Analysis of genetic diversity, population structure and phylogenetic relationships of rice (Oryza sativa L.) cultivars using simple sequence repeat (SSR) markers

Analysis of genetic diversity, population structure and phylogenetic relationships of rice (Oryza sativa L.) cultivars using simple sequence repeat (SSR) markers

The genetic diversity of Egyptian rice has received diminished attention recently, resulting in a weakened genetic foundation that renders it more vulnerable to environmental fluctuations. Developing durable rice cultivars necessitates the ongoing exploration of genetic resources and the utilization...

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Bibliographic Details
Published in:Genetic resources and crop evolution Vol. 71; no. 5; pp. 2213 - 2227
Main Authors: Salem, Khaled F. M., Safhi, Fatmah Ahmed, Alwutayd, Khairiah Mubarak, Abozahra, Mahmoud S., Almohisen, Ibrahim A. A., Alsharari, Sultan F., Gangwar, Priyanka, Rady, Asmaa M. S., Hendawy, Marwa F. A., Ibrahim, Amira A.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-06-2024
Springer Nature B.V
Subjects:
Agriculture
Alleles
Biomedical and Life Sciences
Cultivars
Eigenvalues
Empirical analysis
Flow coefficients
Gene flow
Gene polymorphism
Gene transfer
Genetic analysis
Genetic diversity
Genetic markers
Genetic resources
Genetic structure
Genotypes
Germplasm
Life Sciences
Microsatellites
Oryza sativa
Phylogeny
Plant breeding
Plant Genetics and Genomics
Plant Physiology
Plant Sciences
Plant Systematics/Taxonomy/Biogeography
Polymorphism
Population genetics
Population structure
Principal components analysis
Research Article
Rice
Statistical analysis
Subgroups
Subpopulations
Variance analysis
Population structure
Gene flow
L.
Genetic diversity
SSRs
Rice
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Summary:The genetic diversity of Egyptian rice has received diminished attention recently, resulting in a weakened genetic foundation that renders it more vulnerable to environmental fluctuations. Developing durable rice cultivars necessitates the ongoing exploration of genetic resources and the utilization of diverse germplasm. The examination of rice diversity was conducted by researchers utilizing 27 rice genotypes and 23 polymorphic microsatellite markers. The microsatellite comprises 106 alleles that have been observed (Na), with an effective allele count of 67.36 (Ne). The average number of alleles per locus is 4.61, with a standard deviation of 2.93. On average, the values of polymorphism information content (PIC) were found to be 0.580. A noteworthy correlation was observed between the number of alleles and both gene diversity (r = 0.713) and polymorphic information content (PIC) (r = 0.785). The results of our study provide empirical evidence supporting the existence of both the P1 and P2 subgroups; P1 comprises twelve distinct rice genotypes, while P2 encompasses fifteen different rice genotypes. The analysis of molecular variance determined that individual variations contributed to 34.22% of the observed variance, while population differences accounted for the remaining 65.78%. The gene flow coefficient was determined to be 0.481, whereas the fixation index exhibited a statistically significant value of 0.342. The presence of admixtures within the population suggests a significant likelihood of gene transfer between different genotypes. The principal component analysis (PCA) encompassed 27 components, with only the initial four components (PC1, PC2, PC3, and PC4) regarded as variation representatives. In that order, the initial four components exhibited the highest eigenvalues, specifically 18.413, 10.759, 7.618, and 7.031. The findings underscore the importance of investigating and establishing connections between genetic diversity and developing Egyptian rice breeding and enhancement strategies. Selecting genotypes as possible donors in a crop breeding approach to improve rice quality requires examining genetic diversity within populations. The distribution of alleles within subpopulations reveals valuable loci for genetic diversity research. This study contributes to developing environmentally sustainable cultivars by providing insights into the mechanisms of gene flow and genetic structure in Egyptian rice.
ISSN:0925-9864
1573-5109
DOI:10.1007/s10722-023-01789-0