Limonoid bitterness is a serious problem in the citrus industry worldwide. Limonoid glucosyltransferase is an enzyme that catalyzes the conversion of bitter limonoid into non-bitter limonoid glucoside while retaining the health benefit of limonoids in the juice. The immobilization of this enzyme in a column can solve the juice bitterness problem. More information about the catalytic residues of the enzyme is needed in this immobilization process.Glutamate/aspartate,histidine,lysine,tryptophan,serine,and cysteine residues were chemically modified to investigate their roles in the catalytic function of limonoid glucosyltransferase. Inactivation of the enzyme following modification of carboxyl and imidazole moieties was a consequence of a loss in substrate binding and catalysis in the glucosyltransfer reaction. The modification of a single histidine residue completely destroyed the ability of limonoid glucosyltransferase to transfer the D-glucopyranosyl unit. Tryptophan seemed to have some role in maintaining the active conformation of the catalytic site. Lysine also seemed to have some direct or indirect role in this catalysis but the modification of serine and cysteine did not have any effect on catalysis. Therefore, we conclude that the carboxyi and imidazole groups containing amino acids are responsible for the catalytic action of the enzyme.
参考文献
| [1] | Bhattacharya S K;Dubey A K .[J].Journal of Biochemistry,Molecular Biology and Biophysics,2000,4:109. |
| [2] | Kotwal S M;Khire J M;Khan M I .[J].Journal of Biochemistry,Molecular Biology and Biophysics,2000,4:65. |
| [3] | lngram-Smith C;Barber R D;Ferry J G .[J].Journal of Biological Chemistry,2000,275:33765. |
| [4] | Battaglia E;Senay C;Fournel-Gigleux S;Herber R,Siest G.Magdalou J .[J].FEBS Len,1994,346:146. |
| [5] | Lee Y S;Kim H W;Lee K B;Park S S .[J].Biochimica Et Biophysica Acta,2000,1523:123. |
| [6] | Karim M R;Hashinaga F .[J].Food Chemistry,2002,76:431. |
| [7] | Karim M R;Hashinaga F .[J].Process Biochemistry,2002,38:809. |
| [8] | a'Bhaird NN.;Ramsay RR.;Yankovskaya V. .Active sites residues of beef liver carnitine octanoyltransferase (COT) and carnitine palmitoyltransferase (CPT-II)[J].The Biochemical Journal,1998(Pt.2):1029-1036. |
| [9] | Schror K;Davis-Bruno K;Halushka P V .[J].Biochemical Pharmacology,1995,49:921. |
| [10] | Shoshan-Barmatz V;Weil S .[J].Biochemical Journal,1994,299:177. |
| [11] | Gaikwad S M;More M W;Vartak H G;Deshpande V V .[J].Biochemical and Biophysical Research Communications,1988,155:270. |
| [12] | Spande T F;Witkop B .[J].Methods in Enzymology,1967,11:498. |
| [13] | Pho D B;Rouston C;Tot A N T;Pradel L A .[J].Biochemical Journal,1977,16:4533. |
| [14] | Dixon H B F;Perham R N .[J].Biochemical Journal,1968,109:312. |
| [15] | Lowry O H;Rosebrough N J;Farr A L;Randal R J .[J].Journal of Biological Chemistry,1951,193:265. |
| [16] | Levy H M;Leber P D;Ryan E M .[J].Journal of Biological Chemistry,1963,238:3654. |
| [17] | Miles E W .[J].Methods in Enzymology,1977,47:431. |
| [18] | Lundblad R L;Noyes C M.Chemical Reagents for Protein Modification[M].Boca Raton:crc Press,1984:101. |
| [19] | Lundblad R L.Techniques in Protein Modification[M].Boca Raton:crc Press,1995:105. |
| [20] | Carraway K L;Koshland D E Jr .[J].Methods in Enzymology,1972,25:616. |
| [21] | Herman Z;Fong C H;Hasegawa S .[J].Phytochemistry,1991,30:1487. |
| [22] | Susi H;Zell T;Timasheff S N .[J].Archives of Biochemistry and Biophysics,1959,85:437. |
| [23] | Abeles R H;Frey P A;Jencks W P.Biochemistry[M].Boston:Jones and Bartlett Publishers Inc,1992:432. |
| [24] | Colman R F .[J].Journal of Biological Chemistry,1973,248:8137. |
| [25] | Busch C;Hofmann F;Gerhard R;Aktories K .Involvement of a conserved tryptophan residue in the UDP-glucose binding of large clostridial cytotoxin glycosyltransferases.[J].The Journal of biological chemistry,2000(18):13228-13234. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%