publication . Doctoral thesis . 2000

Lignin peroxidase mediated biotransformations useful in the biocatalytic production of vanillin

Have, ten, R.;
Open Access English
  • Published: 01 Jan 2000
  • Publisher: S.n.
  • Country: Netherlands
Abstract
<p>This research concentrates on lignin peroxidase (LiP) mediated biotrans-formations that are useful in producing vanillin.</p><p>In order to obtain this extracellular enzyme, the white-rot fungus <em>Bjerkandera</em> sp. strain BOS55 was cultivated on nitrogen rich medium. This procedure resulted in a successful LiP production of 600 U/L. Peptone in the culture medium was shown to interfere with the standard LiP assay in which the formation of veratraldehyde (VAD) from veratryl alcohol (VA) is monitored. Removal of peptone by (NH <sub>4</sub> ) <sub>2</sub> SO <sub>4</sub> precipitation minimized the interference.</p><p>BOS55 excreted at least seven LiP isozym...
Subjects
free text keywords: vanilline, lignine, peroxidase, Levensmiddelenbiotechnologie, Industriële microbiologie, Biochemie, vanillin, lignin, Food Biotechnology, Industrial Microbiology, Biochemistry
Related Organizations
Download from
Wageningen Yield
Doctoral thesis . 2000
Provider: NARCIS
20 references, page 1 of 2

L I T E R A T U R E [1] Schoemaker, H E . (1990) Reel. Trav. Chim. Pays-Bas 109:255-272 [2] Renganathan, V., Miki, K., and Gold, M.H. (1985) Arch. Biochem. Biophys. [OpenAIRE]

241:304-314 [3] Kersten, P.J., Kalyanaraman, B., Hammel, K.E., Reinhammer B. and Kirk, T.K.

(1990) Biochem.]. 268:475-480 [4] Khindaria, A., Yamazaki, I. and Aust, S.D. (1995) Biochemistry 34:16860-16869 [5] Joshi, D.K., and Gold, M.H. (1996) Eur. J. Biochem. 237:45-57 [6] Haemmerli, S.D., Schoemaker, H.E., Schmidt, H . W . H . , and Leisola, M.S.A. (1987)

FEBSLett. 220:149-154 [7] Schmidt, H . W . D . , Haemmerli, S.D., Schoemaker, H.E., and Leisola, M.S.A. (1989)

Biochemistry 28:1776-178 3 [8] Huixian, Z., and Taylor, K.E. (1994) Chemosphere 28:1807-1817 [9] Ingold, K.U. (1969) Ace. Chem. Res. 2:1-9 [10] ten Have, R., Rietjens, I.M.C.M., Hartmans, S., Swarts, H.J., and Field J.A. (1998)

FEBSLett. 430:390-392 [11] ten Have, R., de Thouars, R.G., Swarts, H.J., and Field, J.A. (1999) Eur. J. Biochem.

265:1008-1014 [12] Andersson, L.A., Renganathan, V., Chiu, A.A., Loehr, T.M., and Gold, M.H. (1985)

/ Biol. Chem. 260:6080-6087 [13] ten Have, R., Hartmans, S., Teunissen, P.J.M., and Field, J.A. (1998) FEBS Lett.

422:391-394 [14] Alsheikly, M.I., Simic, M.G. (1986) Superoxide and superoxide dismutase in

chemistry, biology and medicine pp. 32-34 Elsevier Science Publishers B.V.,

Amsterdam, The Netherlands [15] Bono, J.J., Goulas, P., Boe, J.F., Portet, N., and Seris, J.L. (1990) Eur. J. Biochem.

192:189-193 [16] Barr, D.P., Shah, M.M., and Aust, S.D. ( 1 9 9 3 ) / Biol. Chem. 268:241-244 [17] Chivulka, M., Spadaro, J.T., and Renganathan, V. (1995) Biochemistry34:Tl'65-777'2

LITERATURE [1] Behar, D., Czapski, G., Rabani, J., Dorfman, L.M., and Schwarz, H.A. (1970)

/ . Phys. Chem. 74:3209-3213 [2] Chung, N., and Aust, S.D. (199S) Arch. Biochem. Biophys. 316:815-855 [3] Ingold, K.U. (1969) Ace. chem. res. 2:1-9 [4] Kaal, E.E.J., de Jong, E., and Field, J.A. (1993) Appl. Environ. Microbiol. 59:4031-

4036 [5] Koduri, R.S., and Tien, M. ( 1 9 9 5 ) / Biol Chem. 270:22254-22258 [6] Kersten, P.J., Kalyanaraman, B., Hammel, K.E., Reinhammer, B., and Kirk, T.K.

20 references, page 1 of 2
Powered by OpenAIRE Open Research Graph
Any information missing or wrong?Report an Issue