Cholesterol and lipid peroxidation in 3 beta-(2-diethylaminoethoxy)- androst-5-en-17-oneHCl (U18666A) induced cataractogenesis in rats.

Decrease in cholesterol was observed in precataractous, cataractous, advance nuclear cataractous and non-cataractous lenses when 3 beta-(2-diethylaminoethoxy)-androst-5-en-17- oneHCl (U18666A) was injected, sc, to rats. Significant increase in lipid peroxidation was observed before the onset of any apparent lenticular opacity in U18666A treated rats. The results suggest that decrease in cholesterol is capable of altering the structural integrity of lens fibers. However, 12.5% decrease in cholesterol and 5% increase in lipid peroxidation observed in non-cataractous lenses indicated that these changes are not sufficient for any apparent opacification.     

Simple and efficient protocol for isolation of high molecular weight DNA from Streptomyces aureofaciens

A simple and efficient protocol involving the use of cetyltrimethylammonium bromide (CTAB) for rapid isolation of high molecular wt ( 50 kb) DNA from Streptomyces aureofaciens is described. The DNA yields range from 1.5–2.5 mg per 1.0 g (wet wt) of mycelia, with the purity measured at A260/280 of 1.83–1.97 and also at A260/230 of 2.2–2.71. The DNA preparation is suitable as substrate for restriction digestion, Southern hybridization and library construction. © Rapid Science Ltd. 1998     

Influence of Boron on Somatic Embryogenesis in Papaya

Influence of boron on somatic embryogenesis in papaya (Carica papaya L.) cv. Honey Dew was investigated. Immature zygotic embryos were grown in the induction medium containing Murashige and Skoog basal salts, with B₅ vitamins, picloram (1 mg dm⁻³) or 2,4-dichlorophenoxy acetic acid (2 mg dm⁻³) and different concentrations of boric acid (30 to 500 mg dm⁻³). Maximum somatic embryo initiation was observed at 62 mg dm⁻³ boric acid irrespective of the growth regulator used. The cotyledonary stage somatic embryos were germinated on MS basal medium devoid of growth regulators. The regenerated plantlets were hardened under greenhouse conditions and transferred to field. This revised version was published online in July 2006 with corrections to the Cover Date.     

Isolation and heterologous expression of PHA synthesising genes from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> R1

The polyhydroxyalkanoate biosynthesis gene locus from Bacillus thuringiensis R1 was isolated, cloned and analyzed at the molecular level. We found that a ∼5 kb SacI–ClaI digested fragment of genomic DNA from B. thuringiensis R1 encoding the PHA synthesising genes, conferred PHA producing ability to E. coli. The fragment was sequenced and found to be of 4787 bp with five open reading frames. Sequence alignment with closely related species of Bacillus in the existing database revealed that the ORFs correspond to phaP, phaQ, phaR, phaB and phaC genes. However, E. coli harboring phaP, phaQ, phaR, phaB and phaC locus produced very low PHA. Furthermore, complementation of the locus with phaA from Ralstonia eutropha increased the PHA production in the recombinant E. coli from 3.0% to 24% of cell dry mass. The putative promoter regions and ribosome binding sites were identified for each of the gene. Conserved domains for PHA synthase and aceto-acetyl-coA reductase were also identified. We hence conclude that the PHA operon of Bacillus thuringiensis R1 consists of phaP, phaQ, phaR, phaB, phaC and complementation of the same with phaA is accountable for its high PHA production.     

Activation of complement component C5: comparison of C5 convertases of the lectin pathway and the classical pathway of complement

Although the initiating complex of lectin pathway (called M1 in this study) generates C3/C5 convertases similar to those assembled by the initiating complex (C1) of the classical pathway, activation of complement component C5 via the lectin pathway has not been examined. In the present study kinetic analysis of lectin pathway C3/C5 convertases assembled on two surfaces (zymosan and sheep erythrocytes coated with mannan (E(Man))) revealed that the convertases (ZymM1,C4b,C2a and E(Man)M1,C4b,C2a) exhibited a similar but weak affinity for the substrate, C5 indicated by a high K(m) (2.73-6.88 microm). Very high affinity C5 convertases were generated when the low affinity C3/C5 convertases were allowed to deposit C3b by cleaving native C3. These C3b-containing convertases exhibited K(m) (0.0086-0.0075 microm) well below the normal concentration of C5 in blood (0.37 microm). Although kinetic parameters, K(m) and k(cat), of the lectin pathway C3/C5 convertases were similar to those reported for classical pathway C3/C5 convertases, studies on the ability of C4b to bind C2 indicated that every C4b deposited on zymosan or E(Man) was capable of forming a convertase. These findings differ from those reported for the classical pathway C3/C5 convertase, where only one of four C4b molecules deposited formed a convertase. The potential for four times more amplification via the lectin pathway than the classical pathway in the generation of C3/C5 convertases and production of pro-inflammatory products, such as C3a, C4a, and C5a, implies that activation of complement via the lectin pathway might be a more prominent contributor to the pathology of inflammatory reactions.     

