dc.description.abstract |
Genetic divergence at morphological and molecular levels were studied in 24 pigmented
Transplant Aman germplasms during the period June 2019 to December 2019 at the
Genetic Resources and Seed Division (GRSD), Bangladesh Rice Research Institute,
Gazipur-1701. All the pigmented germplasms studied genetic variation in respect of
qualitative traits. Large dissimilarity and genetic diversity also detected in quantitative
traits. The germplasm Black rice-2, Black Rice-3, Black Rice-4, Biroin (Habai), Kach
Badal, Murali, Jhoria, Butu Balam (2), Latisail were identified as highly polymorphic and
could be used for future breeding programs. A total of 70 alleles were detected from 16
microsatellite markers across 24 rice germplasms. The number of alleles per locus ranged
from one (RM510) to eight alleles (RM1), with an average of 4.38 alleles across the 16 loci
obtained in the study. The highest band size for a given microsatellite locus varied between
171bp to 350bp (RM1337). Gene diversity ranged from 0.15 to 0.82 with an average of
0.4843. The polymorphism information content (PIC) values which ranged from 0.14
(RM307) to 0.80 (RM1), with an average of 0.445 revealed much variation among the
studied germplasm. Primer RM1 had the highest PIC value (0.80) and the highest number
of alleles (8), therefore it detected the highest level of polymorphism. So, RM1 is
considered to be the best marker for characterizing the 24 pigmented T. Aman rice
germplasms. Besides, PIC value revealed that RM1, RM206, RM1337, RM5 and RM334
can also be considered as additional markers for characterizing 24 pigmented rice
germplasms. Eighteen (16) unique alleles were detected by 9 SSR markers. The genetic
distance was calculated using the Nei distance. The highest genetic distance was 0.8750
which was observed between Biruin (Tola) and Lal Balam. The genetic distance-based
results seen in the unrooted neighbor-joining tree revealed three groups with six subclusters
in
the
24
test
germplasm.
Evaluation
of
morpho-molecular
characters
demonstrated
that
the
pigmented
T.
Aman
rice
germplasm
under
the
present
study
possess
a
high
genetic
diversity
and
showed
unique
features
of
valuable
genes
for
safe
conservation
in
Gene
banks
and
their
sustainable
utilization
in future
breeding
programs. |
en_US |