Purification and characterization of the inositol 1,4,5-trisphosphate receptor protein from rat vas deferens

Among rat peripheral tissues examined, Ins(1,4,5)P(3) receptor binding is highest in the vas deferens, with levels about 25% of those of the cerebellum. We have purified the InsP(3) receptor binding protein from rat vas deferens membranes 600-fold. The purified protein displays a single 260 kDa band on SDS/PAGE, and the native protein has an apparent molecular mass of 1000 kDa, the same as in cerebellum. The inositol phosphate specificity, pH-dependence and influence of various reagents are the same for purified vas deferens and cerebellar receptors. Whereas particulate InsP(3) binding in cerebellum is potently inhibited by Ca(2+), particulate and purified vas deferens receptor binding of InsP(3) is not influenced by Ca(2+). Vas deferens appears to lack calmedin activity, but the InsP(3) receptor is sensitive to Ca(2+) inhibition conferred by brain calmedin. The vas deferens may prove to be a valuable tissue for characterizing functional aspects of InsP(3) receptors.     

Population Dynamics of Virulence Genes of Xanthomonas campestris pv. malvacearum on Cotton

Population genetic principles in relation to the pathogenicity genes have been applied on the genotypes (races) of Xanthomonas campestris pv. malvacearum(Xcm) which are characterized on the basis of bacterial blight resistant host genes ( B -genes) attacked. Observed (OF) and expected (EF) frequencies were determined to predict the intensity of selection pressure operating in the pathogen population due to the introduction of particular host resistant gene(s). Race 32 (V_p, V₇ V₂ V₁₀ V_N) was the most prevalent genotype representing 41.55% of the Xcm population. Other prevalent genotypes were race 30 (11.08%, V_p V₂ V_in V_N), race 20 (8.56%, V_p V₂ V_N), race 9 (6.80%, V_p V_in) and race 8 (11.59%, V_p V₂). The OF (observed frequency) of race 32 was 41.55%, whereas EF (expected frequency) was 15.74% indicating a strong selection pressure favouring this highly virulent genotype. Whereas, race 31 (V₇ V₂ V_in V_N) also overcomes four major genes like race 32 but not the polygene complex, it was less fit and possessed low EF and OF, i.e. 0.25% and 1.18% respectively. Xcm genotypes capable of attacking 3–4 major B -genes were prevalent on G. hirsutum , while genotypes with virulence against 1–2 B -genes favoured G. barbadense cottons. High virulence level in pathogen genotypes, was maintained on resistant/tolerant host genotypes of G. arboreum and G. hirsutum whereas, it was diluted on the highly susceptible G. barbadense.     

Telomeric repeat [TTAGGG]n sequences of human chromosomes are conserved in chimpanzee (Pan troglodytes)

Summary Using a series of genetic parameters, attempts have been made for more than two decades to establish the close kinship of human (Homo sapiens) with chimpanzee (Pan troglodytes). Molecular and cytogenetic data presently suggest that the two species are closely related. The recent isolation of a human telomeric probe (P5097-B.5) has prompted us to cross hybridize it to chimpanzee chromosomes in order to explore convergence and/or divergence of the telomeric repeat sequences (TTAGGG)_n. On hybridization, the human probe bound to both ends (telomeres) of chimpanzee chromosomes, suggesting a concerted evolution of tandemly repeated short simple sequences (TTAGGG)_n. Even the terminal heterochromatin of chimpanzee chromosomes was found to be endowed with telomeric repeats, suggesting that evolution of heterochromatin and capping with tandemly repeated short sequences are highly complex phenomena.     

A simple method for recovering DNA from agarose gels using glass fibre filters

A simple and reproducible procedure for the recovery of plasmid DNA is described. The method was standardised for the purification of plasmids from Gluconobacter oxydans ATCC9937. The protocol is based on the use of glass microfibre filter paper for entrapment of DNA and its subsequent recovery by an elution buffer. The method precludes the use of phenol and butanol for the removal of proteins and ethidium bromide respectively, therefore, making the procedure inexpensive and gentle.     

Reciprocal regulation of Δ 1-pyrroline-5-carboxylate synthetase and proline dehydrogenase genes controls proline levels during and after osmotic stress in plants

Plants generally accumulate free proline under osmotic stress conditions. Upon removal of the osmotic stress, the proline levels return to normal. In order to understand the mechanisms involved in regulating the levels of proline, we cloned and characterized a proline dehydrogenase (PDH) cDNA from Arabidopsis thaliana (AtPDH). The 1745?bp cDNA contains a major open reading frame encoding a peptide of 499 amino acids. The deduced amino acid sequence has high homology with both Saccharomyces cerevisiae and Drosophila melanogaster proline oxidases and contains a putative mitochondrial targeting sequence. When expressed in yeast, the AtPDH cDNA complemented a yeast put1 mutation and exhibited proline oxidase activity. We also determined the free proline contents and the Δ¹-pyrroline-5-carboxylate synthetase (P5CS) and PDH mRNA levels under different osmotic stress and recovery conditions. The results demonstrated that the removal of free proline during the recovery from salinity or dehydration stress involves an induction of the PDH gene while the activity of P5CS declines. The reciprocal regulation of P5CS and PDH genes appears to be a key mechanism in the control of the levels of proline during and after osmotic stress. The PDH gene was also significantly induced by exogenously applied proline. The induction of PDH by proline, however, was inhibited by salt stress.