CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects

CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects

Technologies and innovations are critical for addressing the future food system needs where genetic resources are an essential component of the change process. Advanced breeding tools like “genome editing” are vital for modernizing crop breeding to provide game-changing solutions to some of the “must needed” traits in agriculture. CRISPR/Cas-based tools have been rapidly repurposed for editing applications based on their improved efficiency, specificity and reduced off-target effects. Additionally, precise gene-editing tools such as base editing, prime editing, and multiplexing provide precision in stacking of multiple traits in an elite variety, and facilitating specific and targeted crop improvement. This has helped in advancing research and delivery of products in a short time span, thereby enhancing the rate of genetic gains. A special focus has been on food security in the drylands through crops including millets, teff, fonio, quinoa, Bambara groundnut, pigeonpea and cassava. While these crops contribute significantly to the agricultural economy and resilience of the dryland, improvement of several traits including increased stress tolerance, nutritional value, and yields are urgently required. Although CRISPR has potential to deliver disruptive innovations, prioritization of traits should consider breeding product profiles and market segments for designing and accelerating delivery of locally adapted and preferred crop varieties for the drylands. In this context, the scope of regulatory environment has been stated, implying the dire impacts of unreasonable scrutiny of genome-edited plants on the evolution and progress of much-needed technological advances.

