Titlebook: Innovative Methods in Horticultural Crop Improvement; Molecular Tools, Nan Jameel Al-Khayri,Lina M. Alnaddaf,Suprasanna Penna Book 2024 The

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Molecular Techniques for the Improvement of Abiotic Stress Tolerance in Plantsr path to improving crop varieties. Further, transcription factors have emerged as a new tool for controlling the expression of many stress-responsive genes. However, generating transgenic cultivars is not only limited to the success of the transformation process but also the proper incorporation of

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Influence of Nanomaterials on Physiology and Antioxidant Defense Activities in Plants Under Abiotic and (c) the core layer: the central region of NMs. Due to their special characteristics the nanomaterials (NMs) have a regulatory role in the physiology and biochemistry of crop plants, as they enhance the production of various enzymatic antioxidants (catalase: CAT, glutathione-S-transferase: GST, s

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Plant Genetic Engineering: Nanomaterials-Based Delivery of Genetic Materialing the development of innovative approaches. In this context, nanomaterials present a promising avenue for genetic transformation in plants. The key challenge lies in developing effective methods for delivering biomodifier-conjugated complexes to plant cells, with the aim of creating straightforwar

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Detection of Genetically Modified Crops with Biosensorstechniques, providing the discovery of hand-crafted, fast-paced, and powerful genetic models. This chapter focuses on the various types of biosensors involved in GMO detection.The interest in point-of-care (POC) advancements in this space center around quick, straightforward, exact, compact, and min

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