Titlebook: Recent Approaches in Omics for Plant Resilience to Climate Change; Shabir Hussain Wani Book 2019 Springer Nature Switzerland AG 2019 Omics

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Metabolomic Profiling of Plants to Understand Reasons for Plant Stress Resilience to Abiotic Stress(MS) based methods including GC–MS (gas chromatography–MS), LC–MS (liquid chromatography–MS) and CE–MS (capillary electrophoresis–MS). The development and adoption of metabolomics and related approaches enable us to gain a comprehensive overview of the plant metabolic response to abiotic stresses.

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In Vitro Screening of Crop Plants for Abiotic Stress Tolerance,ations are originated from culture and subculture of cells from a previous culture to fresh growth medium. One of the biggest advantages of this method (creation of somaclonal variations) is that plant breeder can guide somaclonal variations to create a desirable trait using selective agents. In thi

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,MicroRNA as a?Tool for Mitigating Abiotic Stress in Rice (, L.), processes like immune responses, cell differentiation and fate determination, microRNAs have also been allied with varied biotic and abiotic stresses. Modification of miRNA regulatory landscape can significantly modify the product of a stress response which can consequently prove to be essential in

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,Databases: A Weapon from the?Arsenal of Bioinformatics for Plant Abiotic Stress Research,ole in stress tolerance have been identified and annotated. This flow of information with respect to abiotic stress research has resulted in a number of databases for different omics approaches including genomics, proteomics, miRNAomics, transcriptomics, metabolomics, etc. These various technologies

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Advances in Functional Genomics in Investigating Salinity Tolerance in Plants,t tolerance. Recently, due to the advancement of genomics, several genomic information are available in public database and furthermore,?transcriptomics studies identified several genes directly or indirectly involved in salt tolerance. This chapter specifically describes the over-expression or down

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Drought Stress in Chickpea: Physiological, Breeding, and Omics Perspectives,nd efficient way to develop drought-tolerant chickpea accessions. Moreover, the availability of high-throughput sequencing tools accelerates the working efficiency and quality of these omics approaches. Drought-responsive genes, regulatory TFs, and metabolic pathways can be identified through RNA-Se

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,Novel Breeding and Biotechnological Approaches to Mitigate?the Effects of Heat Stress on Cotton,adversely affect vegetative growth, reproductive growth, photosynthesis rate and cell membrane stability. Heat stress may also modulate the level of metabolites, hormones and reactive oxygen species (ROS). The expression of different heat shock proteins (HSP) varies with increase in temperature. In

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Modulation of Proteome and Phosphoproteome Under Abiotic Stress in Plants: An Overview,l for developing crop/plants with enhanced tolerance to abiotic stresses. The main aim of this review is to discuss proteome and phosphoproteome dynamic changes under different abiotic stress factors, such as drought, salinity, waterlogging, heavy metal and temperature stress. This review describes