Progress of Genomics-Driven Approaches for Sustaining Underutilized Legume Crops in the Post-Genomic Era

Jha, Uday Chand; Nayyar, Harsh; Parida, Swarup K.; Bakır, Melike; Wettberg, Eric J. B. von; Siddique, Kadambot H. M.

doi:10.3389/fgene.2022.831656

Cited by 11 publications

(7 citation statements)

References 278 publications

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“…This technology in association with base editors and prime editing could be used for de novo domestication of crop wild relatives (CWRs) of underutilized legumes and “reengineering of metabolism” to increase resilience and enhance nutritive value ( Gasparini et al., 2021 ; Nasti and Voytas, 2021 ). The genome-editing technologies could significantly contribute to legume improvement including black gram to enhance productivity through improving biotic and abiotic stress tolerances ( Jha et al., 2022 ; Mahto et al., 2022 ; Singh et al., 2023 ).…”

Section: Transgenic Research and Scope Of Genome Editingmentioning

confidence: 99%

“…The developments in the genome sequence could enable researchers to develop low-, mid-, and high-density SNP assays that can be used for new genomic discoveries and deployment of genomic predictions for selection decisions based on breeding values. These genomic-based predictions and speed breeding approaches could enhance genetic gain in legumes ( Jha et al., 2022 ). The novel insights into genomic variations for target traits, their evolution, domestication events, and diversification could be generated through genomic sequencing of CWRs, landraces, and improved breeding lines.…”

Section: Future Prospectsmentioning

confidence: 99%

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Genetics, genomics, and breeding of black gram [Vigna mungo (L.) Hepper]

Nair,

Chaudhari,

Devi

et al. 2024

Front. Plant Sci.

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Black gram [Vigna mungo (L.) Hepper] is a highly nutritious grain legume crop, mainly grown in South and Southeast Asia, with the largest area in India, where the crop is challenged by several biotic and abiotic stresses leading to significant yield losses. Improving genetic gains to increase on-farm yields is the primary goal of black gram breeding programs. This could be achieved by developing varieties resistant to major diseases like mungbean yellow mosaic disease, urdbean leaf crinkle virus, Cercospora leaf spot, anthracnose, powdery mildew, and insect pests such as whitefly, cowpea aphids, thrips, stem flies, and bruchids. Along with increasing on-farm yields, incorporating market-preferred traits ensures the adoption of improved varieties. Black gram breeding programs rely upon a limited number of parental lines, leading to a narrow genetic base of the developed varieties. For accelerating genetic gain, there is an urgent need to include more diverse genetic material for improving traits for better adaptability and stress resistance in breeding populations. The present review summarizes the importance of black gram, the major biotic and abiotic stresses, available genetic and genomic resources, major traits for potential crop improvement, their inheritance, and the breeding approaches being used in black gram for the development of new varieties.

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Section: Transgenic Research and Scope Of Genome Editingmentioning

confidence: 99%

Section: Future Prospectsmentioning

confidence: 99%

Genetics, genomics, and breeding of black gram [Vigna mungo (L.) Hepper]

Nair,

Chaudhari,

Devi

et al. 2024

Front. Plant Sci.

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“…The main convenience of grass pea lies in its tolerance to abiotic stresses, i.e., flood, waterlogged, salinity, and drought [2]. Despite enormous achievements and rapid advances in genome sequencing technologies, particularly, next generation sequencing, genomic information related to grass pea is still missing [44]. So far, very limited research has been carried out towards identifying possible ways for reducing the presence of b-ODAP and improving the nutritional content of this legume plant [45].…”

Section: Grass Peamentioning

confidence: 99%

Causes and Conditions for Reduced Cultivation and Consumption of Underutilized Crops: Is There a Solution?

et al. 2023

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Underutilized crops are described as plant species that were once popular but have since been neglected by mainstream agriculture for several reasons. A widespread monoculture agricultural revolution and a tendency toward more high-yielding varieties were the main reasons for the underutilization of certain crops. Remarkably, underutilized crops have endured even without formal support, which indicates that besides their exceptional nutritional value and beneficial effects on human health they contain desirable traits that could be useful for building resilience and adaptation to climate-changing environments. As such, the re-establishment of these plants to the global food system is desired. To find solutions for overcoming the obstacles for the reintroduction of these crops and to bring the neglected species back to cultivation and utilization, a comprehensive understanding of the potential reasons for the reduced cultivation of these crops is necessary. In this article, potential reasons, causes, and conditions for the decreased cultivation and consumption of certain crops are discussed with a presentation of case studies of the following species: buckwheat, lentils, green leafy vegetables, sow thistle, grass pea, cucumber melon, and eggplant. Finally, potential solutions for overcoming the identified obstacles associated with both the cultivation and consumption of certain underutilized crops and neglected species are provided. Documented benefits of the production of various crops in agricultural production systems and the beneficial effects of increased consumption of these crops for human health should stimulate and encourage people from various disciplines, i.e., farmers, researchers, agronomists, nutritionists, and policymakers to join the efforts to bring neglected species back to cultivation and consumption.

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“…Variability is also available for these traits and QTLs associated with higher levels of protein, amino acids, oil, minerals or anti-nutritional compounds have been identified (Bohra et al, 2015; Shunmugam et al, 2015; Vaz Patto et al, 2015; Ma et al, 2017; Mendes et al, 2021; Rosso et al, 2021; Dhull et al, 2022; Tacke et al, 2022; Mecha et al, 2023; Zhou et al, 2023) that will allow selection processes to be accelerated. Breeding offers avenues to improve also sulfur amino acid composition and mineral biofortification (Krishnan et al, 2018; Jha et al, 2022; Joshi-Saha et al, 2022).…”

Section: Breeding Objectives To Better Meet Agroecological Requirementsmentioning

confidence: 99%

Plant breeding is needed to meet agroecological requirements: Legume crops as a case study

Rubiales

2023

Outlook Agric

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Legume-based cropping systems are regaining interest due to the environmental services and the variety of food and feed uses they provide, this having special interest in agroecological systems. There are many legume crops that can be adopted but focused breeding is needed to better meet the specific requirements of each system, especially in the situation of changing climate and often stressful environments. Standard breeding methods remain valid, from classical selection, to genomic assisted-breeding, profiting from the modern biotechnological and genomic approaches which are rapidly developing for most legume crops. Rather than focusing on the tools, emphasis is needed on the breeding targets, which might be different from those of high input agriculture such as improved response to symbiosis, nutrient and water use efficiency and tolerance to biotic and abiotic stresses becoming priorities. Breeding for these traits requires the infusion of genetic diversity from landraces or wild relatives by pre-breeding. Prospects and constraints are discussed.

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Progress of Genomics-Driven Approaches for Sustaining Underutilized Legume Crops in the Post-Genomic Era

Cited by 11 publications

References 278 publications

Genetics, genomics, and breeding of black gram [Vigna mungo (L.) Hepper]

Genetics, genomics, and breeding of black gram [Vigna mungo (L.) Hepper]

Causes and Conditions for Reduced Cultivation and Consumption of Underutilized Crops: Is There a Solution?

Plant breeding is needed to meet agroecological requirements: Legume crops as a case study

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