標(biāo)題: Titlebook: Genome Editing; Current Technology A Shabir Hussain Wani,Goetz Hensel Book 2022 The Editor(s) (if applicable) and The Author(s), under excl [打印本頁(yè)] 作者: Orthosis 時(shí)間: 2025-3-21 17:20
書目名稱Genome Editing影響因子(影響力)
書目名稱Genome Editing影響因子(影響力)學(xué)科排名
書目名稱Genome Editing網(wǎng)絡(luò)公開度
書目名稱Genome Editing網(wǎng)絡(luò)公開度學(xué)科排名
書目名稱Genome Editing被引頻次
書目名稱Genome Editing被引頻次學(xué)科排名
書目名稱Genome Editing年度引用
書目名稱Genome Editing年度引用學(xué)科排名
書目名稱Genome Editing讀者反饋
書目名稱Genome Editing讀者反饋學(xué)科排名
作者: 挖掘 時(shí)間: 2025-3-22 00:07
Usability Design and Evaluation,ificity and ability to simultaneously silence multiple genes. CRISPR/Cas9 has become a method of choice for researchers worldwide to improve crop yield, quality and reduce disease susceptibility. Many food crops, including maize, rice, wheat, tomato, potato and citrus have successfully undergone gen作者: 混合,攙雜 時(shí)間: 2025-3-22 00:53
https://doi.org/10.1007/978-1-84996-166-0ses of a CRISPR-associated (Cas)9 protein and an engineered sgRNA that specifically targets the nucleic acid sequence to induce selective mutagenesis. In this chapter, various CRISPR/Cas-based approaches are discussed with emphasis on CRISPR/Cas9 vector platforms, multiplex editing strategies, analy作者: Harness 時(shí)間: 2025-3-22 05:18 作者: 展覽 時(shí)間: 2025-3-22 08:44 作者: ESPY 時(shí)間: 2025-3-22 15:29 作者: ESPY 時(shí)間: 2025-3-22 20:38
Designing Microservices with Djangocertainties such as off-target effects, approval, and regulation of genetically altered plants. The chapter provides a detailed rundown toward the application of CRISPR/Cas9 in increasing the resistance in plants against bacterial pathogens and dealing with restrictions associated with the technique作者: Digest 時(shí)間: 2025-3-22 21:11 作者: 赦免 時(shí)間: 2025-3-23 01:41
very new target site for each experiment. The difficulty in cloning and protein engineering prevented these tools from being broadly adopted by the scientific community.? Compared to these technologies, designi978-3-031-08074-6978-3-031-08072-2作者: Notify 時(shí)間: 2025-3-23 05:58 作者: predict 時(shí)間: 2025-3-23 12:55 作者: 寬度 時(shí)間: 2025-3-23 15:29 作者: Congestion 時(shí)間: 2025-3-23 18:26 作者: 情感脆弱 時(shí)間: 2025-3-24 00:54 作者: right-atrium 時(shí)間: 2025-3-24 03:52
Genome Editing in Plants for Resistance Against Bacterial Pathogenscertainties such as off-target effects, approval, and regulation of genetically altered plants. The chapter provides a detailed rundown toward the application of CRISPR/Cas9 in increasing the resistance in plants against bacterial pathogens and dealing with restrictions associated with the technique作者: 吊胃口 時(shí)間: 2025-3-24 09:31
Improvement of Resistance in Plants Against Insect-Pests Using Genome Editing Toolseiterate the effective utilization of these techniques in insect-pest management as well as plant in resistance against pests are highlighted. This chapter also highlights the implication of genome editing as well as framework for its specific regulation.作者: 祖先 時(shí)間: 2025-3-24 11:40
Usability Design and Evaluation,. The current situation enabled researchers to successfully investigate molecular mechanisms by identifying target genes to produce desirable plants. High-yielding stress-resistant crops are needed to achieve food security for the world’s increasing population. In this context, genetic engineering t作者: tackle 時(shí)間: 2025-3-24 17:54
https://doi.org/10.1007/978-1-84800-211-1ble crops include a wide variety of species having high genetic diversity and form a crucial part of the human diet worldwide. Recent biotechnological interventions have allowed for incorporation of desired traits into target varieties. Among these interventions, genome editing has gained widespread作者: 前兆 時(shí)間: 2025-3-24 21:37 作者: Germinate 時(shí)間: 2025-3-24 23:52
