Binding of a pleurotolysin ortholog from Pleurotus eryngii to sphingomyelin and cholesterol-rich membrane domains

A mixture of sphingomyelin (SM) and cholesterol (Chol) exhibits a characteristic lipid raft domain of the cell membranes that provides a platform to which various signal molecules as well as virus and bacterial proteins are recruited. Several proteins capable of specifically binding either SM or Chol have been reported. However, proteins that selectively bind to SM/Chol mixtures are less well characterized. In our screening for proteins specifically binding to SM/Chol liposomes, we identified a novel ortholog of Pleurotus ostreatus, pleurotolysin (Ply)A, from the extract of edible mushroom Pleurotus eryngii, named PlyA2. Enhanced green fluorescent protein (EGFP)-conjugated PlyA2 bound to SM/Chol but not to phosphatidylcholine/Chol liposomes. Cell surface labeling of PlyA2-EGFP was abolished after sphingomyelinase as well as methyl-β-cyclodextrin treatment, removing SM and Chol, respectively, indicating that PlyA2-EGFP specifically binds cell surface SM/Chol rafts. Tryptophan to alanine point mutation of PlyA2 revealed the importance of C-terminal tryptophan residues for SM/Chol binding. Our results indicate that PlyA2-EGFP is a novel protein probe to label SM/Chol lipid domains both in cell and model membranes.     

Studies on Bacterial Protease

The neutral protease of Bacillus amylosacchariticus was inactivated by low concentrations of several metal-chelating agents and the inactivated enzyme with EDTA restored its activity almost completely by the addition of Zn⁺⁺ or Co⁺⁺ and partially by Fe⁺⁺ or Mn⁺⁺, if these metal ions were added shortly after the EDTA-treatment. The native enzyme was found to contain 0.19% of zinc together with a significant amount of calcium. Parallel increase in specific activity and zinc content of enzyme preparation was observed throughout the purification procedure. The elution pattern of enzyme activity on a CM-cellulose column chromatography also completely coincided with that of protein-bound zinc. A zinc-free inactive enzyme was also reactivated by the addition of zinc or cobalt ions, clearly showing that the neutral protease of B. amylosacchariticus is a zinc mctalloenzyme.     

Post-proline Dipeptidyl Amino-peptidase from Flavobacterium

Nitrogenase catalyzes not only the reduction of N₂ to NH₃ but also the reduction of C₂H₂ to C₂H₄ and H⁺ ion to H₂ gas, etc. The detailed mechanism of the nitrogenase reaction is not clear. We have prepared monoclonal antibodies against Component I nitrogenase of A. vinelandii and examined the effects of antibodies on the nitrogenase reactions. A monoclonal antibody designated MA-1 inhibited C₂H₂ reduction activity strongly but did not inhibit H₂ evolution activity. MA-2, on the contrary, inhibited only H₂ evolution activity. MA-8 inhibited both C₂H₂ reduction and H₂ evolution activity to the same extent.     

Inhibitory Effect of Glycine on the Production of Amylase and Proteinase by Bacillus subtilis

It was found that the production of amylase and proteinase by washed cells of Bacillus subtilis var. amyloliquefaciens was inhibited by glycine and its peptides but not by glycine derivatives, in which the free amino group was protected with various groups. Incorporation experiments of glycine-C¹⁴ revealed that about 60 per cent of the radioactivity which had been incorporated into the cells was found in the free amino acid fraction of the bacteria. The inhibitory effect of glycine was easily reversed by the addition of amino acid such as alanine, methionine and glutamic acid. Spermine also caused the reversal of inhibition of the enzyme production by glycine.     

An Arylamidase from Flavobacterium meningosepticum

An arylamidase was purified from Flavobacterium meningosepticum by a series of chromatographies on CM-cellulose, DEAE-Sephadex A-50 and Sephadex G-150. The purified enzyme appeared homogeneous on SDS-gel electrophoresis. The molecular weight of the enzyme was estimated to be more than 500,000 dalton by using a column of Sepharose 4B and to be 62,000 when checked by SDS-gel electrophoresis. The enzyme was most active at pH 7.5 toward Leu-β-naphthylamide (Leu-β-NA). It catalyzed the hydrolysis of not only various amino acid-β-naphthylamides but also some peptides, but the hydrolysis rate of the latter substrates was quite low. Cys-di-β-naphthylamide was split by this enzyme at an optimal pH of 6.2. Incubation of oxytocin with the enzyme resulted in a decrease in the biological activity, indicating that this arylamidase possesses an oxytocinase (cystyl aminopeptidase)-like activity.     

Studies on Bacterial Protease

Some physicochemical properties and amino acid composition of the alkaline protease of B. amylosacchariticus were determined. The molecular weight and sedimentation coefficient were estimated to be 22,700 and 2.89 s, respectively, and the amino terminal amino acid was identified to be alanine. The enzyme contained 15.9% of nitrogen and was composed of 220 residues of amino acid: lys₆, his₅, arg₃, asp₂₀, thr₁₄, ser₃₇, glu₁₂, pro₁₀, gly₂₅ ala₂₇ val₂₀, met₃, isoleu₁₂, leu₁₂, tyr₉, phe₂, try₃ and amide ammonia₁₆ The results indicate that protein nature and chemical properties of the alkaline protease presented here are distinct from those of alkaline proteases obtained from the other strains of B. subtilis, such as subtilopeptidase A, B and BPN’