Titlebook: Maize Improvement; Current Advances in Shabir Hussain Wani,Zahoor Ahmad Dar,Gyanendra Pra Book 2023 The Editor(s) (if applicable) and The

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Advances in Genome Editing for Maize Improvement,nal values. So, experiments have done for production of genetically modified maize since the 1990s and adopted worldwide. Genetic techniques comprising of genome editing tools have been used including meganucleases, ZFNs, and TALENs to enhance production and to improve agronomic traits of maize. The

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Genetic Engineering to Improve Biotic and Abiotic Stress Tolerance in Maize (, L.),threaten the global food security issue. Maize, being an important cereal crop, has been severely affected due to the detrimental effect of these stresses. A lot of efforts have been attempted to fabricate maize genotype to maintain yield potential under stressed conditions through various conventio

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Genetic Improvement of Specialty Corn for Nutritional Quality Traits,et corn, popcorn, waxy corn, high amylose corn, high oil corn, colored corn, and baby corn are quite popular worldwide. Genes or QTLs governing these traits are now well documented. Introgression of such loci has led to the development of improved specialty corn cultivars worldwide. Information on m

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Advances in High-Throughput Phenotyping of Maize (, L.) for Climate Resilience,iberate attempts have been made to integrate trait-based genomic approaches to complement conventional plant breeding. However, the success of the genomics mainly based on phenotypic expression of a trait, hence phenotyping, is one of the key components of plant breeding including maize. Genetic dis

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Role of Plant Growth-Promoting Rhizobacteria Mitigating Drought Stress in Maize,factors in crop losses. When plants are subjected to drought stresses, there are a series of events that lead to the accumulation of stress-responsive genes, chemical metabolites, and physiochemical malfunctioning of plants. However, the plants must defend themselves to survive. In addition, if the

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cs. Chapter 5 reviews different circuit techniques to reduce theperformance overhead of some of the dominant components. Chapter 6shows methods to configure FPGAs to minimize the programming overhead.Chapter 7 addresses the physical realization of some of the criticalcomponents and the final impleme

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Deepu Pandita,S. Parthasarathy,D. Dhivyapriya,R. Premkumar,Anu Pandita,Shabir Hussain Wanics. Chapter 5 reviews different circuit techniques to reduce theperformance overhead of some of the dominant components. Chapter 6shows methods to configure FPGAs to minimize the programming overhead.Chapter 7 addresses the physical realization of some of the criticalcomponents and the final impleme