dc.description.abstract |
Genetic divergence analysis was done for blast resistant and susceptible genotypes
using 13 morphological characters. The genotypes were grouped into seven clusters
according to D2 statistic and Canonical Vector analysis. Plant height, days to
flowering, days to maturity, panicle length, number of spikelet/ panicle, number of
filled grain/ panicle, number of unfilled grain/ panicle, 1000 filled grain weight(gm),
yieldlhill(grn) were indicated as important contribution to genetic divergence in 14
rice genotypes. On the basis of cluster distances, high yielding along with highly
susceptible (BRR] dhan 29) genotypes could be crossed highly resistant genotypes
(BR 6017-3-3-4-1, ZHONG-YU 7) and BRR] dhan 28 and BRR] dhan 36 could be
croosed with QING LIALI NO] for the development of blast resistant rice varieties.
A total of 8 microsatellite and 3 minisatellite or VNTR markers were used for
studying molecular variabi lity across 14 blast resistant and susceptible rice genotypes.
A total of 33 alleles were detected at the loci of 8 microsatellite markers across 14
blast resistant and susceptible rice genotypes. The number of alleles per locus ranged
from 2 alleles (RM ) OS) to 5 alleles (RM21, RMSO, RM531), with an average of 4.13
alleles across the 30 loci. The Polymorphism Information Con ten! (PIC) values
ranged from 0.2S0 (RMIOS}'to 0.726 (RM21). PJC value revealed that RM21 was
considered as the best marker for 14 rice genotypes. The two dimensional graphical
view of Principal Coordinate Analysis (PCoA) for blast resisitant genotypes showed
the genotypes ZhongYu7, OM1207, SIPI692033, BRRI dhan29, BRRI dhan36,
QINGLlALJ 1, JR 60913-42-3-3-2-2 and NJ70507 were found placing far away from
the centroid of the cluster and rest of the genotypes were placed more or less around
the centroid. The genetic similarity analysis using UPGMA clustering system
generated nine genetic clusters with similarity coefficient of 0.66 for the study with
blast disease resistance. The pair-wise genetic dissimilarity coefficients indicated that
the highest genetic distance was obtained between NJ70507 with BR36 & BR29 for
blast disease. In order to develop blast resistant varieties and broaden the genetic base
of rice varieties new breeding program should initiated preferably using the parents,
BRRldhan29 and NJ70507 and BRRldhan36 and NJ70507 and to create genetic
variability among these two modem rice varieties. Both molecular and morphological
data did not show the similar results. So, use of more molecular markers might be
resolved the results of morphological analysis. |
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