Studies on Genetic Variability in Pigeonpea (Cajanus Cajan L.) Using Rapd and Ssr Markers
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Sardar Vallabh Bhai Patel University of Agriculture & Technology, Meerut
Abstract
Studies were conducted to evaluate the genetic diversity of twenty genotypes of
Pigeonpea using the RAPD and SSR markers. RAPD analysis with ten primers generated
a total of 192 polymorphic bands. The number of amplification products produced by each
primer varied fi·om 2 to 6. Genetic diversity of twenty genotypes in RAPD analysis as
estimated by polymorphic information content (PIC) value ranged from 0.66 to 0.99.The
cluster dendrogram constructed on the basis at data RAPD showed similarity values from
0.60 to 0.89. Dandrogram generated using RAPD data showed two major clusters. Cluster
I consist of one genotype while cluster II included nineteen genotypes. Dendrogram
revealed that Pant A291 was distinctly related with PN-3 at a similarity coefficient 0.65.
SSR analysis generated a total of 96 bands with twenty primers. The number of
polymorphic allele ranged from I to 4 with different primers. Out of twenty primers
fourteen primers showed 100% polymorphism. Genetic diversity using SSR data as
estimated by PIC values ranged from 0.91 to 0.99. The cluster dendrogram of SSR
revealed 2 major clusters. Cluster II was the largest and included seventeen genotypes
while clusters I comprising of three genotypes. Dendrogram generated using SSR data
showed that Pant A-291 was distinctly related with MAL-6 at a similarity coefficient 0.63.
Dendrogram of combined analysis revealed 2 major clusters. Cluster II was largest and
included sixteen genotypes while, clusters I comprising of four genotypes. In current
studies SSR primers namely BMd47, L31 and PVI4 generated higher level of
polymorphism and higher level of PIC value. RAPD primers namely OPC 06, OPD 08 and
OPJ 13 generated higher level of polymorphism and higher level of PIC value. Hence
RAPD and SSR primers can be efficiently used for estimation of genetic variability in
Pigeonpea. The information generated from current studies can be used in future breeding
programs of Pigeon pea improvement for various traits.