標(biāo)題: Titlebook: Genetic Engineering of Crop Plants for Food and Health Security; Volume 1 Siddharth Tiwari,Bhupendra Koul Book 2023 The Editor(s) (if appli [打印本頁] 作者: 畸齒矯正學(xué) 時(shí)間: 2025-3-21 18:22
書目名稱Genetic Engineering of Crop Plants for Food and Health Security影響因子(影響力)
書目名稱Genetic Engineering of Crop Plants for Food and Health Security影響因子(影響力)學(xué)科排名
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書目名稱Genetic Engineering of Crop Plants for Food and Health Security網(wǎng)絡(luò)公開度學(xué)科排名
書目名稱Genetic Engineering of Crop Plants for Food and Health Security被引頻次
書目名稱Genetic Engineering of Crop Plants for Food and Health Security被引頻次學(xué)科排名
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書目名稱Genetic Engineering of Crop Plants for Food and Health Security讀者反饋
書目名稱Genetic Engineering of Crop Plants for Food and Health Security讀者反饋學(xué)科排名
作者: antipsychotic 時(shí)間: 2025-3-22 00:17
Gotthard Stein,Hermann-Friedrich Wagnerreated by crossing between?several different wild species. Apple production and its nutritional enhancement demand have been increasing worldwide; therefore, incorporation of promising varieties through modern as well as conventional?methods of breeding has a huge potential?to increase the global?re作者: Eructation 時(shí)間: 2025-3-22 01:20 作者: 我要沮喪 時(shí)間: 2025-3-22 07:27
Bedeutung der IT-Sicherheit in Unternehmen,loped from epidermal ovule cells. Among the 50 species, four (., ., ., and .) are cultivated for fiber production. Over 90% of cotton worldwide comes from Upland cotton (.). The genetic improvement of cotton has been ongoing for centuries, but recent advances in genetic engineering and genomics have作者: 座右銘 時(shí)間: 2025-3-22 11:58 作者: Chromatic 時(shí)間: 2025-3-22 15:56 作者: Chromatic 時(shí)間: 2025-3-22 18:47 作者: 否認(rèn) 時(shí)間: 2025-3-22 22:22 作者: Confirm 時(shí)間: 2025-3-23 05:23 作者: Ige326 時(shí)間: 2025-3-23 07:43 作者: SEED 時(shí)間: 2025-3-23 12:09
Postmoderne und Image(-Kommunikation),e conventional breeding approach has provided only a moderate level of resistance for most of the insect pests. Genetic transformation of crop plants with insecticidal protein genes from unrelated organisms is a proven technology with potential for commercial success. In the absence of natural varia作者: 導(dǎo)師 時(shí)間: 2025-3-23 16:33 作者: 和藹 時(shí)間: 2025-3-23 19:36
https://doi.org/10.1007/978-3-322-89279-9th varying levels of crop yields owing to biotic and abiotic stresses. Peanut improvement programs historically focused on improving yield, oil content, fatty acid content, moisture deficit stress, salinity, and disease resistance. Research efforts are now being targeted toward the enhancement of ol作者: FLOAT 時(shí)間: 2025-3-23 23:59 作者: Inculcate 時(shí)間: 2025-3-24 05:29
Die Sicherheit privater Beziehungen,l and subtropical regions. However, the banana industry faces significant challenges such as diseases, pests, climate change, and the need for improved nutritional content. Conventional plant protection and production practices have proved to be insufficient to combat the challenges in the form of n作者: LUDE 時(shí)間: 2025-3-24 09:40
Allgemeine und begriffliche Grundlagen,cal features. Different environmental challenges such as drought, hot conditions, salinity, temperature, stress by insect pests and diseases, and latent genetic potential are the major causes of the limited crop production. There is a need for a multipronged approach that combines both agronomical a作者: 6Applepolish 時(shí)間: 2025-3-24 12:29
https://doi.org/10.1007/978-3-663-08332-0als; moreover, it is also used as a condiment and biofuel, and is one of the major constituents in the paint industry. Thus, the demand for mustard is continuously increasing every day. However, abiotic and biotic stress, along with nutrient unavailability, reduce the yield potential. Furthermore, t作者: dapper 時(shí)間: 2025-3-24 18:56
https://doi.org/10.1007/978-3-642-41124-3thesized and localized in their leaves. Among all steviol glycosides, rebaudioside A is the most soughtafter for its flavor, while stevioside is accountable for its bitter aftertaste. Transformation of stevioside into rebaudioside A has been achieved by employing next-generation recombinant technolo作者: 沉著 時(shí)間: 2025-3-24 22:15 作者: maverick 時(shí)間: 2025-3-25 00:57 作者: 航海太平洋 時(shí)間: 2025-3-25 03:39 作者: 剝皮 時(shí)間: 2025-3-25 10:35 作者: 紳士 時(shí)間: 2025-3-25 12:50 作者: Additive 時(shí)間: 2025-3-25 16:12 作者: 愛哭 時(shí)間: 2025-3-25 21:47
