A functionally active dimer of Mycobacterium tuberculosis Malate synthase G

Malate synthase G is an important housekeeping enzyme of glyoxylate shunt in mycobacterium. The pleotropic function of this protein by virtue of its intracellular/extracellular localization and its behavior as an adhesin and virulence factor is quite enigmatic. Despite its importance in mycobacterium persistence, we do not know much about its biophysical and biochemical properties. Earlier reports suggest that the enzyme exists only as a monomer in prokaryotes; however, we observed the existence of both active monomer and dimer forms of the enzyme under physiological conditions. The dimeric form of the enzymes is more stable as compared to the monomeric form as evident from various biophysical parameters. In addition, the dimeric enzyme also shows enhanced stability against proteolysis than the monomers. Based on these studies, it seems that dimerization is an important factor in regulating stability. The differential localization and diverse functions of malate synthase other than its enzymatic role might be triggering the stabilization of the enzyme dimer and modulation of activity and stability in vivo.     

Glutamine improves shoot morphogenesis in chickpea (Cicer arietinum L.)

The use of glutamine has been shown to increase the frequency of organogenesis and regeneration in the in vitro culture of several plants. The effect of glutamine on hormone-induced multiple shoot formation in desi and kabuli genotypes of chickpea (C-235 and PUSA-1053) were evaluated. Embryo axes with or without attached cotyledons were cultured in thidiazuron (TDZ) or 6-benzylaminopurine (BAP)-containing medium, respectively, with various concentrations of glutamine. Glutamine improved and prolonged the multiple shoot regeneration ability of the embryo axis. Chickpea embryo axis with attached cotyledon and cultured in TDZ-containing medium showed improved and prolonged shoot regeneration with 5 mM glutamine, while embryo axis without cotyledon and cultured in BAP-containing medium showed prolonged regeneration ability in 10 mM glutamine. Glutamine, however, did not serve as a substitute for cotyledon. Desi genotype (C-235) showed better response for multiple shoot formation as compared to the kabuli genotype (PUSA-1053). Glutamine at a concentration of 5 mM also improved root formation in excised in vitro shoots.     

Nutritional supremacy of pearl- and foxtail millets: assessing the nutrient density,protein stability and shelf-life of flours in millets and cereals for developing nutri-stable foods

Journal of Plant Biochemistry and Biotechnology - Flour of millets is nutritionally better, as compared to cereals, but has problem of low shelf-life. Here, we analyzed the nutritional density, and...     

Hemoglobin Fontainebleau [a21(B2)Ala>Pro]: The second report from India

Structural hemoglobin (Hb) variants are mainly due to point mutations in the globin genes resulting in single amino acid substitutions. Until date, about 200 alpha chain variants have been identified and they are usually detected during the hemoglobinopathy screening programs. Under a community control program for hemoglobinopathies, which involved screening of antenatal cases followed by prenatal diagnosis if indicated. Here, we report a rare alpha globin gene variant Hb Fontainebleau [a21(B2)Ala>Pro] detected in the heterozygous condition in a 35-year-old pregnant lady screened during this program. This is the second report of this alpha globin variant from India. Unlike the earlier case from India where Hb Fontainebleau was reported in a neonate who was also a carrier of Hb Sickle and had no clinical problems, this case presented with a bad obstetric history associated with the secondary infertility. However, the presence of the variant and the obstetric complications may be unrelated.     

The Stress of Suicide: Temporal and Spatial Expression of Putative Heat Shock Protein 70 Protect the Cells from Heat Injury in Wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis>)

Heat stress adversely affects growth, development, and yield of winter wheat (Triticum aestivum). Plants have, however, evolved mechanisms to adapt to such conditions mainly by the expression of stress-associated chaperones, the heat shock proteins (HSPs), for modulating the tolerance level. Here, we report cloning of cytosolic putative HSP70 of 1678 bp from a thermotolerant cultivar (C306) of wheat (T. aestivum). A BLASTn search showed maximum homology with the predicted HSP70 protein reported from Hordeum vulgare (accession no AK354795.1). In silico characterization showed the presence of a nucleotide-binding domain of the sugar kinase/HSP70/actin superfamily in the sequence. Putative HSP70 showed temporal and spatial variations in the expression under heat stress (HS). We observed the abundance of HSP70 protein, H₂O₂, proline, and guaiacol peroxidase activity during the seed-hardening stage under HS; accumulation was, however, higher in the thermotolerant C306 than in thermosusceptible HD2329 cultivar. A gradual decrease in cell membrane stability (CMS) and an increase in total antioxidant capacity (TAC) were observed in both the cultivars at the different stages of growth. The expression of HSP70 showed a negative correlation with CMS and a positive correlation with TAC under HS; changes were less pronounced in C306 than in HD2329 at all the stages of growth studied. HSP70 seems to play diverse roles associated with thermotolerance, and partially protect wheat from terminal HS. Being the important member of family of the HSPs, HSP70 needs to be studied in detail, to be used for developing climate-smart wheat crops, through genetic engineering/breeding approaches.