Whole cells of Bacillus subtilis AF 1 proved more effective than cell-free and chitinase-based formulations in biological control of citrus fruit rot and groundnut rust

In foliar and postharvest biocontrol systems, the use of active metabolites produced by antagonistic microorganisms is advantageous compared with the use of living microorganisms. Chitinases, a major group of hydrolytic enzymes produced by biocontrol agents, are involved in the lysis of cell walls of pathogenic fungi. In the present study, an attempt was made to test the partially purified beta-1,4-N-acetylglucosaminidase (NAGase) of a biocontrol strain Bacillus subtilis AF 1 for control of rust in groundnut (caused by Puccinia arachidis) and soft rot in lemons (caused by Aspergillus niger). Four proteins of molecular mass 67, 40, 37, and 32 kDa were isolated from the culture filtrates of AF 1 by affinity chromatography, of which the 67-kDa protein has detectable chitinolytic ability. This protein (NAGase) effectively inhibited the in vitro growth of A. niger in microtitre plates. In the presence of NAGase, germination of urediniospores of P. arachidis was reduced by 96% compared with the control. In a detached leaf bioassay, NAGase reduced the rust lesion frequency by >60%. NAGase significantly reduced the incidence of soft rot in harvested lemon fruits. However, fresh cells and (or) alginate formulation of AF 1 were more effective than NAGase in control of both of the test plant - pathogen systems.     

Is tissue culture a viable system with which to examine environmental and hormonal regulation of cold acclimation in woody plants?

In vitro-grown saskatoon berry (Amelanchier alnifolia Nutt.) plantlets were exposed to various hormonal treatments, dormancy-inducing and cold acclimation conditions to determine if this in vitro system would be viable for dormancy/hardiness studies in woody plants. Low temperature induced significant hardiness levels in plantlets to ?27°C after 6 weeks at 4°C but did not approach liquid nitrogen levels of fully hardened, field-grown buds. Control plantlets were consistently killed at ?5°C throughout this period. Significant hardiness was attained under both short and long day/low temperature conditions; however, hardiness was reduced under continuous light or dark treatments. A pre-exposure to the typical short photoperiod regime of woody plants did not significantly increase the rate of acclimation in these plantlets. The presence/absence of phytohormones in the media have a pronounced influence on the ability of plantlets to cold acclimate. Hormone-free media increased hardiness to ?10.5°C after 2 weeks in treatment. Addition of abscisic acid (ABA) increased cold hardiness levels (?12°C) while addition of benzylaminopurine (BAP) to this hormone-free media decreased hardiness to ?5.3°C. A combination of BAP and ABA treatments produced LT₅₀ values intermediate between individual applications of either hormone. Conversely, α-naphthaleneacetic acid (NAA) could not counteract the ABA-induced hardiness. ABA treatments alone were not able to harden plantlets to the extent attained under low temperature acclimation conditions. Further, ABA could not maintain the hardiness levels of cold-acclimating treatments and plantlets de-acclimated to ?9°C in BAP + ABA media. Subculturing in itself significantly elevated cold hardiness in plantlets to ?9°C on BAP + NAA media within 3 days after subculture and thereafter plantlets dehardened to ?5°C. While tissue culture has value in specific cases, caution should be taken when using tissue-cultured plantlets as a system to evaluate environmental regulation of cold acclimation in woody plants, in part, due to the influence of phytohormones in the media.     

Influence of intramolecular cross-links on the molecular, structural and functional properties of PEGylated haemoglobin

The influence of intramolecular cross-links on the molecular, structural and functional properties of PEGylated {PEG [poly(ethylene glycol)]-conjugated} haemoglobin has been investigated. The sites and the extent of PEGylation of haemoglobin by reductive alkylation are not influenced by the presence of an alphaalpha-fumaryl cross-link at Lys-99(alpha). The propylated hexaPEGylated cross-linked haemoglobin, (propyl-PEG5K)(6)-alphaalpha-Hb, exhibits a larger molecular radius and lower colloidal osmotic pressure than propylated hexaPEGylated non-cross-linked haemoglobin, (propyl-PEG5K)(6)-Hb. Perturbation of the haem microenvironment and the alpha1beta2 interface by PEGylation of haemoglobin is reduced by intramolecular cross-linking. Sedimentation velocity analysis established that PEGylation destabilizes the tetrameric structure of haemoglobin. (Propyl-PEG5K)(6)-Hb and (propyl-PEG5K)(6)-alphaalpha-Hb sediment as stable dimeric and tetrameric molecules, respectively. The betabeta-succinimidophenyl PEG-2000 cross-link at Cys-93(beta) outside the central cavity also influences the molecular properties of haemoglobin, comparable to that by the alphaalpha-fumaryl cross-link within the central cavity. However, the influence of the two cross-links on the oxygen affinity of PEGylated haemoglobin are very distinct, indicating that the high oxygen affinity of PEGylated haemoglobin is not a direct consequence of the dissociation of the haemoglobin tetramers into dimers. alphaalpha-Fumaryl cross-linking is preferred to modulate both oxygen affinity and molecular properties of PEGylated haemoglobin, and cross-linking outside the central cavity could only modulate molecular properties of PEGylated haemoglobin. It is suggested that PEGylation induces a hydrodynamic drag on haemoglobin and this plays a role in the microcirculatory properties of PEGylated haemoglobin.     

