The present investigation aimed to explore the level of genetic diversity, determine the population structure in a larger set of germplasm of linseed using microsatellite marker and identify linked markers through association mapping. A total of 168 accessions of linseed were evaluated for major agro-economic traits and SSRs markers deployed for diversity assessment. A total of 337 alleles were amplified by 50 SSRs ranging from 2 to 13 with an average of 6.74 ± 2.8 alleles per loci. The neighbor joining based clustering grouped all the accessions into three major clusters that were also confirmed by scatter plot of PCoA. While model based clustering determined four sub-populations (K = 4). Further, analysis of molecular variance analysis considering three population showed that maximum variation (79%) was within the population. We identified one putative SSR marker (Lu_3043) linked with days to 50% flowering through both GLM and MLM analysis of association mapping. The results of this preliminary study revealed genetic diversity, population structure in linseed and linked marker which could be utilized in future breeding program.
Fifty eight genotypes of linseed (Linum usitatissimum L.) were evaluated two consecutive years for variability and other genetic parameters based on various traits. Substantial amount of genetic variations were observed with low influence of environment indicated consistence performance of the genotypes. High heritability, GCV, PCV and GA was observed for number of branches/plant, number of capsules/plant, days to 50% flowering and capsule weight/plant. Oil content showed high heritability with low genetic advance indicating non-additive genetic behavior. Positive and significant correlations were observed among days to 50% flowering, plant height, number of branches/plant. Seed weight had significant and positive correlation with number of capsules/plant, capsules weight/plant, husk weight/plant and test weight. The branches/plant, number of capsules/plant, and plant height identified as important traits for selection in linseed breeding program.
This study reports the isolation of myxobacteria from soil collected from plains in north India. Based on the morphology and 16S rDNA sequence, the isolated myxobacteria were identified as Corallococcus sp., Pyxidicoccus sp., Myxococcus sp., Cystobacter sp. and Archangium sp. The myxobacteria were functionally characterized to assess their ability to produce antibacterial and anticancer metabolites. The isolates were found to be functionally versatile as they produced extracellular bioactive molecules that exhibited high frequency of activities against Bacillus cereus, Mycobacterium smegmatis, Enterobacter cloacae and Pseudomonas syringae. The strains also showed cytotoxic activity against the human cancer cell lines of liver, pancreas, prostrate, bone and cervix. These results indicate the importance of isolating diverse strains of myxobacteria from unexplored habitats to find novel bioactive compounds. Moreover, the bioactive molecules explored in this study are predominantly hydrophilic compounds, obviating the limitations of solubility-related aspect of drug discovery.
In this study, experiments are performed to study the physical and mechanical behaviour of chemically-treated sugarcane bagasse fibre-reinforced epoxy composite. The effect of alkali treatment, fibre varieties, and fibre lengths on physical and mechanical properties of the composites is studied. To study the morphology of the fractured composites, scanning electron microscopy is performed over fractured composite surfaces. The study found that the variety and lengths of fibres significantly influence the physical and mechanical properties of the sugarcane bagasse-reinforced composites. From the wear study, it is found that the composite fabricated from smaller fibre lengths show low wear. The chemically-treated bagasse-reinforced composites fabricated in this study show good physical and mechanical properties and are, therefore, proposed for use in applications in place of conventional natural fibres.
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