dc.description.abstract |
Several hundred potato genotypes are grown throughout the world. They differ
in appearance, tuber structure, size and color, time of maturity, cooking and marketing
qualities, yield and resistance to pests and diseases. A variety that grows well in one
area may do poorly in another. Potato genotypes that are cultivated in Bangladesh are
broadly categorized into two groups, local or indigenous and high yielding. We
collected ten local and seventeen high yielding potato genotypes in order to study
their diversity at morphological, phytochemical and molecular levels. At
morphological level the diversity among the potato genotypes was evaluated based on
20 morphological markers. In molecular level we analyzed their diversityusing RAPD
based DNA fingerprinting method. Diversity in phytochemical activities was also
evaluated among 27 potato genotypes particularly in terms of their antioxidant
activity and hemagglutination activity. Under the purview of morphological study the
characters of potato plant were analyzed during its growth period. Nature and extent
of variability, characters association, stability of performance and genetic diversity at
germplasm level were studied for 27 potato genotypes. The genotypes showed
significant variation in respect of morphological characters. Genetic advance as
percent of mean was highest for potato weight/plant, number of potato/plant and plant
dry weight indicating important role of genetic factor towards expression of these
characters. Thus, for these characters, there is maximum possibility of fruitful
phenotypic selection. Inter nodal distance, number of leaf per plant and plant leaf area
had high positive direct effect on tuber yield. Therefore, suggested that inter nodal
distance, number of leaf per plant and plant leaf area are the main components of
yield should be given high priority in the selection program. Significant difference of
D2 values in respect of yield and yield contributing characters indicating a wide range
of diversity among the genotypes at the germplasm level. Based on the D2 values, 27
potato genotypes under the study were grouped into IV distinct clusters. The results
obtained from the stability analysis indicated that none of the genotypes could be
identified as stable one for tuber yield in strict sense of stability performances. Ausha,
Indurkani, Lady Rosette, Sadaguti and Sui:jamukhi could be suggested for wide
cultivation as these varieties exhibited high mean performance and more or less low
mean square deviation. Diversity in Phytochemical activities was determined by
antioxidant activity test and hemagglutination assay. Among the indigenous varieties,
Sindurkouta showed highest antioxidant activity (ICso value 14.1 μg/ml) and among
the High Yielding varieties, Sprite showed highest antioxidant activity (ICso value
22.2 μg/ml). Potato genotypes having high antioxidant activity should be given
preference to get their health benefit and reduce the free radical in human body.
Hemagglutination activity results indicated that Asterix, Sindurkouta, Shilbilati, MF-
2, Lady Rosette, Sprite, Dheera showed high lectins activity (128 HAU), so further
research may proceed to find out their toxicity and medicinal value based on the type
of lectins present in them. Surjamukhi, Sadaguti, Patnai had no hemagglutination
activity and they are the local varieties of Bangladesh. DNA fingerprinting of 27
genotypes of potato were performed using RAPD primers in the present investigation.
A total of 80 primers were used in RAPD experiments. However, the best result was
obtained using the RAPD primer A-1, A-2, A-3, A-4, D-11 and D-13.Therefore, these
RAPD primers can be usedas genetic markerfor the proper identification of the
genotypes. These six primers generated different banding pattern with size ranging
from 300bp to 5000 bp. Out of the 60 bands, 55 scorable bands (91.66%) were found
to be polymorphic and 5 bands (8.34%) were found to be monomorphic. Consensus
phylogenetic dendogram based on the banding pattern by different primers used in
this study revealed that 27 potato genotypes were divided into five groups. The data
generated from this morphological, phytochemical and molecular study showed that
there are significant genetic differences among the potato genotypes cultivated in
Bangladesh and that they could be used to strengthen the future potato genotypes
improvement programme effectively by incorporating potential progenitors from the
available potato germplasm. |
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