Preprint: Metabolite-based genome-wide association studies enable the dissection of the genetic bases of bioactive compounds in Chickpea seeds

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cg.contactsiyue@mpimp-golm.mpg.deen_US
cg.contributor.centerInternational Center for Agricultural Research in the Dry Areas - ICARDAen_US
cg.contributor.centerMax Planck Institute for Molecular Plant Physiology - MPI-MPen_US
cg.contributor.centerMarche Polytechnic University - UNIVPMen_US
cg.contributor.centerThe Center of Plant Systems Biology and Biotechnology - CPSBBen_US
cg.contributor.funderGrains Research and Development Corporation - GRDCen_US
cg.contributor.projectProgram 2 -Towards Effective Genetic and Sustainable Management of Ascochyta blight of Chickpeaen_US
cg.contributor.project-lead-instituteInternational Center for Agricultural Research in the Dry Areas - ICARDAen_US
cg.coverage.countryBGen_US
cg.coverage.countryEGen_US
cg.coverage.countryDEen_US
cg.coverage.countryITen_US
cg.coverage.countryLBen_US
cg.coverage.regionEastern Europeen_US
cg.coverage.regionNorthern Africaen_US
cg.coverage.regionWestern Europeen_US
cg.coverage.regionSouthern Europeen_US
cg.coverage.regionWestern Asiaen_US
cg.creator.idIstanbuli, Tawffiq: 0000-0001-7450-6408en_US
cg.creator.idHamwieh, Aladdin: 0000-0001-6060-5560en_US
cg.identifier.doihttps://doi.org/10.1101/2025.06.16.659862en_US
cg.journalbioRxiven_US
cg.subject.agrovocbioactive compoundsen_US
cg.subject.sdgSDG 1 - No povertyen_US
cg.subject.sdgSDG 3 - Good health and well-beingen_US
dc.contributorRocchetti, Lorenzoen_US
dc.contributorBitocchi, Elenaen_US
dc.contributorWendenburg, Reginaen_US
dc.contributorSantamarina, Chiaraen_US
dc.contributorDi Vittori, Valerioen_US
dc.contributorIstanbuli, Tawffiqen_US
dc.contributorHamwieh, Aladdinen_US
dc.contributorFernie, Alisdairen_US
dc.contributorPapa, Robertoen_US
dc.contributorAlseekh, Salehen_US
dc.creatorRuan, Siyueen_US
dc.date.accessioned2026-02-16T21:23:36Z
dc.date.available2026-02-16T21:23:36Z
dc.description.abstractChickpea, is the second most consumed food legume, and significantly contributes to the human diet. Chickpea seeds are rich in a wide range of metabolites including bioactive specialized metabolites influencing nutritional qualities and human health. However, the genetic basis underlying the metabolite-based nutrient quality in chickpea remains poorly understood. Here we dissected the genetic architecture of seed metabolic diversity and explored how domestication shaped the chickpea metabolome. Through UPLC-MS we quantify over 3400 metabolic features in 509 chickpea seeds accessions from three independent multi-location field trials. The metabolite genome-wide association study (mGWAS) detected around 130,000 leading SNPs corresponding to 1890 metabolites across different environments. We further found and functionally validated a gene cluster of three CabHLH transcription factors that regulate soyasaponin biosynthesis in chickpea seeds. Our results reveal new insights on the effects of domestication process on chickpea metabolome. and provide valuable resources for the genetic improvement of the bioactive compounds in chickpea seeds.en_US
dc.formatPDFen_US
dc.identifierhttps://mel.cgiar.org/reporting/downloadmelspace/hash/ec7d129b925e5d592ac9718037f37b53en_US
dc.identifier.citationRuan, S. Rocchetti, L. Bitocch, E. Wendenburg, R. Santamarina, C. Vittori, V. D. & Alseekh, S. (2025). Metabolite-based genome-wide association studies enable the dissection of the genetic bases of bioactive compounds in Chickpea seeds. bioRxiv, 2025-06.en_US
dc.identifier.statusOpen accessen_US
dc.identifier.urihttps://hdl.handle.net/20.500.11766/70578
dc.languageenen_US
dc.publisherCold Spring Harbor Laboratoryen_US
dc.rightsCC-BY-NC-ND-4.0en_US
dc.subjectgenetic baseen_US
dc.subjectgwas.en_US
dc.subjectchickpeaen_US
dc.titlePreprint: Metabolite-based genome-wide association studies enable the dissection of the genetic bases of bioactive compounds in Chickpea seedsen_US
dc.typeJournal Articleen_US
dcterms.available2025-06-12en_US

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