A Roadmap for Plant Genome Editing / edited by Agnès Ricroch, Dennis Eriksson, Dragana Miladinović, Jeremy Sweet, Katrijn Van Laere, Ewa Woźniak-Gientka.

Format:

Book

Contributor:

Ricroch, A. (Agnès), editor.

Eriksson, Dennis., editor.

Lozanović-Miladinović, Dragana.

Sweet, Jeremy, editor.

Laere, K. van.

Language:

English

Subjects (All):

Botany.

Plant genetics.

Agriculture.

Plant Science.

Plant Genetics.

Local Subjects:

Plant Science.

Plant Genetics.

Agriculture.

Physical Description:

X, 561 pages, illustration; 24cm, hardback

Edition:

1st ed. 2024.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2024.

Summary:

This open access book is an update of genome editing techniques applied to a range of plants. We discuss the latest techniques and applications to cereals, roots and tubers, oilseed crops, fruit and forest trees, vegetables, legumes and algae including resistance to biotic and abiotic stresses, improved quality, drug production, yield and adaptation to climate change. The regulations in different countries worldwide, the patentibility and the perception by society of the applications of new genomic techniques are examined. This book is written by a multidisciplinary and multisectoral collective of high-profile scientists and other experts belonging to the COST Action network PlantEd, which is mainly European but with contributions from American, Australian, Canadian, Chinese, Indian, Iranian, Pakistani and Peruvian scientists. The book is aimed at a wide audience consisting of students, academics, private and public breeders, other actors in the food and bioeconomy valuechains and policy and law makers.

Contents:

Section 0- Editorial

Section 1- Plant breeding and Technological Advances

Chapter 1 Genome editing of gene families for crop improvement

Chapter 2 Base editing and Prime editing

Chapter 3 Novel delivery methods for CRISPR-based plant genome editing + Figure

Chapter 4 Balancing trait improvement with tradeoff side-effects using genome editing technology

Chapter 5 CRISPR/Cas mutation screening: from mutant allele detection to prediction of protein coding potential

Chapter 6 Methods and techniques to select efficient and specific guides for CRISPR-mediated genome editing in plants

Section 2- Applications of Genome Editing

Chapter 7 Genome editing of a macroalgae with possible global impacts

Chapter 8 A Short Review of Advances in Plant-Based Antigen Production Strategies and the Production of Viral Vaccine Antigens Derived from CRISPR/Cas9 Genome Edited Nicotiana benthamiana Plants for Enhanced Vaccine Efficacy

Chapter 9 Precise gene editing of cereals using CRISPR/Cas technology

Chapter 10 Implementing genome editing in barley breeding

Chapter 11 Current status and future prospective of genome editing application in maize

Chapter 12 Using gene editing strategies for wheat improvement

Chapter 13 Gene Editing of Wheat to Reduce Coeliac Disease Epitopes in Gluten

Chapter 14 Genome Editing in Horticultural Plants: Present Applications and Future Perspective

Chapter 15 Application of CRISPR/Cas-mediated genome editing techniques in leguminous crops

Chapter 16 Genetic improvement in leguminous crops through genome editing

Chapter 17 Soybean improvement and the role of gene editing

Chapter 18 Oilseed rape (Brassica napus L.) CRISPR/Cas-based precision breeding – recent improvements

Chapter 19 Targeted gene editing in pome fruit genetics and breeding: state-of-the-art, application potential and perspectives

Chapter 20 Genome editing in forest trees

Chapter 21 Genome editing for reduction of bitterness and for production of medicinal terpenes in Cichorium species

Chapter 22 Engineering phytonutrient content of tomato by genome editing technologies

Chapter 23 Breeding for yield quality parameters and abiotic stress in tomato using genome editing

Chapter 24 Genome Editing-Based Strategies Used to Enhance Crop Resistance to Parasitic Weeds

Chapter 25 Genome editing in biotech regulations worldwide

Chapter 26 Interpreting Precision Breeding: Key legal concepts under international law and current domestic regulatory approaches in the Global South

Chapter 27 CRISPR Processes Patents in Green Biotechnology: Collaborative Licensing Models

Section 4- Public and stakeholder perceptions

Chapter 28 The view of the European seed sector on genome editing tools in plant breeding

Chapter 29 The awareness of the Polish society on new genomic techniques

Chapter 30 Improving Science Communication about Genome Editing – Mitigating Strong Moral Convictions through Shared Moral Goals

Chapter 31 The citizens’ awareness and concerns during the transition from Genetically Modified to Genome Edited plants in Europe about their use in agriculture and food production

Chapter 32 What is the problem with Europe in a philosophical point of view?

Chapter 33 NGT plant products in the EU. The postulates, the outlooks, and possible consequences of a regulatory system reform in the context of legislative reforms in third countries and detection requirements

Section 5- Future outlook.

ISBN:

3-031-46150-9

OCLC:

1415972027