Inhibitory effects of tamoxifen and tumor necrosis factor α on human glioblastoma cells

We reported previously that tumor necrosis factor α (TNFα) inhibited proliferation and invasiveness of human malignant glial cells. Because tamoxifen, an estrogen antagonist, has also been shown to inhibit growth of such cells, we hypothesized that a combination of tamoxifen and TNFα might be more effective than either reagent alone. TNFα (1–100 ng/ml) or tamoxifen (80 ng/ml-2 μg/ml) alone inhibited proliferation of a human glioblastoma cell line (WITG3) in a dose-dependent fashion; in combination, tamoxifen and TNFα yielded additive growth inhibition. Apoptotic cells characterized by nuclear fragmentation were detectable after 48 h of TNFα or tamoxifen exposure and were significantly increased by combination treatment. In non-neoplastic human astroglia and fibroblasts, proliferation was unaffected by tamoxifen, and enhanced by TNFα as previously reported. Staurosporine (2–50 nM), which has been reported to augment the effects of TNFα, was less effective than tamoxifen against WITG3 and, in addition, was markedly inhibitory to non-neoplastic glial cells. Binding studies yielded no evidence of WITG3 estrogen or progesterone receptors, nor of tamoxifen effects on TNFα receptors. Data suggest that TNFα and tamoxifen in combination display growth-regulatory properties, which (a) are more inhibitory to human glioblastoma cells than either agent alone, (b) do not affect non-neoplastic glia, (c) do not require either estrogen/ progesterone receptors or alteration of external TNFα receptors, and (d) may involve apoptosis.     

Swainsonine production in fed-batch fermentations of Metarhizium anisopliae

Summary Extended and enhanced production of swainsonine was achieved from fed-batch fermentations of the fungus Metarhizium anisopliae. A complex medium based on oatmeal extract was intermittently fed with D-glucose and/or lysine. Swainsonine titres were improved eleven-fold and the duration of production extended was from 240 to 550 hours compared with a batch culture under the same conditions.     

Dihydroxypropylation of amino groups of proteins: use of glyceraldehyde as a reversible agent for reductive alkylation

The mode of derivatization of amino groups of proteins by glyceraldehyde, an aldotriose, depends on the presence or absence of reducing agent. In the presence of sodium cyanoborohydride, the Schiff base adducts of the aldehyde with the amino groups are reduced, and dihydroxypropylation of amino groups takes place (reductive mode). The reductively glycated lysine residue, N epsilon-(2,3-dihydroxypropyl)lysine, is a substituted alpha-amino alcohol. This alpha-amino alcoholic function of the derivatized lysine should be susceptible to periodate oxidation, and this oxidation is anticipated to result in the regeneration of the lysine residue. This aspect has been now investigated. Indeed, on mild periodate oxidation (15 mM periodate, 15 min at room temperature) of dihydroxypropylated ribonuclease A, nearly 95% of its N epsilon-(2,3-dihydroxypropyl)lysine residues were regenerated to lysine residues. The removal of the dihydroxypropyl groups by periodate oxidation could be accomplished within a wide pH range with little variation in the recovery of lysines. The possible usefulness of this reversible chemical modification procedure in the primary structural studies of proteins was investigated with a tryptic peptide of dihydroxypropylated streptococcal M5 protein, namely, DHP-T4. This 12-residue tryptic peptide contains one internal N epsilon-(dihydroxypropyl)lysine. The dihydroxypropylated peptide released most of its dihydroxypropyl groups on mild periodate oxidation. Redigestion of the periodate-treated peptide with trypsin generated the two expected peptides, demonstrating the generation of a trypsin-susceptible site. Reductive dihydroxypropylation of amino groups of RNase A resulted in the loss of its enzyme activity, the extent of inactivation increasing with the concentration of the glyceraldehyde used.(ABSTRACT TRUNCATED AT 250 WORDS)     

An interpretation of the apparent dual specificity of some murine myeloma immunoglobulins with inulinbinding activity.

Five murine myeloma immunoglobulins have been studied for their binding with fructose-containing homopolysaccharides. The results indicate that the anti-(2 leads to 1)-D-fructofuranans are capable of binding (2 leads to 6)-D-fructofuranans with reduced affinity. An anti-(2 leads to 6)-D-fructofuranan (U10) was incapable of binding a (2 leads to 1)-D-fructofuranan. By using molecular models of fructofuranans of both linkage types, and a hypothetical molecular model of the combining region of E109, an anti-(2 leads to 1)-D-fructofuranan, a rationalization of these date can be proposed.     

Synergistic antibacterial and anti-biofilm activity of nisin like bacteriocin with curcumin and cinnamaldehyde against ESBL and MBL producing clinical strains

Abstract

Bacteriocins are small peptides that can inhibit the growth of a diverse range of microbes. There is a need to identify bacteriocins that are effective against biofilms of resistant clinical strains. The present study focussed on the efficacy of purified nisin like bacteriocin-GAM217 against extended spectrum β-lactamase (ESBL) and metallo-beta-lactamase (MBL) producing clinical strains. Bacteriocin-GAM217 when combined with curcumin and cinnamaldehyde, synergistically enhanced antibacterial activity against planktonic and biofilm cultures of Staphylococcus epidermidis and Escherichia coli. Bacteriocin-GAM217 and phytochemical combinations inhibited biofilm formation by >80%, and disrupted the biofilm for selected ESBL and MBL producing clinical strains. The anti-adhesion assay showed that these combinatorial compounds significantly lowered the attachment of bacteria to Vero cells and that they elicited membrane permeability and rapid killing as viewed by confocal microscopy. This study demonstrates that bacteriocin-GAM217 in combination with phytochemicals can be a potential anti-biofilm agent and thus has potential for biomedical applications.