Judith Kearney,Lesley Wood,Richard Tearet species, including plants, bacteria, and animals. Site-directed nucleases were earlier used for genome editing, and nowadays, CRISPR/Cas (clustered regularly interspaced short palindromic repeats)-based genome editing technology is popular among scientists due to its simplicity, flexibility, and e作者: 粘 時(shí)間: 2025-3-25 06:19 作者: irradicable 時(shí)間: 2025-3-25 07:43
Ezra Dessers,Mieke Van Gramberen time. Different Cas proteins have other binding prerequisites associated with the mechanistic interaction between Cas proteins and genomic DNA. The gene-specific protospacer-associated motif (PAM) for the common SpCas9 is NGG. Although this is a common motif frequently found in plant genic sequence作者: Expertise 時(shí)間: 2025-3-25 14:24 作者: considerable 時(shí)間: 2025-3-25 16:37 作者: 天文臺(tái) 時(shí)間: 2025-3-25 22:06
Evaluating and Teaching Task Design,f crop species. The sole requirements for CRISPR/Cas-based gene editing are a guide RNA and a Cas protein. As a result, DNA-free methods employing Cas9/gRNA ribonucleoprotein (RNP) delivery have been developed to genome edit a variety of crop species and tissue types. In plants, common RNP-mediated 作者: 可行 時(shí)間: 2025-3-26 01:17 作者: Heart-Rate 時(shí)間: 2025-3-26 04:51 作者: 省略 時(shí)間: 2025-3-26 11:07 作者: FLACK 時(shí)間: 2025-3-26 15:20 作者: paragon 時(shí)間: 2025-3-26 19:51 作者: chronology 時(shí)間: 2025-3-26 21:03 作者: Legend 時(shí)間: 2025-3-27 02:32
978-3-031-08074-6The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerl作者: creditor 時(shí)間: 2025-3-27 08:40
https://doi.org/10.1007/978-3-031-08072-2Transgenic breeding; Genomic selection; CRISPR/Cas9; Cas endonucleases; gene targeting; biotic stress; abi作者: Hearten 時(shí)間: 2025-3-27 11:14 作者: 指耕作 時(shí)間: 2025-3-27 17:05 作者: 系列 時(shí)間: 2025-3-27 21:04 作者: 全神貫注于 時(shí)間: 2025-3-27 23:01 作者: 得意人 時(shí)間: 2025-3-28 04:58 作者: 收到 時(shí)間: 2025-3-28 07:16
Multiplexed Genome Editing in Plants Using CRISPR/Cas-Based Endonuclease Systemsizes strategies and the basic principles of multiplexed genome editing. It introduces the two-component transcriptional unit multiplex system, multiplexing using a single Pol III promoter, using bidirectional promoters, and highlights applications using the respective cloning procedure.作者: AMPLE 時(shí)間: 2025-3-28 13:48
Transgene-Free Genome Editing in Plants of any transgene, simplifying the regulatory processes in many jurisdictions around the globe. In this chapter, we present methods and delivery methods that can be used for transgene-free editing and present first promising examples.作者: gimmick 時(shí)間: 2025-3-28 17:17
https://doi.org/10.1007/978-1-84800-211-1en utilized extensively and curated accordingly for the improvement of vegetable crops. This chapter focuses on the progress and challenges pertaining to CRISPR/Cas and will also shed light on the biosafety aspect of genome editing in vegetable germplasms globally.作者: 紋章 時(shí)間: 2025-3-28 20:14
Ezra Dessers,Mieke Van Gramberenfferent PAM requirements. In addition, the in vitro evolution of canonical Cas proteins expanded the toolbox further. This chapter introduces the natural origin of Cas proteins, summarises PAM requirements and Cas engineering, and highlights the new functionalities through fusion with exogenous protein domains, base and prime editing.作者: 整潔 時(shí)間: 2025-3-28 23:01
Evaluating and Teaching Task Design,ese approaches show promise for enabling . transformation techniques that may ultimately bypass lengthy in vitro tissue culture and regeneration steps. This chapter gives an overview of the current status of editing with ribonucleoprotein complexes in plants while giving vision for future prospects in this field.作者: 腐爛 時(shí)間: 2025-3-29 06:20
