Partial characterization of chitinolytic enzymes from Streptomyces albidoflavus

Streptomyces albidoflavus NRRL B-16746 secreted three types of chitinolytic enzymes: N -acetyl-glucosaminidase, chitobiosidase and endochitinase. Optimal activity for all three types of enzymes occurred at pH 4–6; however 55–74% of the chitobiosidase and endochitinase activity was detectable at pH 8–10. Chitobiosidase activity originated from two strongly acidic (pI < 3.0) proteins with molecular mass of 27 kDa and 34 kDa, while endochitinase activity originated from five major acidic proteins (pI 5.1, 5.3, 5.75, 5.8–5.9 and 6.4) with molecular mass of 59, 45, 38.5, 27 and 25.5 kDa. Purified chitobiosidases significantly reduced spore germination and germ tube elongation of Botrytis cinerea and Fusarium oxysporum. Chitinolytic enzymes with significant activity at pH 4–10 may be used, transgenically, to reduce the growth and/or development of a broad spectrum of insects and fungi that are major economic pests.     

Delayed leaf senescence in ethylene-deficient ACC-oxidase antisense tomato plants: molecular and physiological analysis

To determine the role of ethylene during tomato (Lycopersicon esculentum Mill. cv. Alisa Craig) leaf senescence, transgenic ACC oxidase antisense plants were analysed. Northern analysis of wild-type plants indicated that ACC oxidase mRNA accumulation normally begins in pre-senescent green leaves but was severely reduced in the antisense plants. Although the levels of ethylene evolved by wild-type and transgenic leaves increased during the progression of senescence, levels were extremely low in transgenic leaves. Leaf senescence, as assessed by colour change from green to yellow, was clearly delayed by 10–14 days in the antisense plants when compared with wild-type plants. Northern analysis of the photosynthesis-associated genes, cab and rbcS, indicated that levels of the corresponding mRNAs were higher in transgenic leaves which were not yet senescing compared with senescing wild-type leaves of exactly the same age. Northern analysis using probes for tomato fruit ripening-related genes expressed during leaf senescence indicated that once senescence was initiated the expression pattern of these mRNAs was similar in transgenic and wild-type leaves. In the antisense plants chlorophyll levels, photosynthetic capacity and chlorophyll fluorescence were higher when compared with senescing wild-type plants of the same age. Photosynthetic capacity and the quantum efficiency of photosystem II were maintained for longer in the transformed plants at values close to those observed in wild-type leaves prior to the visible onset of senescence. These results indicate that inhibiting ACC oxidase expression and ethylene synthesis results in delayed leaf senescence, rather than inducing a stay-green phenotype. Once senescence begins, it progresses normally. Onset of senescence is not, therefore, related to a critical level of ethylene. The correlation between higher levels prior to senescence and early onset, however, suggests that ethylene experienced by the plant may be a significant contributing factor in the timing of senescence.     

Intracellular distribution of acridine derivatives in platelets and their suitability for cytoplasmic pH measurements

The site and mechanism of accumulation of acridine derivatives into platelets and their isolated organelles were investigated. In addition, their suitability as indicators of cytoplasmic pH was analysed. Direct microscopic observation showed that quinacrine and 9-aminoacridine are concentrated inside organelles in platelets. Using fractionation studies, the acridine derivatives were found to accumulate particularly in dense and α-granules. Uptake into these organelles is driven by a pH differential across their membrane (acidic inside). Because of their cellular distribution, acridine derivatives were found to be poor indicators of cytoplasmic pH. In contrast, a poorly permeant dicarboxylated fluorescein derivative, generated in situ by cytosolic enzymes, is shown to be a more reliable probe of intracellular pH. The results are compared with previous reports of the use of 9-aminoacridine as a cytoplasmic pH probe in platelets and of quinacrine as a selective dense-granule marker.     

Cyanophycin granule polypeptide protease in a unicellular cyanobacterium

An assay was developed to measure the proteolysis of cyanophycin granule polypeptide in crude extracts of a unicellular cyanobacterium. The substrate was radioactively labeled cyanophycin granule polypeptide formed by an unicellular cyanobacterium grown in the presence of chloramphenicol. Substrate polypeptide displayed identical chemical properties with polypeptide isolated from non-chloramphenicol-treated cells. Solubilization of radioactivity as arginine indicated hydrolysis of polypeptide. Radioactively labeled aspartate and arginine from hydrolyzed polypeptide was related to nmol amino acid using a combination of paper chromatography, liquid scintillation analysis, and ninhydrin quantitation. Protease activity was found in extracts of nitrogen-limited cells harvested 16–24 h after a nitrogen source was added back. Optimal pH for protease activity was 8.0 and optimum temperature was 35°C. Protease activity in crude extracts followed Michaelis-Menten kinetics with a V _max of 92 nmol arginine per 15 min/mg protein and a K _m of 2.1×10³ nmol arginine. Protease activity was inhibited by arginine and by high concentrations of aspartate.     

Genetic and functional analyses of the primary in vitro CTL: Response of NZB lymphocytes toH-2-compatible cells

Spleen cells from NZB mice make an unexpected primary cytotoxic T lymphocyte (CTL) response to BALB/c cells in vitro. In this study, it is shown that this response is comprised of at least three independent components. These include a response to antigens recognized in association with H-2^d products, a response to Qa-1^b-associated antigens which is notH-2-restricted and a response directed toward antigens not associated with either H-2^d- or Qa-1^b-coded determinants. The last response appears to be the weakest of the three. In addition, cells from NZB F₁ mice which were either homozygous (Qa-1 ^a /Qa-1 ^a ) or heterozygous (Qa-1 ^a /Qa-1 ^b ) forQa-1 alleles, all responded to BALB/c cells. These data suggest that the NZB CTL response to BALB/c cells is not solely dependent on antigens coded for by genes in theH-2D-Tla region for either the sensitization or effector phases of the response. The ontogeny of the NZB anti-BALB/c CTL response coincides with that of a number of B-cell abnormalities but is shown in experiments with-suppressed NZB mice to be independent of B-cell dysfunction. Studies with (NZB x B10.D2)F₁ + B10.D2 mice demonstrated that the anti-BALB/cCTL response to antigens coded for outside ofQa-1 is governed by at least two genes. Finally, it is shown that another conventionallyH-2-restricted response, that to TNP-modified isologous cells, is neither significantly cross-reactive nor markedly elevated in NZB mice. — The foregoing observations suggest that some subsets of NZB T lymphocytes are intrinsically abnormal. The possibilities that the apparent hyperreactivity of NZB CTL precursors, evidenced in the response to BALB/c cells, is primary or results from the secondary effects of excess T-cell help are discussed.