Plant Genomics

• Format: eBook
• Language: English
• Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
• Subjects: Biology, life sciences; Research and information: general; ABA signaling; abiotic stress; abiotic stresses; Agropyron; alternative splicing; analysis; apple; bell pepper; Betula halophile; bi-parental population; biotic and abiotic stresses; biotic stress; bisulfate sequencing; BrHSFA2; BrHSP18.2s; characterization; chilling injury; chitin-binding protein; chitinase; Cleistogenes songorica; comparative epigenomes; computational algorithms; cp genome; differentially expressed genes; DNA methylation; Dof gene family; Dof transcription factor; drought stress; drought tolerance; EST-gSSRs; EXO70; experimental approaches; expression; expression analysis; expression profiling; fatty acid composition; features of plant mRNAs; flax; flaxseed; flow cytometry; flower color chimera; flower induction; flowering time; function analysis; gene expression; gene expression analysis; gene family; genes; genetic distance; genetic diversity; genetic structure; genome evolution; genome size; genome-wide association study (GWAS); genome-wide scale; genomic prediction; genomic selection; genotyping by sequencing; genotyping by sequencing (GBS); genotyping-by-sequencing; GWAS; Haynaldia villosa; high order repeats; hormone; hydroxycinnamoyl transferase; identification; IR boundary; Jatropha curcas; Kenshin; kiwifruit; LEA proteins; light; Linum usitatissimum; longan; maize; maturity; miR319; mitogen-activated protein kinase (MAPK); next-generation sequencing; non-coding RNA; novel accessions; nuclear DNA content; ornamental Prunus mume; osmotic stress; pasmo resistance; pasmo severity; PCR; pepper; Phyllostachys edulis; phylogenetic analysis; phylogenetic relationship; phylogenetic relationships; phylogeny; PIC; plant height; plant hormones; plants; Pyrus hopeiensis; quantitative trait loci; reference genome assembly; regulation and efficiency of translation; rice; salt stress; salt tolerance; SAP gene family; satellite DNA; seed hull content; seed mucilage content; seed yield; selective sweep; Septoria linicola; single nucleotide polymorphism; single nucleotide polymorphism (SNP); SNP; Solanum lycopersicum; soybean; standardization; stress response; stress responsive mechanism; subcellular localization; target genes; TCP genes; tea; thermotolerance; transcription factor; transcriptome; transcriptome sequencing; transcriptomes; transgenic hairy root assay; transposon; trihelix transcription factor; UGlcAE gene family; upland cotton; Verbena bonariensis; warming; WRKY; ZmWRKY106
• Online Access: Open Access: DOAB: description of the publication; Open Access: DOAB, download the publication

 This Special Issue contains 28 papers covering a wide range of topics related to plant genomics and genetics. The papers utilize a variety of genomic tools and techniques to explore topics such as identification of quantitative trait loci associated with flax seed yield and oil quality, mucilage and hull content in flax seeds, and genomic prediction for pasmo resistance in flax. Other papers focus on the identification and characterization of specific genes, such as the EXO70 gene family in wheat and related species, hydroxycinnamoyl transferase in tea plants, and the WRKY transcription factor GmWRKY12 in soybeans. Several papers examine gene expression and regulation in response to abiotic stress, such as drought and salt tolerance in moso bamboo, and the response to chilling in bell peppers. Other topics include genetic diversity analysis of crested wheatgrass, genome-wide analysis of chitin-binding protein gene family in peppers, and genome-wide bioinformatics analysis of MAPK gene family in kiwifruit. Overall, this Special Issue provides a comprehensive view of the current state of plant genomics research, showcasing the diversity of approaches and tools being used to better understand and improve crop plants.