Integrated omics approaches for flax improvement under abiotic and biotic stress: Current status and future prospects

Yadav, Bindu; Kaur, Vikender; Narayan, Om; Yadav, Shashank Kumar; Kumar, Ashok; Wankhede, Dhammaprakash Pandhari

doi:10.3389/fpls.2022.931275

Cited by 20 publications

(26 citation statements)

References 217 publications

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“…The application of omics technologies for the improvement of plant traits has enabled significant advances in recent years, as summarized in different reviews; (Großkinsky et al, 2017;Zander et al, 2020;Jamil et al, 2020;Yang et al, 2021) which describe, for the most part, partial integrative approaches, the application of different omics levels to address specific plant models and traits (Rasheed et al, 2013;Singh et al, 2020;Yadav et al, 2022), or the use of modeling and simulation to drive discovery and optimization (Matthews and Marshall-Coloń, 2021;Marshall-Colon, 2022). The creation of global networks, such as the International Plant Phenotyping Network (IPPN), (IPPN, 2022) is also contributing to the visibility, information sharing, and application of omics science and technology in agriculture.…”

Section: Introductionmentioning

confidence: 99%

The ÓMICAS alliance, an international research program on multi-omics for crop breeding optimization

Jaramillo-Botero¹,

Colorado²,

Quimbaya³

et al. 2022

Front. Plant Sci.

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The OMICAS alliance is part of the Colombian government’s Scientific Ecosystem, established between 2017-2018 to promote world-class research, technological advancement and improved competency of higher education across the nation. Since the program’s kick-off, OMICAS has focused on consolidating and validating a multi-scale, multi-institutional, multi-disciplinary strategy and infrastructure to advance discoveries in plant science and the development of new technological solutions for improving agricultural productivity and sustainability. The strategy and methods described in this article, involve the characterization of different crop models, using high-throughput, real-time phenotyping technologies as well as experimental tissue characterization at different levels of the omics hierarchy and under contrasting conditions, to elucidate epigenome-, genome-, proteome- and metabolome-phenome relationships. The massive data sets are used to derive in-silico models, methods and tools to discover complex underlying structure-function associations, which are then carried over to the production of new germplasm with improved agricultural traits. Here, we describe OMICAS’ R&D trans-disciplinary multi-project architecture, explain the overall strategy and methods for crop-breeding, recent progress and results, and the overarching challenges that lay ahead in the field.

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Section: Introductionmentioning

confidence: 99%

The ÓMICAS alliance, an international research program on multi-omics for crop breeding optimization

Jaramillo-Botero¹,

Colorado²,

Quimbaya³

et al. 2022

Front. Plant Sci.

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“…The causative pathogens, their lifestyle and affected flax organs are detailed in Table 2. There is no general survey or data on flax yield losses due to the different diseases, but the most damaging effects are due to wilts, rust and pasmo [9]. Managing this broad range of diseases can be challenging because each pathogen has its own characteristics, such as its mode of transmission, the affected plant organ and the developmental stage of the plant when infection occurs.…”

Section: Rankingmentioning

confidence: 99%

Overview and Management of the Most Common Eukaryotic Diseases of Flax (Linum usitatissimum)

Moyse,

Lecomte,

Marcou

et al. 2023

Plants

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Flax is an important crop cultivated for its seeds and fibers. It is widely grown in temperate regions, with an increase in cultivation areas for seed production (linseed) in the past 50 years and for fiber production (fiber flax) in the last decade. Among fiber-producing crops, fiber flax is the most valuable species. Linseed is the highest omega-3 oleaginous crop, and its consumption provides several benefits for animal and human health. However, flax production is impacted by various abiotic and biotic factors that affect yield and quality. Among biotic factors, eukaryotic diseases pose a significant threat to both seed production and fiber quality, which highlights the economic importance of controlling these diseases. This review focuses on the major eukaryotic diseases that affect flax in the field, describing the pathogens, their transmission modes and the associated plant symptoms. Moreover, this article aims to identify the challenges in disease management and provide future perspectives to overcome these biotic stresses in flax cultivation. By emphasizing the key diseases and their management, this review can aid in promoting sustainable and profitable flax production.

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“…Interestingly, 45 of the identified QTLs spanned 85 resistance gene analogs including a large toll interleukin receptor, nucleotide-binding site, and leucine-rich repeat (TNL) type gene cluster (213). In a similar fashion, GWAS have been deployed in the genetic dissection of other complex traits in linseed including fiber-related traits, fatty acid biosynthesis, mucilage and seed hull content, capsule numbers, branch numbers, and other important agronomic traits (21,214,(226)(227)(228). Detailed information on GWAS in linseed has been presented (Supplementary Table 3).…”

Section: Qtl Mapping and Genome-wide Association Analysismentioning

confidence: 99%

“…Renewed interest has led to an increase in consumer demand for linseed-based products not only for culinary use but also for novel industrial applications, such as geotextiles, biopolymers, and biofuels. However, unpredictable environmental stresses, such as drought, salinity, heat, diseases, and pest pressure, result in huge losses in yield and quality of oil/fiber (20)(21)(22)(23). Hence, in the near future, climate change may exert strong pressure on flax breeding programs to adapt cultivars to changing conditions at an accelerating rate.…”

Section: Introductionmentioning

confidence: 99%

Diversity of Linum genetic resources in global genebanks: from agro-morphological characterisation to novel genomic technologies – a review

et al. 2023

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Linseed or flaxseed is a well-recognized nutritional food with nutraceutical properties owing to high omega-3 fatty acid (α-Linolenic acid), dietary fiber, quality protein, and lignan content. Currently, linseed enjoys the status of a ‘superfood’ and its integration in the food chain as a functional food is evolving continuously as seed constituents are associated with lowering the risk of chronic ailments, such as heart diseases, cancer, diabetes, and rheumatoid arthritis. This crop also receives much attention in the handloom and textile sectors as the world’s coolest fabric linen is made up of its stem fibers which are endowed with unique qualities such as luster, tensile strength, density, bio-degradability, and non-hazardous nature. Worldwide, major linseed growing areas are facing erratic rainfall and temperature patterns affecting flax yield, quality, and response to biotic stresses. Amid such changing climatic regimes and associated future threats, diverse linseed genetic resources would be crucial for developing cultivars with a broad genetic base for sustainable production. Furthermore, linseed is grown across the world in varied agro-climatic conditions; therefore it is vital to develop niche-specific cultivars to cater to diverse needs and keep pace with rising demands globally. Linseed genetic diversity conserved in global genebanks in the form of germplasm collection from natural diversity rich areas is expected to harbor genetic variants and thus form crucial resources for breeding tailored crops to specific culinary and industrial uses. Global genebank collections thus potentially play an important role in supporting sustainable agriculture and food security. Currently, approximately 61,000 germplasm accessions of linseed including 1,127 wild accessions are conserved in genebanks/institutes worldwide. This review analyzes the current status of Linum genetic resources in global genebanks, evaluation for agro-morphological traits, stress tolerance, and nutritional profiling to promote their effective use for sustainable production and nutrition enhancement in our modern diets.

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Integrated omics approaches for flax improvement under abiotic and biotic stress: Current status and future prospects

Cited by 20 publications

References 217 publications

The ÓMICAS alliance, an international research program on multi-omics for crop breeding optimization

The ÓMICAS alliance, an international research program on multi-omics for crop breeding optimization

Overview and Management of the Most Common Eukaryotic Diseases of Flax (Linum usitatissimum)

Diversity of Linum genetic resources in global genebanks: from agro-morphological characterisation to novel genomic technologies – a review

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