Genetic diversity of sorghum accessions resistant to greenbugs as assessed with AFLP markers.

@article{Wu2006GeneticDO,
  title={Genetic diversity of sorghum accessions resistant to greenbugs as assessed with AFLP markers.},
  author={Y. Q. Wu and Yinghua Huang and Charles G. Tauer and David R. Porter},
  journal={Genome},
  year={2006},
  volume={49 2},
  pages={
          143-9
        }
}
Sorghum, Sorghum bicolor (L.) Moench, is the fifth most important cereal crop grown worldwide and the fourth in the United States. Greenbug, Schizaphis graminum (Rondani), is a major insect pest of sorghum with several biotypes reported to date. Greenbug biotype I is currently the most prevalent and most virulent on sorghum plants. Breeding for resistance is an effective way to control greenbug damage. A successful breeding program relies in part upon a clear understanding of breeding materials… 
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Developing new markers and QTL mapping for greenbug resistance in sorghum [Sorghum bicolor (L.) Moench]
TLDR
The results from interval mapping, composite interval mapping and multiple interval mapping analyses identified four major QTLs for greenbug resistance on chromosome 9, which can be used to enhance the sorghum breeding program for greenbugs resistance through marker-assisted selection and map-based cloning.
Molecular mapping of QTLs for resistance to the greenbug Schizaphis graminum (Rondani) in Sorghum bicolor (Moench)
TLDR
Two QTLs on sorghum chromosome nine (SBI-09) consistently conditioned the resistance of host plant to the greenbug, and appeared to have additive and partially dominant effects.
Genetic Diversity and Population Structure of Sorghum [Sorghum Bicolor (L.) Moench] Accessions as Revealed by Single Nucleotide Polymorphism Markers
Ethiopia is the center of origin for sorghum [Sorghum bicolor (L.) Moench], where the distinct agro-ecological zones significantly contributed to the genetic diversity of the crops. A large number of
Genetic Diversity in a Collection of Chinese Sorghum Landraces Assessed by Microsatellites
TLDR
Evidence is provided that Chinese landraces of sorghum exhibit moderate genetic diversity and results from cluster analysis may well aid in identification of diverse accessions that can serve as parental lines for efficient utilization and application of these germplasm into sorghums breeding programs.
Identification and confirmation of greenbug resistance loci in an advanced mapping population of sorghum
TLDR
The markers/QTLs identified from the current study can be effectively utilized in marker-assisted selection and map-based cloning experiments and identified QTLs had a better confidence interval.
Assessment of genetic diversity among sorghum landraces and their wild/weedy relatives in western Kenya using simple sequence repeat (SSR) markers
TLDR
The results provide strong evidence of significant genetic diversity retained within wilds, larger divergence between wild and cultivated materials and reduced gene flow than those previously reported in Kenya.
Geographic patterns of phenotypic diversity in sorghum (Sorghum bicolor (L.) Moench) landraces from North Eastern Ethiopia
TLDR
Sorghum landraces from North Eastern (NE) Ethiopia were evaluated for agro-morphologic characters to assess geographic patterns of phenotypic diversity and to identify whether there are specific areas of high diversity for particular traits.
Population genetic structure of in situ wild Sorghum bicolor in its Ethiopian center of origin based on SSR markers
TLDR
In situ wild sorghum populations in Ethiopia harbor substantial genetic diversity and differentiation, despite their close proximity to conspecific cultivars in this crop/wild/weedy complex.
Analysis of in situ diversity and population structure in Ethiopian cultivated Sorghum bicolor (L.) landraces using phenotypic traits and SSR markers
TLDR
In situ diversity and population genetic structure of eight cultivated sorghum landrace populations were investigated in the center of origin, Ethiopia using seven phenotypic traits and 12 highly polymorphic Sorghum SSR markers, indicating that the variation followed human migration patterns.
Genetic interrelationship of sweet stem sorghum genotypes assessed with simple sequence repeat markers
TLDR
Evaluating the genetic interrelationships among phenotypically selected sweet stem sorghum genotypes using polymorphic simple sequence repeat (SSR) markers revealed highly significant differences among the test population.
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References

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