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dc.contributor.authorMartínez-Gómez, Pedro*
dc.date.accessioned2021-02-11T23:01:16Z
dc.date.available2021-02-11T23:01:16Z
dc.date.issued2019*
dc.date.submitted2019-08-28 11:21:27*
dc.identifier35890*
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/56334
dc.description.abstractThe development of new plant varieties is a long and tedious process involving the generation of large seedling populations for the selection of the best individuals. While the ability of breeders to generate large populations is almost unlimited, the selection of these seedlings is the main factor limiting the generation of new cultivars. Molecular studies for the development of marker-assisted selection (MAS) strategies are particularly useful when the evaluation of the character is expensive, time-consuming, or with long juvenile periods. The papers published in the Special Issue “Plant Genetics and Molecular Breeding” report highly novel results and testable new models for the integrative analysis of genetic (phenotyping and transmission of agronomic characters), physiology (flowering, ripening, organ development), genomic (DNA regions responsible for the different agronomic characters), transcriptomic (gene expression analysis of the characters), proteomic (proteins and enzymes involved in the expression of the characters), metabolomic (secondary metabolites), and epigenetic (DNA methylation and histone modifications) approaches for the development of new MAS strategies. These molecular approaches together with an increasingly accurate phenotyping will facilitate the breeding of new climate-resilient varieties resistant to abiotic and biotic stress, with suitable productivity and quality, to extend the adaptation and viability of the current varieties.*
dc.languageEnglish*
dc.subjectQH301-705.5*
dc.subjectQ1-390*
dc.subject.classificationthema EDItEUR::P Mathematics and Science::PS Biology, life sciencesen_US
dc.subject.othern/a*
dc.subject.otherGA2ox7*
dc.subject.othercabbage*
dc.subject.otherOsGPAT3*
dc.subject.otheroleic acid*
dc.subject.otherOsCDPK1*
dc.subject.othernutrient use efficiency*
dc.subject.otherstem borer*
dc.subject.otheryellow-green-leaf mutant*
dc.subject.otherbranching*
dc.subject.otherepigenetics*
dc.subject.otherNPK fertilizers*
dc.subject.otherparticle bombardment*
dc.subject.otherstress tolerance*
dc.subject.otheroverexpression*
dc.subject.otherglycine*
dc.subject.otherheat-stress*
dc.subject.otherbulk segregant RNA-seq*
dc.subject.otherPrunus*
dc.subject.otherprotein-protein interaction*
dc.subject.otherAdRAP2.3*
dc.subject.otherplant architecture*
dc.subject.otherwaterlogging stress*
dc.subject.othergenes*
dc.subject.otherCucumis sativus L.*
dc.subject.otherFlower color*
dc.subject.otherresistance*
dc.subject.otherTobacco*
dc.subject.othergynomonoecy*
dc.subject.otherdrought stress*
dc.subject.otherBrassica oleracea*
dc.subject.otherstarch biosynthesis*
dc.subject.otherOverexpression*
dc.subject.otherWUS*
dc.subject.otheragronomic traits*
dc.subject.otherGhd7*
dc.subject.otherthe modified MutMap method*
dc.subject.othercry2A gene*
dc.subject.otherlight-induced*
dc.subject.othergene expression*
dc.subject.otherbreeding*
dc.subject.otherHeterodera schachtii*
dc.subject.otherABA*
dc.subject.otherGreen tissue-specific expression*
dc.subject.othersubcellular localization*
dc.subject.othersquamosa promoter binding protein-like*
dc.subject.othertranscriptome*
dc.subject.otherFAD2*
dc.subject.otherAs3+ stress*
dc.subject.othermetallothionein*
dc.subject.otherflowering*
dc.subject.otherbisulfite sequencing*
dc.subject.othertomato*
dc.subject.otherquantitative trait loci*
dc.subject.otherPromoter*
dc.subject.othermarker–trait association*