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Main Authors: Sharma, K.K., Palakolanu, S.R., Bhattacharya, J., Shankhapal, A.R., Bhatnagar-Mathur, P.
Format: Article biblioteca
Language:English
Published: Frontiers 2022
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, CRISPR/Cas9, New Breeding Technologies, Underutilized Crops, AGRICULTURE, VIGNA SUBTERRANEA, BREEDING, CASSAVA, CHENOPODIUM QUINOA, CRISPR, CROP IMPROVEMENT, ECONOMIC ASPECTS, FOOD SECURITY, GENE EDITING, GENETIC GAIN, GENETIC RESOURCES, MILLETS, NUTRITIVE VALUE, VELOCITY, GREEN REVOLUTION, SPEED BREEDING,
Online Access:https://hdl.handle.net/10883/22285
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spelling dig-cimmyt-10883-222852022-12-09T15:45:43Z CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects Sharma, K.K. Palakolanu, S.R. Bhattacharya, J. Shankhapal, A.R. Bhatnagar-Mathur, P. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY CRISPR/Cas9 New Breeding Technologies Underutilized Crops AGRICULTURE VIGNA SUBTERRANEA BREEDING CASSAVA CHENOPODIUM QUINOA CRISPR CROP IMPROVEMENT ECONOMIC ASPECTS FOOD SECURITY GENE EDITING GENETIC GAIN GENETIC RESOURCES MILLETS NUTRITIVE VALUE VELOCITY GREEN REVOLUTION SPEED BREEDING Technologies and innovations are critical for addressing the future food system needs where genetic resources are an essential component of the change process. Advanced breeding tools like “genome editing” are vital for modernizing crop breeding to provide game-changing solutions to some of the “must needed” traits in agriculture. CRISPR/Cas-based tools have been rapidly repurposed for editing applications based on their improved efficiency, specificity and reduced off-target effects. Additionally, precise gene-editing tools such as base editing, prime editing, and multiplexing provide precision in stacking of multiple traits in an elite variety, and facilitating specific and targeted crop improvement. This has helped in advancing research and delivery of products in a short time span, thereby enhancing the rate of genetic gains. A special focus has been on food security in the drylands through crops including millets, teff, fonio, quinoa, Bambara groundnut, pigeonpea and cassava. While these crops contribute significantly to the agricultural economy and resilience of the dryland, improvement of several traits including increased stress tolerance, nutritional value, and yields are urgently required. Although CRISPR has potential to deliver disruptive innovations, prioritization of traits should consider breeding product profiles and market segments for designing and accelerating delivery of locally adapted and preferred crop varieties for the drylands. In this context, the scope of regulatory environment has been stated, implying the dire impacts of unreasonable scrutiny of genome-edited plants on the evolution and progress of much-needed technological advances. 2022-12-07T20:29:46Z 2022-12-07T20:29:46Z 2022 Article Published Version https://hdl.handle.net/10883/22285 10.3389/fgene.2022.999207 English CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose Open Access Switzerland Frontiers 13 1664-8021 Frontiers in Genetics 999207
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
CRISPR/Cas9
New Breeding Technologies
Underutilized Crops
AGRICULTURE
VIGNA SUBTERRANEA
BREEDING
CASSAVA
CHENOPODIUM QUINOA
CRISPR
CROP IMPROVEMENT
ECONOMIC ASPECTS
FOOD SECURITY
GENE EDITING
GENETIC GAIN
GENETIC RESOURCES
MILLETS
NUTRITIVE VALUE
VELOCITY
GREEN REVOLUTION
SPEED BREEDING
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
CRISPR/Cas9
New Breeding Technologies
Underutilized Crops
AGRICULTURE
VIGNA SUBTERRANEA
BREEDING
CASSAVA
CHENOPODIUM QUINOA
CRISPR
CROP IMPROVEMENT
ECONOMIC ASPECTS
FOOD SECURITY
GENE EDITING
GENETIC GAIN
GENETIC RESOURCES
MILLETS
NUTRITIVE VALUE
VELOCITY
GREEN REVOLUTION
SPEED BREEDING
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
CRISPR/Cas9
New Breeding Technologies
Underutilized Crops
AGRICULTURE
VIGNA SUBTERRANEA
BREEDING
CASSAVA
CHENOPODIUM QUINOA
CRISPR
CROP IMPROVEMENT
ECONOMIC ASPECTS
FOOD SECURITY
GENE EDITING
GENETIC GAIN
GENETIC RESOURCES
MILLETS
NUTRITIVE VALUE
VELOCITY
GREEN REVOLUTION
SPEED BREEDING
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
CRISPR/Cas9
New Breeding Technologies
Underutilized Crops
AGRICULTURE
VIGNA SUBTERRANEA
BREEDING
CASSAVA
CHENOPODIUM QUINOA
CRISPR
CROP IMPROVEMENT
ECONOMIC ASPECTS
FOOD SECURITY
GENE EDITING
GENETIC GAIN
GENETIC RESOURCES
MILLETS
NUTRITIVE VALUE
VELOCITY
GREEN REVOLUTION
SPEED BREEDING
Sharma, K.K.
Palakolanu, S.R.
Bhattacharya, J.
Shankhapal, A.R.
Bhatnagar-Mathur, P.
CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
description Technologies and innovations are critical for addressing the future food system needs where genetic resources are an essential component of the change process. Advanced breeding tools like “genome editing” are vital for modernizing crop breeding to provide game-changing solutions to some of the “must needed” traits in agriculture. CRISPR/Cas-based tools have been rapidly repurposed for editing applications based on their improved efficiency, specificity and reduced off-target effects. Additionally, precise gene-editing tools such as base editing, prime editing, and multiplexing provide precision in stacking of multiple traits in an elite variety, and facilitating specific and targeted crop improvement. This has helped in advancing research and delivery of products in a short time span, thereby enhancing the rate of genetic gains. A special focus has been on food security in the drylands through crops including millets, teff, fonio, quinoa, Bambara groundnut, pigeonpea and cassava. While these crops contribute significantly to the agricultural economy and resilience of the dryland, improvement of several traits including increased stress tolerance, nutritional value, and yields are urgently required. Although CRISPR has potential to deliver disruptive innovations, prioritization of traits should consider breeding product profiles and market segments for designing and accelerating delivery of locally adapted and preferred crop varieties for the drylands. In this context, the scope of regulatory environment has been stated, implying the dire impacts of unreasonable scrutiny of genome-edited plants on the evolution and progress of much-needed technological advances.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
CRISPR/Cas9
New Breeding Technologies
Underutilized Crops
AGRICULTURE
VIGNA SUBTERRANEA
BREEDING
CASSAVA
CHENOPODIUM QUINOA
CRISPR
CROP IMPROVEMENT
ECONOMIC ASPECTS
FOOD SECURITY
GENE EDITING
GENETIC GAIN
GENETIC RESOURCES
MILLETS
NUTRITIVE VALUE
VELOCITY
GREEN REVOLUTION
SPEED BREEDING
author Sharma, K.K.
Palakolanu, S.R.
Bhattacharya, J.
Shankhapal, A.R.
Bhatnagar-Mathur, P.
author_facet Sharma, K.K.
Palakolanu, S.R.
Bhattacharya, J.
Shankhapal, A.R.
Bhatnagar-Mathur, P.
author_sort Sharma, K.K.
title CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
title_short CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
title_full CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
title_fullStr CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
title_full_unstemmed CRISPR for accelerating genetic gains in under-utilized crops of the drylands: Progress and prospects
title_sort crispr for accelerating genetic gains in under-utilized crops of the drylands: progress and prospects
publisher Frontiers
publishDate 2022
url https://hdl.handle.net/10883/22285
work_keys_str_mv AT sharmakk crisprforacceleratinggeneticgainsinunderutilizedcropsofthedrylandsprogressandprospects
AT palakolanusr crisprforacceleratinggeneticgainsinunderutilizedcropsofthedrylandsprogressandprospects
AT bhattacharyaj crisprforacceleratinggeneticgainsinunderutilizedcropsofthedrylandsprogressandprospects
AT shankhapalar crisprforacceleratinggeneticgainsinunderutilizedcropsofthedrylandsprogressandprospects
AT bhatnagarmathurp crisprforacceleratinggeneticgainsinunderutilizedcropsofthedrylandsprogressandprospects
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