Jute is an important fibre crop that has dominated the packaging sector for over one and a half centuries in India. For sustenance of the trade in the face of tough competition from synthetics, there is an urgent need to redesign the ongoing breeding strategy to improve both the yield and quality of jute fibre. It is therefore, essential to understand the pattern of diversity in this important commercial crop species. In the present study, genetic diversity analysis of 20 exotic germplasm lines and 20 commercial varieties of the two cultivated species (Corchorus olitorius and C. capsularis) and two wild relatives of jute (C. aestuans and C. trilocularis) was carried out using sequence tagged microsatellite site (STMS), inter simple sequence repeat (ISSR) and random amplified polymorphic DNA (RAPD) markers. The first set of six STMS markers developed from the genomic sequence of C. olitorius was not fully transferable to the related species C. capsularis. The level of intraspecific polymorphism revealed by these markers was very low. The four ISSR and 22 RAPD primers employed in the study revealed 98.44% and 100% polymorphism, respectively, across all the species, while the level of polymorphism was significantly low within a species. The commercial varieties, particularly those of C. capsularis, had an extremely narrow genetic base that demands immediate effort for diversification. The germplasm accessions in both the cultivated species showed considerably higher levels of diversity and thus should be used in broadening the base of the varieties. All the accessions of C. olitorius together with the wild species C. aestuans clustered separately from those of C. capsularis and C. trilocularis, suggesting a polyphyletic origin of the two cultivated species.
Candida albicans, a common fungal pathogen which diverged from the baker’s yeast Saccharomyces cerevisiae has the unique ability to utilise N-acetylglucosamine, an amino sugar and exhibits phenotypic differences. It has acquired intricate regulatory mechanisms at different levels in accordance with its life style. N-acetylglucosamine kinase, a component of the N-acetylglucosamine catabolic cascade is an understudied gene since Saccharomyces cerevisiae lacks it. We report HXK1 to act as both positive and negative regulator of transcription of genes involved in maintaining cellular homeostasis. It is involved in repression of hyphal specific genes in addition to metabolic genes. Its regulation of filamentation and GlcNAc metabolism is independent of the known classical regulators like EFG1, CPH1, RAS1, TPK2 or TUP1. Moreover, Hxk1-GFP is localised to cytoplasm, nucleus and mitochondria in a condition specific manner. By employing two-step affinity purification, we report the interaction of HXK1 with SIR2 under filamentation inducing conditions. Our work highlights a novel regulatory mechanism involved in filamentation repression and attempts to decipher the GlcNAc catabolic regulatory cascade in eukaryotes.
SummaryPathogenic microorganisms like Vibrio cholerae are capable of adapting to diverse living conditions, especially when they transit from their environmental reservoirs to human host. V. cholerae attaches to N-acetylglucosamine (GlcNAc) residues in glycoproteins and lipids present in the intestinal epithelium and chitinous surface of zoo-phytoplanktons in the aquatic environment for its survival and colonization. GlcNAc utilization thus appears to be important for the pathogen to reach sufficient titres in the intestine for producing clinical symptoms of cholera. We report here the involvement of a second cluster of genes working in combination with the classical genes of GlcNAc catabolism, suggesting the occurrence of a novel variant of the process of biochemical conversion of GlcNAc to Fructose-6-phosphate as has been described in other organisms. Colonization was severely attenuated in mutants that were incapable of utilizing GlcNAc. It was also shown that N-acetylglucosamine specific repressor (NagC) performs a dual role -while the classical GlcNAc catabolic genes are under its negative control, the genes belonging to the second cluster are positively regulated by it. Further application of tandem affinity purification to NagC revealed its interaction with a novel partner. Our results provide a genetic program that probably enables V. cholerae to successfully utilize amino -sugars and also highlights a new mode of transcriptional regulation, not described in this organism.
Cross-species transferability is a quick and economic method to enrich SSR database, particularly for minor crops where little genomic information is available. However, transferability of SSR markers varies greatly between species, genera and families of plant species. We assessed confamiliar transferability of SSR markers from cotton (Gossypium hirsutum) and jute (Corchorus olitorius) to 22 species distributed in different taxonomic groups of Malvaceae. All the species selected were potential industrial crop species having little or no genomic resources or SSR database. Of the 14 cotton SSR loci tested, 13 (92.86 %) amplified in G. arboreum and 71.43 % exhibited cross-genera transferability. Nine out of 11 jute SSRs (81.81 %) showed cross-transferability across genera. SSRs from both the species exhibited high polymorphism and resolving power in other species. The correlation between transferability of cotton and jute SSRs were highly significant (r = 0.813). The difference in transferability among species was also significant for both the marker groups. High transferability was observed at genus, tribe and subfamily level. At tribe level, transferability of jute SSRs (41.04 %) was higher than that of cotton SSRs (33.74 %). The tribe Byttnerieae exhibited highest SSR transferability (48.7 %). The high level of cross-genera transferability (>50 %) in ten species of Malvaceae, where no SSR resource is available, calls for large scale transferability testing from the enriched SSR databases of cotton and jute.
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