Understanding photothermal interactions will help expand production range and increase genetic diversity of lentil (<i>Lens culinaris</i>Medik.)

Wright, Derek; Neupane, Sandesh; Heidecker, Taryn; Haile, Teketel A.; Chan, Crystal; Coyne, Clarice J.; McGee, Rebecca J.; Udupa, Sripada M.; Henkrar, Fatima; Barilli, Eleonora; Rubiales, Diego; Gioia, Tania; Logozzo, Giuseppina; Marzario, Stefania; Mehra, Reena; Sarker, Ashutosh; Dhakal, Rajeev; Anwar, Babul; Sarkar, Debashish; Vandenberg, Albert; Bett, Kirstin E.

doi:10.1002/ppp3.10158

Cited by 33 publications

(70 citation statements)

References 56 publications

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“…The physiological similarity between ILL 2601 and the Medicago mutants described above strengthens the idea that the FTa1 - FTa2 intergenic deletion might be the causal polymorphism for the observed FTa1 upregulation. In view of its potential significance, we designed a PCR-based specific marker for this polymorphism (Supplementary Table 10, Supplementary Figure 8), and examined its prevalence in a lentil collection of 48 accessions available at the University of Tasmania and across a broader diversity panel of 324 accessions (Wright et al 2021), both selected to cover a wide range of geographic origins. Results from the screening were similar in both collections and show that, globally, the deletion is common within lentil germplasm and 23-37.5% of all accessions carry the deletion ( Supplementary Figure 9, Supplementary Figure 10 ).…”

Section: Resultsmentioning

confidence: 99%

“…However, its subsequent spread south to the Indian subcontinent and Ethiopia, and north to the Caucasus and beyond, likely depended on significant phenological changes suited to different seasonal climates and cropping patterns. Some insight into this variation was provided by physiological studies which distinguished independent influences of photoperiod and temperature across diverse lentil accessions and described flowering behaviour with a simple photo-thermal model (Summerfield et al 1985;Erskine et al 1990;Wright et al 2021). These studies also observed variation in relative responsiveness to photoperiod and temperature, as well as in time-to-flower under the most inductive conditions, identifying several lines showing minimal acceleration of flowering with increases to temperature, and several others relatively unresponsive to photoperiod (Erskine et al 1990).…”

Section: Introductionmentioning

confidence: 99%

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Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits

Weller

Hecht

Martinez

et al. 2021

Preprint

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Reproductive phenology is well known to be a key feature of crop adaptation to diverse ecogeographic variation and management practices. Lentil is one of the founder pulse crops of middle-eastern Neolithic agriculture, and the modern-day domesticated lentil germplasm is generally considered to form three broad adaptation groups: Mediterranean, South Asian and northern temperate, which correspond approximately to the major global production environments. Understanding the molecular basis of these adaptations is crucial to maximise efficiency of breeding programs. Here, we use a QTL approach to dissect the earliness that is characteristic of the South Asian pilosae ecotype, and that suits it to the typically short winter cropping season. We identified two loci, DTF6a and DTF6b, at which dominant alleles confer early flowering. We show that, although these loci can interact in an additive manner, DTF6a alone is sufficient to confer early flowering even in extremely short photoperiods. Comparisons with closely related legume species confirmed the presence of a conserved cluster of three FT orthologs among potential candidate genes in the region, and expression analysis in near-isogenic material showed that the early dtf6a allele is associated with a strong derepression of the FTa1 gene in particular. Analysis of sequence variation revealed the presence of a 7.4 kb deletion in the FTa1-FTa2 intergenic region in the pilosae parent, and a wide survey of over 400 accessions with diverse origin showed that the dtf6a allele is dominant in South Asia material. Collectively, these results contribute to understanding the molecular basis of global adaptation in lentil, and further emphasize the importance of this conserved genomic region for adaptation in temperate legumes generally.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits

