Martinek, K., Mozhaev, V.V. (1985), Immobilization of enzymes: An approach to fundamental studies in
biochemistry, in Meister, A. (Ed.),Advances in Enzymology, Vol. 57, Wiley, New York, pp. 179–249.
Masoom, M., Roberti, R., Binaglia, L. (1990), Determination of phosphatidylcholine in a flow injection
system using immobilized enzyme reactors,Anal. Biochem. 187 , 240–245.
Morris, A.J., Frohman, M.A., Engebrecht, J. (1997), Measurement of phospholipase D activity,Anal.
Biochem. 252 , 1–9.
Mosbach, K. (1980), Future Trends–Immobilized enzymes, in:Trends Biochem.Sci. 5 , 1–3,
Elsevier/North Holland Biomedical Press, Amsterdam.
Mustranta, A., Suortti, T., Poutanen, K. (1994), Transesterification of phospholipids in different reaction
conditions,J. Am. Oil Chem. Soc. 71 , 1415–1419.
Nakashima, T., Fukuda, H., Kyotani, S., Morikawa, H. (1988), Culture conditions for intracellular lipase
production byRhizopus chinensisand its immobilization within biomass support particles,J. Ferment.
Technol. 66 , 441–448.
Okahata, Y., Niikura, K., Ijiro, K. (1995), Simple transphosphatidylation of phospholipids catalyzed by a
lipid-coated phospholipase D in organic solvents,J. Chem. Soc. Perkin Trans. 1 , 919–925.
Pernas, P., Olivier, J.L., Legoy, M.D., Bereziat, G. (1990), Phospholipid synthesis by extracellular Phos-
pholipase A 2 in organic solvents,Biochem. Biophys. Res. Commun. 168 , 644–650.
Pieterson, W.A., Vidal, J.C., Volwerk, J.J., de Haas, G.H. (1974), Zymogen-catalyzed hydrolysis of mono-
meric substrates and the presence of a recognition site for lipid-water interfaces in phospholipase A 2 ,
Biochemistry 13 , 1455–1459.
Pisch, S., Bornscheuer, U., Meyer, H.H., Schmid, R.D. (1997), Properties of unusual phospholipids IV:
Chemoenzymatic synthesis of phospholipids bearing acetylenic fatty acids,Tetrahedron 53 , 14627–
14634.
Qiu, X., Ong, S., Bernal, C., Rhee, D., Pidgeon, C. (1994), A general synthesis route for preparing ether
phospholipids suitable for immobilization: A phosphotriester approach,J. Org. Chem. 59 , 537–543.
Rehm, H.J., Omar S.H. (1993), Special morphological and metabolic behavior of immobilized micro-
organisms, in Rehm, H.J., Reed, G., Pu ̈hler, A., Stadler, P. (Eds),Biotechnology Biological Funda-
mentals(Sahm, J., Ed.), Vol. 1, VCH, Weinheim, pp. 223–248.
Remus, M., Grunwald, P. (1995), Immobilization of phospholipase A 2 by covalent binding to a carrier in
water and organic solvents, in Cevc, G., Paltauf, F. (Eds),Phospholipids: Characterization, Metabo-
lism and Novel Biological Applications, AOCS Press, Champaign, IL, pp. 339–347.
Reuter, M. (1997), Biotechnologische Anwendung des Enzyms Phospholipase D aus Weißkohl zur ka-
talytischen Umwandlung von Lecithinen, Dissertation, Universita ̈t Hamburg.
Roberts, M.F., Deems, R.A., Mincey, T.C., Dennis, E.A. (1977), Modification of the histidine residue in
phospholipase A 2 (Naja, Naja, Naja),J. Biol. Chem. 252 , 2405–2411.
Schneider, M. (1997a), Industrial production of phospholipids–lecithin processing,Lipid Technol.109–
113.
Schneider, M. (1997b), Phospholipids, in Gunstone, F.D., Padley, F.B. (Eds),Lipid Technologies and
Applications, Marcel Dekker, Inc., New York, pp. 51–78.
Scott, D.L., White, S.P., Otwinowski, Z., Yuan, W., Gelb, M.H., Sigler, P.B. (1991), Interfacial catalysis:
The mechanism of phospholipase A 2 ,Science 250 , 1541–1546.
Servi, S. (1999), Phospholipases as synthetic catalysts, in Fessner, W.-D. (Ed.),Topics in current chem-
istry, Biocatalysis from discovery to application, Vol. 200, Springer Verlag, Berlin, pp. 127–158.
Shen, Z., Cho, W. (1995), Highly efficient immobilization of phospholipase A 2 and its biomedical ap-
plication,J. Lipid Res. 36 , 1147–1151.
Shinonaga, M.-A., Kawamura, Y., Shimbo, K., Yamane, T. (1996), Continuous production of phospho-
lipase D byStreptomyces lydicusD-121 immobilized with cross-linked chitosan beads,J. Ferment.
Bioeng., 81 , 310–314.
Solomon, B., Hollander, Z., Koppel, R., Katchalski Katzir, E. (1987), Use of monoclonal antibodies for
the preparation of highly active immobilized enzymes, in Mosbach, K. (Ed.),Methods in Enzymology,
Vol. 135, 160–170.
Takami, M., Suzuki, Y. (1995), Transphosphatidylation reaction of phosphatidylcholine to 4-methoxy-
phenol on water-immiscible organic with immobilized phospholipase D,J. Ferment. Bioeng. 79 ,
313–316.
Ter Meer, H.U. (1984), Thermoreversible Gelierung: Carrageenan, Agarose, Alginate, Pektin, in Burch-
ard, W. (Ed.),Polysaccharide, Eigenschaften und Nutzung, Springer-Verlag, Berlin, pp. 171–186.
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