Plant breeding advancements with “CRISPR-Cas” genome editing technologies will assist future food security

Ahmad, Muhammad Shakil

doi:10.3389/fpls.2023.1133036

Cited by 34 publications

(26 citation statements)

References 135 publications

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“…Many candidate genes involved in the production of volatile and non-volatile compounds have been proposed in this review. Their functional role in the development of off-flavor in faba bean could be validated by CRISPR/Cas9 gene editing technology, which is revolutionising the research in plant breeding ( Ahmad, 2023 ). CRISPR/Cas9-based genome editing employs the Cas9 endonuclease to make precise cuts in DNA.…”

Section: Prospects For the Development Of Faba Bean Ideotypes With Ne...mentioning

confidence: 99%

The challenge of breeding for reduced off-flavor in faba bean ingredients

Lippolis,

Roland,

Bocova

et al. 2023

Front. Plant Sci.

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The growing interest in plant protein sources, such as pulses, is driven by the necessity for sustainable food production and climate change mitigation strategies. Faba bean (Vicia faba L.) is a promising protein crop for temperate climates, owing to its remarkable yield potential (up to 8 tonnes ha−1 in favourable growing conditions) and high protein content (~29% dry matter basis). Nevertheless, the adoption of faba bean protein in plant-based products that aim to resemble animal-derived counterparts is hindered by its distinctive taste and aroma, regarded as “off-flavors”. In this review, we propose to introduce off-flavor as a trait in breeding programs by identifying molecules involved in sensory perception and defining key breeding targets. We discuss the role of lipid oxidation in producing volatile and non-volatile compounds responsible for the beany aroma and bitter taste, respectively. We further investigate the contribution of saponin, tannin, and other polyphenols to bitterness and astringency. To develop faba bean varieties with diminished off-flavors, we suggest targeting genes to reduce lipid oxidation, such as lipoxygenases (lox) and fatty acid desaturases (fad), and genes involved in phenylpropanoid and saponin biosynthesis, such as zero-tannin (zt), chalcone isomerase (chi), chalcone synthase (chs), β-amyrin (bas1). Additionally, we address potential challenges, including the need for high-throughput phenotyping and possible limitations that could arise during the genetic improvement process. The breeding approach can facilitate the use of faba bean protein in plant-based food such as meat and dairy analogues more extensively, fostering a transition toward more sustainable and climate-resilient diets.

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Section: Prospects For the Development Of Faba Bean Ideotypes With Ne...mentioning

confidence: 99%

The challenge of breeding for reduced off-flavor in faba bean ingredients

Lippolis,

Roland,

Bocova

et al. 2023

Front. Plant Sci.

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“…Advances in plant-breeding-based technologies have contributed significantly to sugarcane improvement in recent decades [ 10 , 11 , 12 ]. For instance, sugarcane breeders interested in increasing herbicide resistance crossed Saccharum officinarum (2n = 8x = 80; x = 10) with a wild and vigorous relative, S. spontaneum (2n = 5 − 16x = 40 − 128; x = 8), and then backcrossed the hybrids with S. officinarum .…”

Section: Introductionmentioning

confidence: 99%

Establishment of an Efficient Sugarcane Transformation System via Herbicide-Resistant CP4-EPSPS Gene Selection

Wang,

Javed,

Shen

et al. 2024

Plants

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Sugarcane (Saccharum spp.), a major cash crop that is an important source of sugar and bioethanol, is strongly influenced by the impacts of biotic and abiotic stresses. The intricate polyploid and aneuploid genome of sugarcane has shown various limits for conventional breeding strategies. Nonetheless, biotechnological engineering currently offers the best chance of introducing commercially significant agronomic features. In this study, an efficient Agrobacterium-mediated transformation system that uses the herbicide-resistant CP4-EPSPS gene as a selection marker was developed. Notably, all of the plants that were identified by PCR as transformants showed significant herbicide resistance. Additionally, this transformation protocol also highlighted: (i) the high yield of transgenic lines from calli (each gram of calli generated six transgenic lines); (ii) improved selection; and (iii) a higher transformation efficiency. This protocol provides a reliable tool for a routine procedure for the generation of resilient sugarcane plants.

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“…A plethora of novel avenues opened by genomics and genome editing approaches are attributed to the evolution of valuable tools like next-generation sequencing (NGS) methods, state-of-the-art genotyping arrays, genome mapping and genomic selection technologies that have helped to expedite the crop breeding processes. Likewise, new gene editing platforms have allowed precise editing of agronomically important genes to generate new varieties with desired characteristics ( Zhang 2020 ; Ahmad 2023 ).…”

Section: Introductionmentioning

confidence: 99%

“…The deployment of these technologies has laid down the foundation of modern breeding for effectively channelizing the underutilized diversity hidden in the crop wild relatives into elite gene pools ( Sehgal et al, 2015 ; 2017 ; 2020 ; Singh et al, 2018 ; Singh et al, 2021 ). The advanced breeding programs are assisted by cutting-edge genomics, sequencing and genome editing technologies and have integrated artificial intelligence, machine learning bioinformatics and other related disciplines to meet the global food demands ( Huang et al, 2022 ; Robert et al, 2022 ; Ahmad 2023 ).…”

Section: Introductionmentioning

confidence: 99%