Kimiyoshi Ohno scite author profile

Lacticin Q is a pore-forming bacteriocin produced by Lactococcus lactis QU 5, and its antimicrobial activity is in the nanomolar range. Lacticin Q induced calcein leakage from negatively charged liposomes. However, no morphological changes in the liposomes were observed by light scattering. Concomitantly with the calcein leakage, lacticin Q was found to translocate from the outer to the inner leaflet of the liposomes, after it initially bound to the membrane within 2 s. Lacticin Q also induced lipid flip-flop. These results reveal that the antimicrobial mechanism of lacticin Q can be described by the toroidal pore model. This is the first report of a bacteriocin of gram-positive bacteria that forms a toroidal pore. From liposomes, lacticin Q leaked fluorescence-labeled dextran with a diameter of 4.6 nm. In addition, lacticin Q caused the leakage of small proteins, such as the green fluorescent protein, from live bacterial cells. There are no other reports of antimicrobial peptides that exhibit protein leakage properties. The proposed pore formation model of lacticin Q is as follows: (i) quick binding to outer membrane leaflets; (ii) the formation of at least 4.6-nm pores, causing protein leakage with lipid flip-flop; and (iii) the migration of lacticin Q molecules from the outer to the inner membrane leaflets. Consequently, we termed the novel pore model in the antimicrobial mechanism of lacticin Q a "huge toroidal pore."

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Free d-amino acids in human plasma in relation to senescence and renal diseases

Nagata

Akino

Ohno

et al. 1987

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Minute but appreciable amounts of D-amino acids were detected in normal human plasma. The content was significantly higher in an elderly population (age 76 +/- 6 years, mean +/- SD, n = 41) than in a younger group (age 42 +/- 4 years, n = 26), i.e. 6.9 +/- 4.8 nmol/ml (mean +/- SD, range 0-18.8 nmol/ml) and 2.5 +/- 1.8 nmol/ml (range 0-6.3 nmol/ml) for the elderly and the younger groups, respectively. Elevation of plasma D-amino acid level was observed in a group of patients with renal disease (3.6-52.6 nmol/ml), in proportion to the serum level of creatinine (n = 50, r = 0.726, P less than 0.001), beta 2-microglobulin (n = 34, r = 0.551, P less than 0.005), and to glomerular filtration rate (n = 39, r = 0.556, P less than 0.001).

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Solubilization and Purification of Rat, Liver Microsomal 1,2‐Diacylglycerol: CDP‐choline Cholinephosphotransferase and 1,2‐Diacylglycerol CDP‐ethanolamine Ethanolaminephosphotransferase

Kanoh

Ohno

1976

European Journal of Biochemistry

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1. The procedure, which involved 2-step sonication of microsomes at pH 7.4 and then at pH 8.5 in the presence of sodium deoxycholate and subsequent dialysis, resulted in 4-5-fold purification of choline-phosphotransferase and ethanolaminephosphotransferase with the yield of 40-50%. 2. Ethanolaminephosphotransferase was further purified 8.5-fold over microsomes by sucrose density gradient centrifugation of the partially purified preparation, while cholinephosphotransferase activity was considerably lost during this procedure. No separation of the two transferases from each other was achieved at this step. 3. Cholinephosphotransferase required Mg2+ as cofactor, and microsomal phospholipids for its maximal activity. On the other hand, Mn2+ was more effective than Mg2+ as cofactor for ethanol aminephosphotransferase, and this enzyme was inhibited by microsomal phospholipids. 4. Both transferases were stimulated several-fold by sodium deoxycholate and also showed similar optimal pH ranging from pH 8.0 to 8.5. 5. Km values for 1,2-diacylglycerol emulsion were 81.0 muM for cholinephosphotransferase and 63.0 muM for ethanolaminephosphotransferase, respectively. CDP-choline and CDP-ethanolamine competitively inhibited, with the same Ki value (both 350 muM), ethanolaminephosphotransferase and cholinephosphotransferase, respectively. The Ki values obtained were much greater than the corresponding Km values for the cytidine substrates (36.4 muM for CDP-choline and 22.0 muM for CDP-ethanolamine). 6. The partially purified enzymes were further treated with Triton X-100. When enzyme activities were assayed with Mg2+, cholinephosphotransferase, although considerably inactivated, was partially separated from ethanolaminephosphotransferase by sucrose density gradient centrifugation of Triton-treated preparations. Furthermore, cholinephosphotransferase (but not ethanol-aminephosphotransferase) itself was partially separated into Mg2+ -requiring and Mn2+ -requiring components. In contrast, ethanolaminephosphotransferase assayed with either Mg2+ or Mn2+ formed a single peak together with Mn2+ -requiring cholinephosphotransferase.

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Metastases-Related Genes in the Classification of Liver and Peritoneal Metastasis in Human Gastric Cancer

Fukui

Nishimori

Hata

et al. 2005

Journal of Surgical Research

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Kimiyoshi Ohno

Peptide-Lipid Huge Toroidal Pore, a New Antimicrobial Mechanism Mediated by a Lactococcal Bacteriocin, Lacticin Q

Free d-amino acids in human plasma in relation to senescence and renal diseases

Solubilization and Purification of Rat, Liver Microsomal 1,2‐Diacylglycerol: CDP‐choline Cholinephosphotransferase and 1,2‐Diacylglycerol CDP‐ethanolamine Ethanolaminephosphotransferase

Metastases-Related Genes in the Classification of Liver and Peritoneal Metastasis in Human Gastric Cancer

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