Construction of a Streptomyces sp.–Escherichia coli conjugative shuttle vector and its application for recombinant biosynthesis of poly(3-hydroxyalkanoic acid)

pGTR760 and pGTR761, two new shuttle vectors, withmultiple cloning sites and capable of conjugal transfer from E. coli to Streptomyces sp. were constructed. The poly-3-hydroxybutyrate (PHB) biosynthetic polycistron from Ralstonia eutropha was cloned into the pGTR760 vector to derive the pCAB_Re plasmid. The pCAB_Re plasmid was conjugally transferred from E. coli S17-1 to Streptomyces lividans TK64. Fluorescence microscopy of the recombinant and the untransformed S. lividans TK64 revealed presence of polyhydroxyalkanoates (PHAs) in both cell types. GC/GC-MS analysis revealed the accumulated polymer to be polyhydroxyoctanoate (PHO). While the untransformed S. lividans cells accumulate 3.5% PHO of cell dry wt, the recombinant cells accumulate 8% PHO of the cell dry wt. The transformation of S. lividans, however, resulted in slower growth rate, delayed sporulation and impaired pigment formation. Scanning electron microscope analysis revealed broken mycelia probably due to release of accumulated PHO granules from the cells.     

PHB synthase from Streptomyces aureofaciens NRRL 2209

An approximately 4.9 kb Sau3A I genomic DNA fragment from the Streptomyces aureofaciens NRRL 2209 aiding in the biosynthesis of PHB in recombinant Escherichia coli has been sequenced and analysed for phaC gene. The putative phaC(Sa) gene of 2 kb is 79.1% GC rich and encodes a 63.5 kDa protein. It expressed under its own promoter and significant PHA synthase activity was detected in the recombinant E. coli. This is the first putative PHA synthase gene reported from a Streptomyces sp. with serine as the active nucleophile in the conserved lipase box. The phaC(Sa) was found in close proximity to a regulatory gene, which apparently regulated the phaC expression.     

Formation of high affinity C5 convertase of the classical pathway of complement

C3/C5 convertase is a serine protease that cleaves C3 and C5. In the present study we examined the C5 cleaving properties of classical pathway C3/C5 convertase either bound to the surface of sheep erythrocytes or in its free soluble form. Kinetic parameters revealed that the soluble form of the enzyme (C4b,C2a) cleaved C5 at a catalytic rate similar to that of the surface-bound form (EAC1,C4b,C2a). However, both forms of the enzyme exhibited a poor affinity for the substrate, C5, as indicated by a high Km (6-9 microM). Increasing the density of C4b on the cell surface from 8,000 to 172,000 C4b/cell did not influence the Km. Very high affinity C5 convertases were generated only when the low affinity C3/C5 convertases (EAC1,C4b,C2a) were allowed to deposit C3b by cleaving native C3. These C3b-containing C3/C5 convertases exhibited Km (0.0051 microM) well below the normal concentration of C5 in blood (0.37 microM). The data suggest that C3/C5 convertase assembled with either monomeric C4b or C4b-C4b complexes are inefficient in capturing C5 but cleave C3 opsonizing the cell surface with C3b for phagocytosis. Deposition of C3b converts the enzymes to high affinity C5 convertases, which cleave C5 in blood at catalytic rates approaching Vmax, thereby switching from C3 to C5 cleavage. Comparison of the kinetic parameters with those of the alternative pathway convertase indicates that the 6-9-fold greater catalytic rate of the classical pathway C5 convertase may compensate for the fewer numbers of C5 convertase sites generated upon activation of this pathway.