M.M. Shah, S.W. Hassan, K. Maqbool, I. Shahzadi and A. Pervez
Published September 28, 2010
Genet. Mol. Res. 9 (3): 1936-1945 (2010)
DOI 10.4238/vol9-3gmr964
About the authors
M.M. Shah, S.W. Hassan, K. Maqbool, I. Shahzadi and A. Pervez
Corresponding author
M.M. Shah
E-mail: mmshah@ciit.net.pk
ABSTRACT
We compared DNA-based genetic diversity estimates with conventional estimates by investigating agronomically important traits in maize grown in the northwestern region of Pakistan. RAPD markers were used to characterize 10 commonly cultivated maize genotypes. The same material was tested for phenotypic variation of quantitative traits using replicated field trials. The genetic distances between pairs of genotypes using RAPD data were used to generate a similarity matrix and to construct a phenogram. Statistical analyses were carried out on the data obtained from field trials of all maize genotypes for days to 50% tasseling, days to 50% silking, plant height, ear height, grain yield, grain weight per cob, and ear length. Analysis of variance and single degree of freedom contrasts wereperformed on morphological data to examine the relationship between molecular-based clusters and agronomic traits. A molecular marker-based phenogram led to the grouping of all genotypes into four major clusters, some of which were distantly related. These clusters contained one to four genotypes. Analysis of variance showed significant variations among all genotypes for agronomic traits. The single degree of freedom contrasts between groups of genotypes indicated significant differences for most traits. Pair-wise comparisons between clusters were also significant. The two types of data correlated well, providing an opportunity for better choices for selection.
Key words: RAPD markers; Genetic variation; Quantitative traits; Maize; Zea mays