Titlebook: Compatible Solutes Engineering for Crop Plants Facing Climate Change; Shabir Hussain Wani,Manu Pratap Gangola,Bharathi R Book 2021 Springe

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Antony Galton,Matt Duckham,Alan Bothe developmental stage, during high-temperature stress, during cold and chilling stress, during water and drought stress are discussed in detail. Apart from these, we also focused on genetic engineering in polyamines pathways to develop abiotic stress-tolerant crops. Genetic manipulation using plant

GREG

Richard Dapoigny,Patrick Barlatierhe low genetic diversity of this trait in the germplasm of certain species. However, fructans levels in plants can be enhanced using the biotechnological tools for the biosynthesis of fructans against the abiotic stresses. The abiotic stress tolerance is a complex mechanism of plants, and engineerin

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骯臟

,Recent Advances in Plant Adaptation to Climate Change – An Introduction to Compatible Solutes,tes is very important in plant growth and development, i.e., glycinebetaine (GB) is helpful in maintaining osmotic potential, protecting proteins from denaturation and restoration of photosystem II complex (PSII) in plants. The biosynthesis of compatible solutes is important in plants especially ada

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Osmosensing and Signalling in Plants: Potential Role in Crop Improvement Under Climate Change,vicissitudes in extracellular plant osmolarity. Genetic engineering and genome editing of the Osmotic Stress–Regulated (OR) genes and osmosensors including Receptor-Like Kinases (RLKs) and Histidine kinases (HKs) may positively affect stress tolerance by manipulating signalling factors downstream an

Celiac-Plexus

Amino Acids Other Than Proline and Their Participation in Abiotic Stress Tolerance,nic and nonproteinogenic) have received considerably less attention in this context. This chapter provides the current state of knowledge of the role of amino acids, excluding proline, in abiotic stress tolerance of crops. It provides a comprehensive overview of how these crucial metabolites improve

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