Weller

Hecht

Martinez

et al. 2021

Preprint

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“…ILL 1704 is a landrace from Ethiopia with moderate resistance to ascochyta blight (Tullu et al, 2010). The GWAS panel was a subset of 200 lentil genotypes selected from the Lentil Diversity Panel (LDP; N=324) (Haile et al, 2020; Wright et al, 2021; http://knowpulse.usask.ca/Lentil-Diversity-Panel). The LDP consists of 324 accessions assembled from the gene banks of Plant Gene Resources of Canada (PGRC), the USDA, the International Center for Agricultural Research in the Dry Areas (ICARDA), and includes cultivars developed at the Crop Development Centre (CDC), University of Saskatchewan (USask).…”

Section: Methodsmentioning

confidence: 99%

Identification of anthracnose (Colletotrichum lentis) race 1 resistance loci in lentil by integrating linkage mapping and a genome-wide association study

Gela

Ramsay

Haile

et al. 2021

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Anthracnose, caused by Colletotrichum lentis, is a devastating disease of lentil in Western Canada. Growing resistant lentil cultivars is the most cost-effective and environmentally friendly approach to prevent seed yield losses that can exceed 70%. To identify loci conferring resistance to anthracnose race 1 in lentil, biparental quantitative trait loci (QTL) mapping of two recombinant inbred line (RIL) populations was integrated with a genome-wide association study (GWAS) using 200 diverse lentil accessions from a lentil diversity panel (LDP). A major-effect QTL (qAnt1.Lc-3) conferring resistance to race 1 was mapped to lentil chromosome 3 and co-located on the lentil physical map for both RIL populations. Clusters of candidate nucleotide binding-leucine-rich repeats (NB-LRR) and other defense-related genes were uncovered within the QTL region. A GWAS detected 14 significant SNP markers associated with race 1 resistance on chromosomes 3, 4, 5, and 6. The most significant GWAS SNPs on chromosome 3 supported qAnt1.Lc-3 and delineated a region of 1.6 Mb containing candidate resistance genes. The identified SNP markers can be directly applied in marker-assisted selection to accelerate the introgression of race 1 resistance in lentil breeding.

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“…Real-world datasets consist of data generated by the University of Saskatchewan Pulse Crop research group with a focus on the AGILE Genome Canada grant. Specifically, genotypic data consist primarily of the L. culinaris exome capture assay ( 22 ) and phenotypic data consist primarily of the L. culinaris AGILE diversity panel with a focus on phenology traits ( 24 ). The genotypic dataset consists of 105 340 269 data points across 534 individuals and 372 506 variants.…”

Section: System and Methodsmentioning

confidence: 99%

OUP accepted manuscript

et al. 2021

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Researchers are seeking cost-effective solutions for management and analysis of large-scale genotypic and phenotypic data. Open-source software is uniquely positioned to fill this need through user-focused, crowd-sourced development. Tripal, an open-source toolkit for developing biological data web portals, uses the GMOD Chado database schema to achieve flexible, ontology-driven storage in PostgreSQL. Tripal also aids research-focused web portals in providing data according to findable, accessible, interoperable, reusable (FAIR) principles. We describe here a fully relational PostgreSQL solution to handle large-scale genotypic and phenotypic data that is implemented as a collection of freely available, open-source modules. These Tripal extension modules provide a holistic approach for importing, storage, display and analysis within a relational database schema. Furthermore, they embody the Tripal approach to FAIR data by providing multiple search tools and ensuring metadata is fully described and interoperable. Our solution focuses on data integrity, as well as optimizing performance to provide a fully functional system that is currently being used in the production of Tripal portals for crop species. We fully describe the implementation of our solution and discuss why a PostgreSQL-powered web portal provides an efficient environment for researcher-driven genotypic and phenotypic data analysis.

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Understanding photothermal interactions will help expand production range and increase genetic diversity of lentil (Lens culinarisMedik.)

Cited by 33 publications

References 56 publications

Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits

Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits

Identification of anthracnose (Colletotrichum lentis) race 1 resistance loci in lentil by integrating linkage mapping and a genome-wide association study

OUP accepted manuscript

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