Zymoseptoria tritici.Constructing linkage map based on a four-way cross population.Do large effect QTL fractionate? A case study at the maize domestication QTL teosinte branched1QTL mapping of agronomic waterlogging tolerance using recombinant inbred lines derived from tropical maize (Zea mays L) germplasm.Genetic dissection of the biotic stress response using a genome-scale gene network for rice.Joint-multiple family linkage analysis predicts within-family variation better than single-family analysis of the maize nested association mapping population.New insights into the genetic basis of natural chilling and cold shock tolerance in rice by genome-wide association analysis.Construction of a dense genetic linkage map and mapping quantitative trait loci for economic traits of a doubled haploid population of Pyropia haitanensis (Bangiales, Rhodophyta).Mixed model approach for IBD-based QTL mapping in a complex oil palm pedigreeIndividualized risk for statin-induced myopathy: current knowledge, emerging challenges and potential solutionsGenome-wide association study of 29 morphological traits in Aegilops tauschii.Hybridization between crops and wild relatives: the contribution of cultivated lettuce to the vigour of crop-wild hybrids under drought, salinity and nutrient deficiency conditionsSingle Marker and Haplotype-Based Association Analysis of Semolina and Pasta Colour in Elite Durum Wheat Breeding Lines Using a High-Density Consensus Map.Genome-Wide Linkage Mapping of QTL for Yield Components, Plant Height and Yield-Related Physiological Traits in the Chinese Wheat Cross Zhou 8425B/Chinese Spring.Quantitative trait loci for grain yield and adaptation of durum wheat (Triticum durum Desf.) across a wide range of water availabilityEarly Interactions of Murine Macrophages with Francisella tularensis Map to Mouse Chromosome 19Genome-wide association study of drought-related resistance traits in Aegilops tauschii.A genome-wide association study reveals genes associated with fusarium ear rot resistance in a maize core diversity panel.Genotype to phenotype maps: multiple input abiotic signals combine to produce growth effects via attenuating signaling interactions in maizeQuantitative genetic bases of anthocyanin variation in grape (Vitis vinifera L. ssp. sativa) berry: a quantitative trait locus to quantitative trait nucleotide integrated study.
P2860
Q22122008-95FEB015-049E-4716-99A1-DCD4E130D55FQ24649597-887F869C-1356-4355-A63C-2973CA77A33DQ26753827-80B42778-FE93-4BBC-AA0C-F09A9BB7CD9DQ28286529-CED22D67-C393-4BA7-AA9D-92819FF5F9B0Q28473501-6DDFE665-8E1E-4C46-814D-DF136A4FC8D9Q28972549-4CF6781E-0777-44E5-B992-2AE68BFAE9DBQ30456242-AABDFD4A-DA39-48BB-9076-AF596F952233Q33361804-D9D83264-4D77-4B39-82F2-10D4A88CBD97Q33379089-C956DE3E-9A46-49EC-893D-6A91345FC8CAQ33404582-7EAF1D52-811C-4CC0-BB8E-A4BBAE47DB1EQ33501199-ACDE21E2-2F48-41BB-B13A-86362F61DE66Q33540843-1443C5CC-1749-4E69-9657-EE447B22D798Q33601927-673FFF60-2D8F-4765-9DA6-51FB075E3A37Q33787936-FE409725-CC1D-4041-ACF0-81CA61AE006EQ33795248-4690E110-341C-4729-B913-154F0E5D035CQ33893368-F42D7F32-AC1C-418A-B691-6D6B8FD0D3A5Q34001402-BA96F2AF-5458-4A4C-A9DA-8B2F7FD2B4EDQ34455148-1FCED2D9-8F18-415A-B082-A0E22A95F58AQ34558058-03BBFF87-35C3-46C2-B101-621AF4556C4EQ34694170-ABE1B642-9394-4A9D-B7FB-D057C41478B1Q34714029-B2E01DAF-B411-4983-AA21-F5866B794550Q34763520-B457AB71-AC84-4DBB-B59B-3490F332B550Q35222691-461E4906-6B00-4252-9A07-2FAC501FEB8DQ35464417-7A55F285-2BA1-4786-B851-7ABDE33C2EBAQ35546770-2916003C-4F2B-4960-BEFC-9C22004E97A0Q35614500-D7085191-C730-4353-93E9-68EF2FDE9DBEQ35779550-E9F0D3E5-5A2E-42B7-82F5-AA1AE320F7D5Q35782637-AA53FDEB-F4E9-450C-BFCC-FBBF97266715Q35809821-DD9A468B-9D30-4AC3-B3EA-90EA787E9B9DQ35915932-478F44CB-1D45-4073-ABFB-AEEA3B2F16CEQ36211561-BCAF2534-7122-411D-92E1-112B4ADCD25AQ36233698-77414B48-C27A-4C31-8559-73CC31D8ACF6Q36263864-AE9488DF-3F32-4752-96A6-3A33449B8F85Q36381779-AC3772AE-49E8-4858-A924-FB52BD93EB83Q36391887-3DAA33F0-12E2-47F3-A26C-B7E88A0786F2Q36727692-012748C5-ACFF-460A-8B80-486AA77A935FQ37217290-EEF58EA2-899F-468F-AD5C-6931790BF753Q37272965-03ABFCC9-4275-459D-BCA4-80B0D4C56989Q37366536-CC36E270-6887-4F8B-A52F-8CB9FF86EFB6Q37424973-88570AC5-70C5-4CD9-82CE-AC14C647B7A9
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Genetic architecture of complex traits in plants
@ast
Genetic architecture of complex traits in plants
@en
Genetic architecture of complex traits in plants
@nl
type
label
Genetic architecture of complex traits in plants
@ast
Genetic architecture of complex traits in plants
@en
Genetic architecture of complex traits in plants
@nl
prefLabel
Genetic architecture of complex traits in plants
@ast
Genetic architecture of complex traits in plants
@en
Genetic architecture of complex traits in plants
@nl
P3181
P1476
Genetic architecture of complex traits in plants
@en
P2093
James B Holland
P304
P3181
P356
10.1016/J.PBI.2007.01.003
P407
P50
P577
2007-02-08T00:00:00Z