https://doi.org/10.1007/978-1-4842-6379-2ible by the development of clustered regularly interspaced short palindromic repeats (CRISPR) and clustered regularly interspaced short palindromic repeats-associated (Cas) protein. The CRISPR-Cas9 technology is just precise, but also very efficient.作者: MAUVE 時(shí)間: 2025-3-29 08:15
Vegetable Crop Improvement Through CRISPR Technology for Food Securityen utilized extensively and curated accordingly for the improvement of vegetable crops. This chapter focuses on the progress and challenges pertaining to CRISPR/Cas and will also shed light on the biosafety aspect of genome editing in vegetable germplasms globally.作者: Amorous 時(shí)間: 2025-3-29 14:20
New Cas Endonuclease Variants Broadening the Scope of the CRISPR Toolboxfferent PAM requirements. In addition, the in vitro evolution of canonical Cas proteins expanded the toolbox further. This chapter introduces the natural origin of Cas proteins, summarises PAM requirements and Cas engineering, and highlights the new functionalities through fusion with exogenous protein domains, base and prime editing.作者: 未成熟 時(shí)間: 2025-3-29 18:07
Genome Editing by Ribonucleoprotein Based Delivery of the Cas9 System in Plantsese approaches show promise for enabling . transformation techniques that may ultimately bypass lengthy in vitro tissue culture and regeneration steps. This chapter gives an overview of the current status of editing with ribonucleoprotein complexes in plants while giving vision for future prospects in this field.作者: misshapen 時(shí)間: 2025-3-29 23:13 作者: Banister 時(shí)間: 2025-3-30 00:31
Can Virtual Be as Effective as Real?, are useful for molecular breeding and functional studies of genomes for important agronomic features but also for the manufacture of health-promoting proteins. This overview outlines the most recent development in these areas, also as the viral vectors that are accessible for commercially significant crops and much further.作者: Latency 時(shí)間: 2025-3-30 06:31 作者: Coordinate 時(shí)間: 2025-3-30 10:17
Virus-Mediated Delivery of CRISPR/CAS9 System in Plants are useful for molecular breeding and functional studies of genomes for important agronomic features but also for the manufacture of health-promoting proteins. This overview outlines the most recent development in these areas, also as the viral vectors that are accessible for commercially significant crops and much further.作者: bronchiole 時(shí)間: 2025-3-30 15:57
Applications of Gene Drive for Weeds and Pest Management Using CRISPR/Cas9 System in Plantsheir ability to increase yield and combat food insecurity. In principle, gene drives offer great potential for controlling agricultural pests, insect vectors of disease, and weed management. This chapter thus describes the control of weeds and insect pests using gene drive technologies.作者: 天文臺(tái) 時(shí)間: 2025-3-30 17:45 作者: Musculoskeletal 時(shí)間: 2025-3-31 00:42
Vegetable Crop Improvement Through CRISPR Technology for Food Securityble crops include a wide variety of species having high genetic diversity and form a crucial part of the human diet worldwide. Recent biotechnological interventions have allowed for incorporation of desired traits into target varieties. Among these interventions, genome editing has gained widespread作者: AV-node 時(shí)間: 2025-3-31 01:36 作者: 無能的人 時(shí)間: 2025-3-31 08:23
Genome Editing: A Review of the Challenges and Approachest species, including plants, bacteria, and animals. Site-directed nucleases were earlier used for genome editing, and nowadays, CRISPR/Cas (clustered regularly interspaced short palindromic repeats)-based genome editing technology is popular among scientists due to its simplicity, flexibility, and e作者: Fracture 時(shí)間: 2025-3-31 09:32
