Titlebook: Engineering Nitrogen Utilization in Crop Plants; Ashok Shrawat,Adel Zayed,David A. Lightfoot Book 2018 Springer International Publishing A

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https://doi.org/10.1007/978-3-031-05969-8and causes greenhouse gas emission and groundwater pollution. Therefore, the need to reduce N-fertilizer input is pressing. In order to compensate that reduction, new crop genotypes must be sought with improved nitrogen use efficiency (NUE). While research has been mainly conducted on N assimilation

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978-3-030-06556-0Springer International Publishing AG, part of Springer Nature 2018

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Improving Nitrogen Use Efficient in Crop Plants Using Biotechnology Approachese macromolecules like DNA and proteins that are then required for the genome, cellular structures and overall growth. Low or insufficient available N limits the plant growth and yield (both biomass and grain) of crop plants. Plants obtain fixed-N from the soil as ammonia, nitrate, urea, amino acids and peptides.

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The Importance of Organic Nitrogen Transport Processes for Plant Productivity and Nitrogen Use Efficwell as root-to-shoot and leaf-to-seed partitioning of organic nitrogen. It further examines the importance of amino acid and ureide transporters for plant growth, seed production, and plant nitrogen use efficiency.

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Transcription Factor-Based Genetic Engineering to Increase Nitrogen Use Efficiencyineering for increased NUE is the improvement of Arabidopsis growth under nitrogen-limited conditions, which was achieved using the maize TF gene .. Although TF-based genetic engineering is a promising approach for generating crops suitable for cropping systems requiring reduced fertilizer input, fe