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[ author_sort:"kole, chittaranjan." ]
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Genomic designing for biotic stress resistant oilseed crops
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Genomic designing for biotic stress resistant oilseed cropsedited by Chittaranjan Kole.
其他作者:
Kole, Chittaranjan.
出版者:
Cham :Springer International Publishing :2022.
面頁冊數:
xxiii, 345 p. :ill., digital ;24 cm.
Contained By:
Springer Nature eBook
標題:
Oilseed plantsGenetic engineering.
電子資源:
https://doi.org/10.1007/978-3-030-91035-8
ISBN:
9783030910358$q(electronic bk.)
Genomic designing for biotic stress resistant oilseed crops
Genomic designing for biotic stress resistant oilseed crops
[electronic resource] /edited by Chittaranjan Kole. - Cham :Springer International Publishing :2022. - xxiii, 345 p. :ill., digital ;24 cm.
Genomic Design for Biotic Stresses in Soybean -- Genomic Designing For Biotic Stress Resistance In Rapeseed -- Designing Sunflower For Biotic Stress Resilience: Everlasting Challenge -- Genomic Designing For Biotic Stress Resistant Peanut -- Genomic Designing For Biotic Stress Resistance In Rape And Mustard -- Genomic Designing For Resistance To Biotic Stresses In Sesame -- Biotic Stresses In Castor Plant -- Genomic Designing For Genetic Improvement Of Biotic Stress Resistance In Flax.
Biotic stresses cause yield loss of 31-42% in crops in addition to 6-20% during post-harvest stage. Understanding interaction of crop plants to the biotic stresses caused by insects, bacteria, fungi, viruses, and oomycetes, etc. is important to develop resistant crop varieties. Knowledge on the advanced genetic and genomic crop improvement strategies including molecular breeding, transgenics, genomic-assisted breeding and the recently emerging genome editing for developing resistant varieties in oilseed crops is imperative for addressing FPNEE (food, health, nutrition. energy and environment) security. Whole genome sequencing of these crops followed by genotyping-by-sequencing have facilitated precise information about the genes conferring resistance useful for gene discovery, allele mining and shuttle breeding which in turn opened up the scope for 'designing' crop genomes with resistance to biotic stresses. The eight chapters each dedicated to an oilseed crop in this volume elucidate on different types of biotic stress agents and their effects on and interaction with the crop plants; enumerate on the available genetic diversity with regard to biotic stress resistance among available cultivars; illuminate on the potential gene pools for utilization in interspecific gene transfer; present brief on the classical genetics of stress resistance and traditional breeding for transferring them to their cultivated counterparts; depict the success stories of genetic engineering for developing biotic stress resistant varieties; discuss on molecular mapping of genes and QTLs underlying biotic stress resistance and their marker-assisted introgression into elite varieties; enunciate on different emerging genomics-aided techniques including genomic selection, allele mining, gene discovery and gene pyramiding for developing resistant crop varieties with higher quantity and quality of yields; and also elaborate some case studies on genome editing focusing on specific genes for generating disease and insect resistant crops.
ISBN: 9783030910358$q(electronic bk.)
Standard No.: 10.1007/978-3-030-91035-8doiSubjects--Topical Terms:
923851
Oilseed plants
--Genetic engineering.
LC Class. No.: SB298 / .G45 2022
Dewey Class. No.: 633.85
Genomic designing for biotic stress resistant oilseed crops
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Genomic Design for Biotic Stresses in Soybean -- Genomic Designing For Biotic Stress Resistance In Rapeseed -- Designing Sunflower For Biotic Stress Resilience: Everlasting Challenge -- Genomic Designing For Biotic Stress Resistant Peanut -- Genomic Designing For Biotic Stress Resistance In Rape And Mustard -- Genomic Designing For Resistance To Biotic Stresses In Sesame -- Biotic Stresses In Castor Plant -- Genomic Designing For Genetic Improvement Of Biotic Stress Resistance In Flax.
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Biotic stresses cause yield loss of 31-42% in crops in addition to 6-20% during post-harvest stage. Understanding interaction of crop plants to the biotic stresses caused by insects, bacteria, fungi, viruses, and oomycetes, etc. is important to develop resistant crop varieties. Knowledge on the advanced genetic and genomic crop improvement strategies including molecular breeding, transgenics, genomic-assisted breeding and the recently emerging genome editing for developing resistant varieties in oilseed crops is imperative for addressing FPNEE (food, health, nutrition. energy and environment) security. Whole genome sequencing of these crops followed by genotyping-by-sequencing have facilitated precise information about the genes conferring resistance useful for gene discovery, allele mining and shuttle breeding which in turn opened up the scope for 'designing' crop genomes with resistance to biotic stresses. The eight chapters each dedicated to an oilseed crop in this volume elucidate on different types of biotic stress agents and their effects on and interaction with the crop plants; enumerate on the available genetic diversity with regard to biotic stress resistance among available cultivars; illuminate on the potential gene pools for utilization in interspecific gene transfer; present brief on the classical genetics of stress resistance and traditional breeding for transferring them to their cultivated counterparts; depict the success stories of genetic engineering for developing biotic stress resistant varieties; discuss on molecular mapping of genes and QTLs underlying biotic stress resistance and their marker-assisted introgression into elite varieties; enunciate on different emerging genomics-aided techniques including genomic selection, allele mining, gene discovery and gene pyramiding for developing resistant crop varieties with higher quantity and quality of yields; and also elaborate some case studies on genome editing focusing on specific genes for generating disease and insect resistant crops.
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