Genetic variation inferred from RAPD fingerprinting in three species of tilapia

Abstract

This study used random amplified polymorphic DNA (RAPD) fingerprinting for estimating genetic variation and species differentiation in three species of tilapia. A 16-mer random primer generated RAPD markers ranging from 250 to 2400 base pairs (bp). Genetic similarity estimates obtained by pairwise comparisons based on the method of Nei and Li (1979) indicated high genetic similarity (mean genetic similarity (± sd), 0.73 (± 0.15) for Nile tilapia; 0.78 (± 0.12) for Mozambique tilapia; and 0.87 (± 0.07) for Aureus tilapia) within each of the tilapia species. The average interspecies genetic similarities obtained among the three species were 0.59 (± 0.07) for Mozambique/Nile tilapia, 0.46 (± 0.09) for Aureus/Nile tilapia and 0.38 (± 0.07) for Aureus/Mozambique tilapia pair. DNA profiles generated in each species of tilapia were unique. A total of 13 RAPD markers differentiating the three species of tilapia were detected. Our study presented RAPD markers as a new class of useful genetic markers for assessment of genetic diversity and species differentiation in tilapia.