A physical map of traits of agronomic importance based on potato and tomato genome sequences

Gebhardt, Christiane

doi:10.3389/fgene.2023.1197206

Cited by 3 publications

(1 citation statement)

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“…The StCDF1 locus is on chromosome 5, and genetic mapping studies have associated the locus with many traits of importance in potato including maturity, tuber yield, tuber weight and tuber sugar content (Gebhardt, 2023). Senescence of the above‐ground leaves and vines of the potato plant is quantified as a trait called maturity, which has long been used as a visual cue to determine harvest timing.…”

Section: Figmentioning

confidence: 99%

Insights into the molecular regulation of source–sink relations in potato

Tai

2024

New Phytologist

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Insights into the molecular regulation of source-sink relations in potatoPotatoes have been cultivated in South America for thousands of years and their cultivation has spread globally to become the third largest crop consumed by humans. Tubers are the storage organs formed from underground extensions of the stem called stolons and are the consumed part of the plant. There is a fine balance between the development of aboveground vines (source) and belowground tubers (sink). The study by Shi et al. (2024; 2541-2554, entitled 'Aging later but faster: how StCDF1 regulates senescence in Solanum tuberosum' published in this issue of New Phytologist, is a landmark study on senescence in potato that provides insight into the molecular processes coordinating tuberization, leaf senescence and sugar transport, which underlies source-sink relations and determination of tuber yield.

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Section: Figmentioning

confidence: 99%

Insights into the molecular regulation of source–sink relations in potato

Tai

2024

New Phytologist

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Exploring potato diversity: A comprehensive genetic and phenotypic analysis of quantitative and qualitative traits

Samiha,

Rahman,

Islam

et al. 2024

Czech J. Genet. Plant Breed.

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For sustainable breeding in potato, a better understanding of genetic diversity within germplasm banks for sustainable breeding is needed. This study comprehensively characterised the molecular and phenotypic traits of 62 potato accessions, including advanced clones and indigenous potato varieties from Advanced Chemical Industries Limited (ACI Ltd.), Bangladesh, and 8 varieties from the Bangladesh Agricultural Research Institute (BARI). By using 9 SSR markers and 13 morphological traits, including both quantitative and qualitative traits, we observed correlation coefficients ranging from -0.3 to 0.7 for 8 quantitative traits, and Pearson's chi-square (χ 2 value) ranging from 24.3 to 135.4 for 5 qualitative characteristics. Molecular analyses identified 46 unique alleles, with 93.5% polymorphism. The markers STM0031 and STM1016 had the highest PIC value of 0.9. Genetic parameters for SSR markers included effective number of alleles per locus (Ne) = 5.6, unbiased expected heterozygosity (uh) = 0.8, diversity (h) = 0.8 and Shannon's information index (I) = 1.8. Jaccard's similarity coefficients ranged from 0.2 to 0.8, representing significant diversity. Cluster analysis, using unweighted pair-group method with arithmetic average (UPGMA), grouped the accessions into five clusters based on SSR profiles. An association was foud between the marker STM0031 and two traits: the number of tubers per hill and the content of reducing sugars in the tubers. This study provides information on genetic diversity and marker efficacy. It will guide future breeding programmes towards the development of high-yielding and industrially valuable potato varieties.

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Կարտոֆիլի Որոշ Սորտերի Գենետիկական Բազմազանությունն Ըստ Կենսաքիմիական Եվ Մոլեկուլային Մարկերների

Badalyan,

Aloyan,

Melikyan

2024

AgriScience and Technology

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As a globally important food crop, the potato ranks fourth in production, following wheat, rice, and maize. Currently, over 7,000 varieties, developed in the 18th and 20th centuries, are cultivated worldwide. At this stage of agricultural development, where the primary challenge is the creation of new crop varieties and the improvement of existing ones to meet growing population and production demands, both classical breeding methods and modern technologies — such as molecular markers and genetic transformation — are employed. This study investigates the intravarietal and intervarietal diversity of three valuable potato varieties cultivated in Armenia. Genetic polymorphism was assessed using protein markers (11S-globulin protein profiles and electrophoretic spectra) and DNA markers (RFLP). The research utilized a combination of classical agronomic, molecular biological, biotechnological, and genetic-mathematical methods. The results revealed that the 11S-globulin proteins in all studied potato varieties exhibit polymorphism, as evidenced by distinct electrophoretic spectra and protein profiles. Additionally, the DNA restriction fragment patterns showed varying lengths within the same variety, indicating significant intravarietal genetic polymorphism. These findings can serve as genetic markers for the identification and passporting of the studied varieties, as well as for marker-assisted selection in breeding programs.

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A physical map of traits of agronomic importance based on potato and tomato genome sequences

Cited by 3 publications

References 113 publications

Insights into the molecular regulation of source–sink relations in potato

Insights into the molecular regulation of source–sink relations in potato

Exploring potato diversity: A comprehensive genetic and phenotypic analysis of quantitative and qualitative traits

Կարտոֆիլի Որոշ Սորտերի Գենետիկական Բազմազանությունն Ըստ Կենսաքիմիական Եվ Մոլեկուլային Մարկերների

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