Genetic Improvement of Apple,mercially accessible sooner..In?the present study, we make an effort to summarize the progress gained in developing?apple?cultivars with extended resistance on a digenic base of gene combining. So, it is essential to develop cultivars that are tolerant to biotic and abiotic stresses?by using various作者: glamor 時(shí)間: 2025-3-26 01:09 作者: 責(zé)怪 時(shí)間: 2025-3-26 05:42 作者: 名詞 時(shí)間: 2025-3-26 09:56
Insights into Genetic Improvement of Cassava,es it easy to address these relevant areas to be improved through the genetic engineering approach. Currently, available genetically modified cassava varieties through gene editing and RNAi technology which are under controlled field trials include biofortified β-carotene and increased iron, zinc co作者: echnic 時(shí)間: 2025-3-26 15:40
Genetic Improvement of Eggplant: Perspectives and Challenges,everal wild species with the cultivated type is a debatable subject because of complex species-level distinction at the molecular level, which complicates the differentiation of the taxa. A variety of biotechnological approaches and tools have contributed to the genetic improvement and expansion of 作者: 邊緣帶來墨水 時(shí)間: 2025-3-26 17:47
Advances in Chilli Pepper (, spp.) Improvement Using Modern Genetic Tools,iomics?driven. In recent times, genome editing tools are also being used to genetically modify chilli pepper varieties for different traits such as disease resistance, utilizing the CRISPR/Cas9 system. This chapter discusses the key developments in chilli pepper improvement using modern genetic tool作者: 騷擾 時(shí)間: 2025-3-26 22:51
Advances in Genetic Engineering for Pathogen Resistance in , L.,ic stresses in peppers. This chapter focuses on recent reports on development of biotic stress-resistant pepper through genetic engineering, for sustainable agriculture. It also discusses the molecular mechanisms of disease development, strategies to develop improved disease-resistant pepper varieti作者: 過于平凡 時(shí)間: 2025-3-27 03:33 作者: muscle-fibers 時(shí)間: 2025-3-27 07:30
Genetic Engineering for Potato Improvement: Current Challenges and Future Opportunities,umber of potential candidate genes have been identified for various traits. CRISPR/Cas-mediated genome editing can be employed to decipher their functionality and to improve various complex traits. This technique is also evolving, providing precise and efficient targeted editing, and opening various作者: BROTH 時(shí)間: 2025-3-27 12:02
Insect Pest Management in Rice Through Genetic Engineering,e possibility of employing non-. insecticidal proteins, such as lectins (carbohydrate-binding proteins), proteinase inhibitors, ribosome-inactivating proteins, secondary plant metabolites, small RNA viruses, etc., is also being investigated by several researchers Recently, CRISPR-based genome-editin作者: CLAIM 時(shí)間: 2025-3-27 16:11
Genetic Engineering of Squash for Food and Health Security,s been found that heterologous expression of squash genes results in greater resistance to oxidative injury. Furthermore, CRISPR/Cas technology has been employed to alter plant architecture and enhance yield, contributing to crop improvement programs.作者: 消耗 時(shí)間: 2025-3-27 19:44 作者: 過份艷麗 時(shí)間: 2025-3-28 01:50
Transgenic Technologies for , Wilt Management in Banana,ene silencing (HIGS). Recently, genome editing has emerged as a powerful tool that can be used for mitigating challenges from biotic stresses, in general, and toward developing a sustainable disease management strategy for . wilt of banana, in particular.作者: 不如屎殼郎 時(shí)間: 2025-3-28 02:36 作者: 先鋒派 時(shí)間: 2025-3-28 09:45
Genetic Improvement of Mustard,otic stresses. This chapter captures the collection of rapeseed–mustard genetic resources, including some systematic operations and an improvement plan for rapeseed–mustard via key objectives such as genetic manipulations and creating high-yielding types that can withstand biotic and abiotic stresso作者: Spina-Bifida 時(shí)間: 2025-3-28 14:27
Genetic Improvement of Mustard for Food and Health Security,chieve faithful genetic improvement, molecular breeding and gene engineering were proposed. These technologies consist of specific gene selection, isolation, transfer, and editing. Thus, the major purpose of this chapter is to introduce the reader to those tools, techniques, and methods that were he作者: handle 時(shí)間: 2025-3-28 18:30 作者: 不法行為 時(shí)間: 2025-3-28 21:34 作者: dialect 時(shí)間: 2025-3-29 00:32
