Knowledge of genetic diversity is vital for genetic improvement and germplasm conservation. The genetic relationship of 28 Coffea arabica genotypes from Ethiopia was assessed using 10 AmplifiedFragment Length Polymorphism (AFLP) primer combinations. The level of polymorphism was 30.9% and 18 markers were unique to 10 genotypes. Pair-wise genetic similarity coefficients ranged from 0.851 to 0.982, AD1491 being the most divergent and AD5091 the most closely related to all genotypes. All genotypes were independently distinguished and did not cluster according to collection region, demonstrating the presence of coffee genetic resource diversity within each region. Results of this study will be utilised for germplasm collection, conservation as ...
Molecular markers were used to assess polymorphism between and within the genetic bases of coffee (i...
The current study was conducted on the wild Arabica coffee of the Harenna Forest of Bale Mountain. 1...
Aga, E. 2005. Molecular genetic diversity study of forest coffee tree [Coffea arabica L.] population...
The South-Western highlands of Ethiopia are considered to be the centre of origin and diversity of t...
Knowledge of genetic diversity within and among genotypes of any crop is fundamental for estimation ...
Ethiopia is the center of origin and genetic diversity of arabica coffee. Forty-two commercial arabi...
So far, there has been limited use of molecular markers in arabica coffee breeding program in Ethiop...
Coffee provides one of the most widely drunk beverages in the world, and is a very important source ...
Molecular markers have effectively been applied to study genetic diversity and as markers of particu...
Background: Information on the genetic variability of plants on the basis population is important fo...
Genetic diversity was studied using RAPD markers among 119 coffee (Coffea arabica L.) individuals re...
Coffee is one of the most valued agricultural commodities in the world. Due to its rising popularity...
Marker-assisted selection becomes a reality for many crops; in perennial crops, the utilization of m...
International audienceInformation about population structure and genetic relationships within and am...
A técnica de AFLP (Amplified Fragment Lenght Polymorphism) foi utilizada para acessar a variabilidad...
Molecular markers were used to assess polymorphism between and within the genetic bases of coffee (i...
The current study was conducted on the wild Arabica coffee of the Harenna Forest of Bale Mountain. 1...
Aga, E. 2005. Molecular genetic diversity study of forest coffee tree [Coffea arabica L.] population...
The South-Western highlands of Ethiopia are considered to be the centre of origin and diversity of t...
Knowledge of genetic diversity within and among genotypes of any crop is fundamental for estimation ...
Ethiopia is the center of origin and genetic diversity of arabica coffee. Forty-two commercial arabi...
So far, there has been limited use of molecular markers in arabica coffee breeding program in Ethiop...
Coffee provides one of the most widely drunk beverages in the world, and is a very important source ...
Molecular markers have effectively been applied to study genetic diversity and as markers of particu...
Background: Information on the genetic variability of plants on the basis population is important fo...
Genetic diversity was studied using RAPD markers among 119 coffee (Coffea arabica L.) individuals re...
Coffee is one of the most valued agricultural commodities in the world. Due to its rising popularity...
Marker-assisted selection becomes a reality for many crops; in perennial crops, the utilization of m...
International audienceInformation about population structure and genetic relationships within and am...
A técnica de AFLP (Amplified Fragment Lenght Polymorphism) foi utilizada para acessar a variabilidad...
Molecular markers were used to assess polymorphism between and within the genetic bases of coffee (i...
The current study was conducted on the wild Arabica coffee of the Harenna Forest of Bale Mountain. 1...
Aga, E. 2005. Molecular genetic diversity study of forest coffee tree [Coffea arabica L.] population...