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Titlebook: Biotechnologies of Crop Improvement, Volume 2; Transgenic Approache Satbir Singh Gosal,Shabir Hussain Wani Book 2018 Springer International

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发表于 2025-3-21 18:41:08 | 显示全部楼层 |阅读模式
期刊全称Biotechnologies of Crop Improvement, Volume 2
期刊简称Transgenic Approache
影响因子2023Satbir Singh Gosal,Shabir Hussain Wani
视频videohttp://file.papertrans.cn/189/188687/188687.mp4
发行地址Focuses on important field crops to highlight germplasm enhancement for developing resistance to newly emerging diseases, pests, nutrient- and water-use efficiency, root traits and improved tolerance
图书封面Titlebook: Biotechnologies of Crop Improvement, Volume 2; Transgenic Approache Satbir Singh Gosal,Shabir Hussain Wani Book 2018 Springer International
影响因子During the past 15 years, cellular and molecular approaches have emerged as valuable adjuncts to supplement and complement conventional breeding methods for a wide variety of crop plants. Biotechnology increasingly plays a role in the creation, conservation, characterization and utilization of genetic variability for germplasm enhancement. For instance, anther/microspore culture, somaclonal variation, embryo culture and somatic hybridization are being exploited for obtaining incremental improvement in the existing cultivars. In addition, genes that confer insect- and disease-resistance, abiotic stress tolerance, herbicide tolerance and quality traits have been isolated and re-introduced into otherwise sensitive or susceptible species by a variety of transgenic techniques.  Together these transformative methodologies grant access to a greater repertoire of genetic diversity as the gene(s) may come from viruses, bacteria, fungi, insects, animals, human beings, unrelated plants or even be artificially derived.  Remarkable achievements have been made in the production, characterization, field evaluation and commercialization of transgenic crop varieties worldwide. Likewise, significant
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https://doi.org/10.1007/978-3-662-36514-4nmental stresses. It is a sequence-specific homology-based silencing mechanism in which the function of a gene is interfered or suppressed. Small interfering RNAs (siRNAs) and microRNAs (miRNAs) are produced inside the plant cell through the activation of RNAi machinery, which downregulates the expr
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https://doi.org/10.1007/978-3-662-36514-4ing agronomical traits of crops by silencing genes of different pathogens/pests and also plant genes for improvement of desired trait. The conserved nature of RNAi pathway across different organisms increases its applicability in various basic and applied fields. Here we attempt to summarize the kno
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https://doi.org/10.1007/978-3-642-99032-8) or short hairpin or microRNA (miRNA) to suppress the expression of sequence-specific gene at posttranscriptional or translational level. This technology has been used to study functional relevance of genes, enhancing crop yield, improving nutritional quality, and increasing crop productivity throu
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https://doi.org/10.1007/978-3-662-36519-9 population has made such stress assume a more disastrous form. In order to provide sufficient food and mitigate global hunger, a more sustainable and sufficient means of crop production is of urgent necessity. In the last decade, scientists have carried out extensive research to develop salt- and d
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Lebenserinnerungen eines Ingenieursneuploid type of genome of sugarcane makes it difficult to generate hybrids through conventional breeding programs. Thus, genetic improvement of sugarcane through transgenic approaches has fascinated the attention of most biotechnologists around the world. Moreover, plant biotechnology has the poten
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