Study of codon bias perspective of fungal xylanase gene by multivariate analysis

Fungal xylanases has important applications in food, baking, pulp and paper industries in addition to various other industries. Xylanases are produced extensively by both bacterial and fungal sources and has tremendous potential of being active at extremes of temperature and pH. In the present study an effort has been made to explore the codon bias perspective of this potential enzyme using bioinformatics tools. Multivariate analysis has been used as a tool to study codon bias perspectives of xylanases. It was further observed that the codon usage of xylanases genes from different fungal sources is not similar and to reveal this phenomenon the relative synonymous codon usage (RSCU) and base composition variation in fungal xylanase genes were also studied. The codon biasing data like GC content at third position (GC_3S), effective codon number (N_C), codon adaptive index (CAI) were further analyzed with statistical softwares like Sigma1plot 9.0 and Systat 11.0. Furthermore, study of translation selection was also performed to verify the influences of codon usage variation among the 94 xylanase genes. In the present study xylanase gene from 12 organisms were analyzed and codon usages of all xylanases from each organism were compared separately. Analysis indicates biased codon among all 12 fungi taken for study with Aspergillus nidulans, Chaetomium globosum, Aspergillus terreus and Aspergillus clavatus showing maximum biasing. N_C plot and correspondence analysis on relative synonymous codon usage indicate that mutation bias and translation selection influences codon usage variation in fungal xylanase gene. To reveal the relative synonymous codon usage and base composition variation in xylanase, 94 genes from 12 fungi were used as model system.     

Synthesis and anti-HIV activity of alkylated quinoline 2,4-diols

Naturally occurring quinolone alkaloids, buchapine (1) and compound 2 were synthesized as reported in literature and evaluated for anti-HIV potential in human CD4+ T cell line CEM-GFP, infected with HIV-1_NL4.3 virus by p24 antigen capture ELISA assay. The compounds 1 and 2 showed potent inhibitory activity with IC₅₀ value of 2.99 and 3.80 μM, respectively. Further, 45 alkylated derivatives of quinoline 2,4-diol were synthesized and tested for anti-HIV potential in human CD4+ T cell line CEM-GFP. Among these, 13 derivatives have shown more than 60% inhibition. We have identified three most potent inhibitors 6, 9 and 23; compound 6 was found to be more potent than lead molecule 1 with IC₅₀ value of 2.35 μM and had better therapeutic index (26.64) as compared to AZT (23.07). Five derivatives 7, 19a, 19d, 21 and 24 have displayed good noticeable anti-HIV activity. All active compounds showed higher CC₅₀ values which indicate that they have better therapeutic indices.     

A relationship between heme binding and protein stability in cytochrome b5

Conformational changes and long-range effects are often observed in proteins when they associate with their ligands. In many cases, these structural perturbations are essential to function, and they are the result of complex networks of interactions. Here we used cytochrome b(5), a protein that undergoes extensive structural rearrangement upon heme binding, to seek a relationship between affinity for the cofactor and extent of refolding induced by its binding. Three variants of the water-soluble domain of the rat microsomal protein were chosen to affect the stability of the apoprotein or the holoprotein. Sequence alterations were introduced in the heme binding loop (type I mutations, D60R and (55)TENFED --> (55)TEPFEED, or PE), which is largely unstructured in the apoprotein state, and in the folded core of the apoprotein (type II mutation, P81A). Thermal and chemical denaturation experiments and heme transfer experiments were performed on these proteins. Type I mutations left the thermodynamic stability of the apoprotein unchanged. The first mutation (D60R) stabilized the holoprotein in a probable manifestation of enhanced helical propensity or improved electrostatic interactions. The second mutation (PE) decreased heme affinity and holoprotein stability in concert. For this protein, heme transfer experiments could be used to estimate the rate constant of heme loss from each of the heme orientational isomers. In contrast, the type II mutation resulted in a marked destabilization of the apoprotein but an intermediate effect on the holoprotein stability and heme affinity. These data supported that heme affinity could be modulated by the apoprotein stability and by specific residues remote from the heme binding site.     

