ABSTRACT 95 sorghum accessions (1,425 individuals) sampled represented most of crop-cultivated areas in Sudan. The genetic diversity and population structure was assessed using a panel of 39 SSRs marker, which covered the sorghum genome. Genotypic data was generated using the ABI 3730 genetic analyzer. The alleles were called and sized usin
Sorghum is an important grain crop in many parts of the world, especially in dry regions. It is an i...
Microsatellite markers are increasingly being used in crop plants to discriminate among genotypes an...
Ethiopia is the center of origin of sorghum (Sorghum bicolor L.). Understanding of the genetic diver...
95 sorghum accessions (1,425 individuals) sampled represented most of crop- cultivated areas in Suda...
SSR and SRAP markers-based Genetic Diversity in Sorghum (Sorghum bicolor (L.) Moench) Accessions of ...
Sorghum (Sorghum bicolor (L.) Moench) originated in East Africa specifically Sudan and Ethiopia wher...
Abstract Genetic diversity plays an important role in selection of parental stocks in plant breeding...
Two DNA-based fingerprinting techniques, simple sequence repeats (SSR) and random amplified polymorp...
An understanding of the extent, distribution and patterns of genetic variation is useful for estimat...
Selection and use of genetically diverse genotypes are key factors in any crop breeding program to d...
Assessment of genetic variability in crops has a strong impact on plant breeding and conservation of...
The objectives of this study were to determine the genetic diversity of Japanese cultivated sorghum ...
The Sorghum genus is extremely diverse both morphologically and geographically, however, relatively ...
Genetic integrity of an accession should be preserved in the conservation of germplasm. Characteriza...
The understanding of genetic diversity within local crop varieties constitutes an important step in ...
Sorghum is an important grain crop in many parts of the world, especially in dry regions. It is an i...
Microsatellite markers are increasingly being used in crop plants to discriminate among genotypes an...
Ethiopia is the center of origin of sorghum (Sorghum bicolor L.). Understanding of the genetic diver...
95 sorghum accessions (1,425 individuals) sampled represented most of crop- cultivated areas in Suda...
SSR and SRAP markers-based Genetic Diversity in Sorghum (Sorghum bicolor (L.) Moench) Accessions of ...
Sorghum (Sorghum bicolor (L.) Moench) originated in East Africa specifically Sudan and Ethiopia wher...
Abstract Genetic diversity plays an important role in selection of parental stocks in plant breeding...
Two DNA-based fingerprinting techniques, simple sequence repeats (SSR) and random amplified polymorp...
An understanding of the extent, distribution and patterns of genetic variation is useful for estimat...
Selection and use of genetically diverse genotypes are key factors in any crop breeding program to d...
Assessment of genetic variability in crops has a strong impact on plant breeding and conservation of...
The objectives of this study were to determine the genetic diversity of Japanese cultivated sorghum ...
The Sorghum genus is extremely diverse both morphologically and geographically, however, relatively ...
Genetic integrity of an accession should be preserved in the conservation of germplasm. Characteriza...
The understanding of genetic diversity within local crop varieties constitutes an important step in ...
Sorghum is an important grain crop in many parts of the world, especially in dry regions. It is an i...
Microsatellite markers are increasingly being used in crop plants to discriminate among genotypes an...
Ethiopia is the center of origin of sorghum (Sorghum bicolor L.). Understanding of the genetic diver...