Research Article

Related GMR Articles

09/03/2013
DNA fingerprinting; Genetic diversity; RAPD; Vicia faba

Until now, neither phenotypic nor molecular approaches have been used to characterize the landraces of Palestine faba beans (Vicia faba). We used PCR-based RAPD markers to determine the genetic diversity and relatedness among 26 Palestinian faba bean landraces (traditional farmers' varieties) from 8 localities in the West Bank, Palestine. In tests with 37 primers, 14 generated no ... more

R. Basheer-Salimia; M. Shtaya; M. Awad; J. Abdallah; Y. Hamdan
10/19/2012
Anthropogenic impact; Genetic diversity; Mytilus galloprovincialis; Pollution; Population structure; RAPD

Despite the great commercial and economic importance of mussels, Mytilus galloprovincialis (Bivalvia, Mollusca) in Greece, little information is available concerning their population genetic structure. We used RAPD markers to examine genetic differentiation and potential impact of aquaculture practices and other anthropogenic activities on the genetic structure of two cultivated ... more

I.A. Giantsis; N. Kravva; A.P. Apostolidis
08/27/2012
Achillea species; Genetic diversity; ISSR; Marker; RAPD

Cultivation and preservation of yarrow has recently attracted wide attention due to its beneficial properties; however, genetic variation of Achillea species is still relatively unknown. We used RAPD and ISSR markers to assess genetic diversity in 16 accessions of yarrow belonging to two species native to Iran. Seven ISSR and nine RAPD primers generated 187 amplified fragments, ... more

M. Ebrahimi; M. Farajpour; M. Rahimmalek
08/16/2012
DNA fingerprinting; Genetic diversity; Olea europaea; RAPD

A total of 91 wild olive accessions and 31 olive cultivars growing in the Extremadura region of central-western Spain were analyzed using morphological traits and RAPD markers. We focused on three main and 16 minor Spanish olive cultivars that are recognized as native or local to the Extremadura region. The five arbitrary 10-mer primers tested on the olive cultivars gave 67 polymorphic ... more

M.C. Parra-Lobato; F.J. Delgado-Martinez; M.C. Gomez-Jimenez
08/01/2014
Forage; Genetic diversity; Plant improvement; RAPD; Species-specific markers

Among members of the Fabaceae family, native to the Brazilian Caatinga, the species Poincianella pyramidalis and P. bracteosa exhibit particular potential as forage for cattle, sheep and goats. With the aim of establishing genetic relationships within Poincianella, random amplified polymorphic DNA analysis was performed on eight accessions of P ... more

R.F.M. Mendes; R.B.Araújo Neto; M.P.S.B.C. Nascimento; P.S.C. Lima
01/21/2014
Cydonia oblonga Mill.; Genetic diversity; Quince; RAPD

Turkey has very rich quince genetic resources, and the country currently dominates world quince production. In particular, the northeastern part of the country has notable Cydonia oblonga Mill. germplasm. Authenticating the identity of germplasm resources of C. oblonga Mill. would be of great value for breeding practices. In the present study, genetic variations of 14 ... more

E. Orhan; G. Nardemir; G. Agar; S. Ercisli
08/07/2007
Genetic diversity; RAPD; Triticum aestivum L.

The degree of genetic divergence was estimated in seven wheat genotypes, six exotic genotypes and one local variety, through random amplified polymorphic DNA methodology. A total of 112 DNA fragments were generated by the 15 random primers, with an average of about 7.4 bands per primer. Among the 112, 50 fragments showed polymorphism among the seven wheat genotypes. Nei and Li’s ... more

A. Iqbal; A.S. Khan; I.A. Khan; F.S. Awan; A. Ahmad; A.A. Khan
12/23/2009
Genetic diversity; Mangalarga Marchador horse; Population genetic structure

One hundred and fifteen unrelated Mangalarga Marchador horses were sampled from three geographically distinct regions of Minas Gerais State, Brazil (South, Southeast, and Northeast) and tested for 10 microsatellite loci. Genetic diversity and population structure parameters were estimated with ARLEQUIN 3.0, CERVUS 2.0, POPGENE 1.31, GENEPOP on the web, STRUCTURE 2.0, and SPAGEDI 1.2 ... more

J.B. DeAssis; D.M. DeLaat; M.G.C.D. Peixoto; J.A.G. Bergmann; C.G. Fonseca; M.R.S. Carvalho
12/08/2009
Genetic diversity; Germplasm conservation; Maize; Random amplified polymorphic DNA

Ten maize accessions (NC-9, A50-2, M-14, B-42, NC-3, T-7, N-48-1, B-34, USSR, and WFTMS) were studied to estimate the genetic distance on molecular level by random amplified polymorphic DNA. These accessions were selected on the basis of their variable responses against different levels of moisture. Twenty-five primers were used to test genetic diversity, of which 14 were observed to be ... more

M. Aslam; F.S. Awan; I.A. Khan; A.I. Khan
11/17/2009
Genetic diversity; Polymerase chain reaction; Random amplified polymorphic DNA; Sugarcane

Genetic diversity of 20 sugarcane accessions in Pakistan was studied using 21 random amplified polymorphic DNA markers. The mean genetic distance between the cultivars was 39.03%, demonstrating that a large part of the genome is similar among the accessions. This probably arises from a lack of parental diversity, with few clones, which are themselves related, contributing to the parentage ... more

F.A. Khan; A. Khan; F.M. Azhar; S. Rauf

Pages