Folding subdomains of thioredoxin characterized by native-state hydrogen exchange

Native-state hydrogen exchange (HX) studies, used in conjunction with NMR spectroscopy, have been carried out on Escherichia coli thioredoxin (Trx) for characterizing two folding subdomains of the protein. The backbone amide protons of only the slowest-exchanging 24 amino acid residues, of a total of 108 amino acid residues, could be followed at pH 7. The free energy of the opening event that results in an amide hydrogen exchanging with solvent (DeltaG(op)) was determined at each of the 24 amide hydrogen sites. The values of DeltaG(op) for the amide hydrogens belonging to residues in the helices alpha(1), alpha(2), and alpha(4) are consistent with them exchanging with the solvent only when the fully unfolded state is sampled transiently under native conditions. The denaturant-dependences of the values of DeltaG(op) provide very little evidence that the protein samples partially unfolded forms, lower in energy than the unfolded state. The amide hydrogens belonging to the residues in the beta strands, which form the core of the protein, appear to have higher values of DeltaG(op) than amide hydrogens belonging to residues in the helices, suggesting that they might be more stable to exchange. This apparently higher stability to HX of the beta strands might be either because they exchange out their amide hydrogens in a high energy intermediate preceding the globally unfolded state, or, more likely, because they form residual structure in the globally unfolded state. In either case, the central beta strands-beta(3,) beta(2), and beta(4)-would appear to form a cooperatively folding subunit of the protein. The native-state HX methodology has made it possible to characterize the free energy landscape that Trx can sample under equilibrium native conditions.     

Comparative QSPR studies with molecular connectivity,molecular negentropy and TAU indices

Molecular thermochemical properties (heats of formation and atomization) of diverse functional acyclic compounds have been correlated with TAU indices and the relations have been compared to those involving molecular negentropy and first order valence molecular connectivity indices to unravel the diagnostic feature of the TAU scheme and to explore the relative suitability of the scheme in describing physicochemical parameters. For both the properties it was found that TAU relations could satisfactorily explain the variances of the thermochemical parameters and the relations were comparable to those involving molecular negentropy and molecular connectivity. Moreover, specific contributions of functionality, branchedness, shape and size factors to the thermochemical properties could be found from the relations involving TAU parameters. Figure Different topochemical (TAU) indices     

Effects of deforestation and cultivation on soil CEC and contents of exchangeable bases: A case study in Simlipal National Park,India

Deforestation in the tropics seems to be a serious problem probably because of the reduction in soil CEC and the consequent losses of nutrients from the soils. Here, changes in these parameters as influenced by deforestation as well as vegetative cover were studied; statistical methods were applied to interpret the results. Cultivation causes a significant reduction in CEC, total content of the exchangeable bases and exchangeable Ca2+ and Mg2+ levels compared to the adjoining unmanaged forest land. Levels of exchangeable K⁺ and Na⁺, however, do not change significantly. Evergreen forest soils have the highest levels of CEC, total exchangeable bases, exchangeable Ca²⁺ and K⁺. Deciduous forest, grassland and cultivated soils have statistically similar contents of exchangeable Ca²⁺, Mg²⁺, K⁺ and Na⁺. Exchangeable Mg²⁺, however, is not affected by vegetative cover. Soil CEC shows fairly good correlation with the organic carbon content only in evergreen forest soils. In others, organic carbon apparently does not influence CEC significantly. All soils show excellent correlation between their CEC and total exchangeable bases. It is concluded that for regeneration of weathered tropical soils, an evergreen cover provides the most effective means; deciduous vegetation or grass cover do not seem promising.     

Missing heritability of Wilson disease: a search for the uncharacterized mutations

Mammalian Genome - Wilson disease (WD), a copper metabolism disorder caused by mutations in ATP7B, manifests heterogeneous clinical features. Interestingly, in a fraction of clinically diagnosed WD...