dc.subject.otherDEGs*
dc.subject.othercytoplasmic male sterile*
dc.subject.otherRosa rugosa*
dc.subject.otherMADS transcription factor*
dc.subject.otheryield*
dc.subject.otherP. suffruticosa*
dc.subject.otherCYC2*
dc.subject.othercommon wild rice*
dc.subject.otherActinidia deliciosa*
dc.subject.othergene-by-gene interaction*
dc.subject.otherAechmea fasciata*
dc.subject.otherhybrid rice*
dc.subject.othersoybean*
dc.subject.otherR2R3-MYB*
dc.subject.otherbread wheat*
dc.subject.otherBRANCHED1 (BRC1)*
dc.subject.otherlinoleic acid*
dc.subject.otherdifferentially expressed genes*
dc.subject.othercomplex traits*
dc.subject.othertransgenic chrysanthemum*
dc.subject.otherD-genome*
dc.subject.otherBrassica*
dc.subject.othercandidate gene*
dc.subject.otherSmJMT*
dc.subject.othergene expression pattern*
dc.subject.otherRNA-Seq*
dc.subject.othercandidate genes*
dc.subject.otherleaf shape*
dc.subject.otherBrassica napus*
dc.subject.otherrecombination-suppressed region*
dc.subject.otheranthocyanin*
dc.subject.otherWRKY transcription factor*
dc.subject.otherIdesia polycarpa var*
dc.subject.othersingle nucleotide polymorphism*
dc.subject.otherbud abortion*
dc.subject.otherQTL*
dc.subject.otherreproductive organ*
dc.subject.othertransient overexpression*
dc.subject.otherElongated Internode (EI)*
dc.subject.othersugarcane*
dc.subject.otherabiotic stress*
dc.subject.otherOryza sativa L.*
dc.subject.otherRrGT2 gene*
dc.subject.otherHd1*
dc.subject.othercZR3*
dc.subject.othercytoplasmic male sterility (CMS)*
dc.subject.otherseed development*
dc.subject.othertapetum*
dc.subject.othernear-isogenic line (NIL)*
dc.subject.otherphytohormones*
dc.subject.otherTCP transcription factor*
dc.subject.otherpollen accumulation*
dc.subject.otherAnthocyanin*
dc.subject.otherWRKY*
dc.subject.otherquantitative trait loci (QTLs)*
dc.subject.othersalt stress*
dc.subject.otherfloral scent*
dc.subject.othersucrose*
dc.subject.otherOgura-CMS*
dc.subject.otherroot traits*
dc.subject.otherendosperm development*
dc.subject.otherZea mays L.*
dc.subject.othersesame*
dc.subject.otherBryum argenteum*
dc.subject.otherAP2/ERF genes*
dc.subject.othertranscriptional regulation*
dc.subject.otherWB1*
dc.subject.otherhaplotype block*
dc.subject.otherbroccoli*
dc.subject.otheragronomic efficiency*
dc.subject.otherdurum wheat*
dc.subject.othergene pyramiding*
dc.subject.otherOryza sativa*
dc.subject.othergenetics*
dc.subject.otherflowering time*
dc.subject.otherCicer arietinum*
dc.subject.otherHs1pro-1*
dc.subject.otherendosperm appearance*
dc.subject.otherphenolic acids*
dc.subject.otheranther wall*
dc.subject.otherbromeliad*
dc.subject.othergenomics*
dc.subject.othertransgenic*
dc.subject.otherDgWRKY2*
dc.subject.otherClone*
dc.subject.otheryield trait*
dc.subject.otherflower symmetry*
dc.subject.otherpartial factor productivity*
dc.subject.otherrice*
dc.subject.othermolecular breeding*
dc.subject.othergenotyping-by-sequencing*
dc.subject.otherChimonanthus praecox*
dc.subject.othernectary*
dc.subject.otherSalvia miltiorrhiza*
dc.subject.otherpollen development*
dc.subject.otherregulation*
dc.subject.otherZmES22*
dc.subject.othergenome-wide association study*
dc.subject.otherVIGS*
dc.subject.otheriTRAQ*
dc.subject.othergenome-wide association study (GWAS)*
dc.subject.otherethylene-responsive factor*
dc.subject.otherstarch*
dc.subject.othermolecular markers*
dc.subject.otherrice quality*
dc.subject.otherChrysanthemum morifolium*
dc.titlePlant Genetics and Molecular Breeding*
dc.typebook
oapen.identifier.doi10.3390/books978-3-03921-176-0*
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0*
oapen.relation.isbn9783039211760*
oapen.relation.isbn9783039211753*
oapen.pages628*
oapen.edition1st*


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