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Items: 1 to 20 of 105

1.

Processive interfacial catalytic turnover by Bacillus cereus sphingomyelinase on sphingomyelin vesicles.

Yu BZ, Zakim D, Jain MK.

Biochim Biophys Acta. 2002 Jun 13;1583(1):122-32.

PMID:
12069857
2.

Premicellar complexes of sphingomyelinase mediate enzyme exchange for the stationary phase turnover.

Yu BZ, Polenova T, Jain MK, Berg OG.

Biochim Biophys Acta. 2005 Jun 30;1712(2):137-51. Epub 2005 Apr 15.

3.

Mg2+ binding and catalytic function of sphingomyelinase from Bacillus cereus.

Fujii S, Inoue B, Yamamoto H, Ogata K, Shinki T, Inoue S, Tomita M, Tamura H, Tsukamoto K, Ikezawa H, Ikeda K.

J Biochem. 1998 Dec 1;124(6):1178-87.

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Structure-activity relationship of sphingomyelin analogs with sphingomyelinase from Bacillus cereus.

Sergelius C, Niinivehmas S, Maula T, Kurita M, Yamaguchi S, Yamamoto T, Katsumura S, Pentikäinen OT, Slotte JP.

Biochim Biophys Acta. 2012 Mar;1818(3):474-80. doi: 10.1016/j.bbamem.2011.10.013. Epub 2011 Oct 25.

7.

Roles of asp126 and asp156 in the enzyme function of sphingomyelinase from Bacillus cereus.

Fujii S, Ogata K, Inoue B, Inoue S, Murakami M, Iwama S, Katsumura S, Tomita M, Tamura H, Tsukamoto K, Ikezawa H, Ikeda K.

J Biochem. 1999 Jul;126(1):90-7.

8.

A novel mitochondrial sphingomyelinase in zebrafish cells.

Yabu T, Shimuzu A, Yamashita M.

J Biol Chem. 2009 Jul 24;284(30):20349-63. doi: 10.1074/jbc.M109.004580. Epub 2009 May 8.

9.

Interfacial regulation of bacterial sphingomyelinase activity.

Jungner M, Ohvo H, Slotte JP.

Biochim Biophys Acta. 1997 Feb 18;1344(3):230-40.

PMID:
9059513
10.

Characterization of interfacial catalysis by Aeromonas hydrophila lipase/acyltransferase in the highly processive scooting mode.

Jain MK, Krause CD, Buckley JT, Bayburt T, Gelb MH.

Biochemistry. 1994 May 3;33(17):5011-20.

PMID:
8172876
11.

Interfacial catalysis by phospholipase A2: substrate specificity in vesicles.

Ghomashchi F, Yu BZ, Berg O, Jain MK, Gelb MH.

Biochemistry. 1991 Jul 23;30(29):7318-29.

PMID:
1854740
12.

Lipid raft composition modulates sphingomyelinase activity and ceramide-induced membrane physical alterations.

Silva LC, Futerman AH, Prieto M.

Biophys J. 2009 Apr 22;96(8):3210-22. doi: 10.1016/j.bpj.2008.12.3923.

13.

Sphingomyelinase cleavage of sphingomyelin in pure and mixed lipid membranes. Influence of the physical state of the sphingolipid.

Ruiz-Argüello MB, Veiga MP, Arrondo JL, Goñi FM, Alonso A.

Chem Phys Lipids. 2002 Jan;114(1):11-20.

PMID:
11841822
14.

Implication of sphingomyelin/ceramide molar ratio on the biological activity of sphingomyelinase.

Boulgaropoulos B, Amenitsch H, Laggner P, Pabst G.

Biophys J. 2010 Jul 21;99(2):499-506. doi: 10.1016/j.bpj.2010.04.028.

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16.

His151 and His296 are the acid-base catalytic residues of Bacillus cereus sphingomyelinase in sphingomyelin hydrolysis.

Obama T, Fujii S, Ikezawa H, Ikeda K, Imagawa M, Tsukamoto K.

Biol Pharm Bull. 2003 Jul;26(7):920-6.

17.

Sphingomyelinase induces lipid microdomain formation in a fluid phosphatidylcholine/sphingomyelin membrane.

Holopainen JM, Subramanian M, Kinnunen PK.

Biochemistry. 1998 Dec 15;37(50):17562-70.

PMID:
9860872
18.

Cholesterol modulation of sphingomyelinase activity at physiological temperatures.

Contreras FX, Sot J, Ruiz-Argüello MB, Alonso A, Goñi FM.

Chem Phys Lipids. 2004 Jul;130(2):127-34.

PMID:
15172829
19.

Role of sphingomyelinase in infectious diseases caused by Bacillus cereus.

Oda M, Hashimoto M, Takahashi M, Ohmae Y, Seike S, Kato R, Fujita A, Tsuge H, Nagahama M, Ochi S, Sasahara T, Hayashi S, Hirai Y, Sakurai J.

PLoS One. 2012;7(6):e38054. doi: 10.1371/journal.pone.0038054. Epub 2012 Jun 6.

20.

Secretory sphingomyelinase, a product of the acid sphingomyelinase gene, can hydrolyze atherogenic lipoproteins at neutral pH. Implications for atherosclerotic lesion development.

Schissel SL, Jiang X, Tweedie-Hardman J, Jeong T, Camejo EH, Najib J, Rapp JH, Williams KJ, Tabas I.

J Biol Chem. 1998 Jan 30;273(5):2738-46.

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