Falko H. Herrmann,Martina Ch. Herrmanndvancements, such as the establishment of reference genomes, high-throughput genotyping assays, genetic resource databases, transcriptomics, and proteomic advancements, reliable linked DNA markers, comprehensive genetic maps, and marker-assisted breeding, which offer enormous potential for the intro作者: 改變 時(shí)間: 2025-3-29 04:48
Gotthard Stein,Hermann-Friedrich Wagnermercially accessible sooner..In?the present study, we make an effort to summarize the progress gained in developing?apple?cultivars with extended resistance on a digenic base of gene combining. So, it is essential to develop cultivars that are tolerant to biotic and abiotic stresses?by using various作者: 態(tài)度暖昧 時(shí)間: 2025-3-29 08:31
https://doi.org/10.1007/978-3-8348-8283-7as less chances of flower breeding. This makes carnation an ideal candidate for genetic engineering that has the potential to speed up the development of novel genotypes and broadening the available gene pool. Genetic engineering is the alternative way for varietal development and improvement of flo作者: 朝圣者 時(shí)間: 2025-3-29 13:59 作者: Irascible 時(shí)間: 2025-3-29 15:55
,?Grundgesetz‘ der IT-Sicherheit,es it easy to address these relevant areas to be improved through the genetic engineering approach. Currently, available genetically modified cassava varieties through gene editing and RNAi technology which are under controlled field trials include biofortified β-carotene and increased iron, zinc co作者: Foam-Cells 時(shí)間: 2025-3-29 20:00
Das Zusammenspiel der beiden Bereiche,everal wild species with the cultivated type is a debatable subject because of complex species-level distinction at the molecular level, which complicates the differentiation of the taxa. A variety of biotechnological approaches and tools have contributed to the genetic improvement and expansion of 作者: Anguish 時(shí)間: 2025-3-30 02:33
https://doi.org/10.1007/978-3-322-93666-0iomics?driven. In recent times, genome editing tools are also being used to genetically modify chilli pepper varieties for different traits such as disease resistance, utilizing the CRISPR/Cas9 system. This chapter discusses the key developments in chilli pepper improvement using modern genetic tool作者: 傻 時(shí)間: 2025-3-30 06:41 作者: Needlework 時(shí)間: 2025-3-30 10:07 作者: 乞丐 時(shí)間: 2025-3-30 15:26
https://doi.org/10.1007/978-3-658-37276-7umber of potential candidate genes have been identified for various traits. CRISPR/Cas-mediated genome editing can be employed to decipher their functionality and to improve various complex traits. This technique is also evolving, providing precise and efficient targeted editing, and opening various作者: farewell 時(shí)間: 2025-3-30 20:28
Postmoderne und Image(-Kommunikation),e possibility of employing non-. insecticidal proteins, such as lectins (carbohydrate-binding proteins), proteinase inhibitors, ribosome-inactivating proteins, secondary plant metabolites, small RNA viruses, etc., is also being investigated by several researchers Recently, CRISPR-based genome-editin作者: 陰險(xiǎn) 時(shí)間: 2025-3-31 00:24 作者: tolerance 時(shí)間: 2025-3-31 02:43
https://doi.org/10.1007/978-3-322-89279-9 still at a nascent stage. The other concerns include the lack of optimized genetic transformation protocols and policy regulations on transgenic approaches. Multiple crop improvement techniques such as conventional breeding (cross, mutagenesis, and protoplast fusion); genetic transformation (trans-作者: Truculent 時(shí)間: 2025-3-31 05:52
Das Individuum der Sozialen Arbeit,ene silencing (HIGS). Recently, genome editing has emerged as a powerful tool that can be used for mitigating challenges from biotic stresses, in general, and toward developing a sustainable disease management strategy for . wilt of banana, in particular.作者: 狂怒 時(shí)間: 2025-3-31 09:24 作者: N斯巴達(dá)人 時(shí)間: 2025-3-31 14:13
Allgemeine und begriffliche Grundlagen,otic stresses. This chapter captures the collection of rapeseed–mustard genetic resources, including some systematic operations and an improvement plan for rapeseed–mustard via key objectives such as genetic manipulations and creating high-yielding types that can withstand biotic and abiotic stresso作者: 縫紉 時(shí)間: 2025-3-31 20:08 作者: Cougar 時(shí)間: 2025-3-31 21:51 作者: 聯(lián)合 時(shí)間: 2025-4-1 04:17 作者: fallible 時(shí)間: 2025-4-1 09:36
Genetic Engineering of Crop Plants for Food and Health Security978-981-99-5034-8作者: 舊病復(fù)發(fā) 時(shí)間: 2025-4-1 12:41
