Riboflavin 5'-hydroxymethyl oxidation - Molecular cloning, expression, and glycoprotein nature of the 5'-aldehyde-forming enzyme from Schizophyllum commune

被引：14

作者：

Chen, HY ^{[1
]}

McCormick, DB ^{[1
]}

机构：

[1] EMORY UNIV,DEPT BIOCHEM,ROLLINS RES CTR,ATLANTA,GA 30322

来源：

JOURNAL OF BIOLOGICAL CHEMISTRY | 1997年 / 272卷 / 32期

关键词：

D O I：

10.1074/jbc.272.32.20077

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Vitamin B-2-aldehyde-forming enzyme catalyzes oxidation of the 5'-hydroxymethyl of riboflavin to the formyl group. We have purified the enzyme from the culture media of Schizophyllum commune (ATCC 38719) by modifying the procedure of Tachibana and Oka (Tachibana, S., and Oka, M. (1981) J. Biol. Chem. 256, 6682-6685) for cell-free extract. By SDS-polyacrylamine gel electrophoresis, the enzyme appears to be 78 kDa, The enzyme has a blocked amino terminus, so fragments were obtained by cleaving the purified enzyme with lysyl endopeptidase. Selected peptides were sequenced from their amino termini, We have isolated a full-length cDNA clone using a DNA hybridization probe amplified by polymerase chain reaction with two degenerate oligonucleotide primers, the design of which was based on one of the partial amino acid sequences. From the cDNA clone, it is evident that the enzyme has a Ser/Thr-rich fragment near the COOH-terminal Asp, The enzyme was determined to be a glycoprotein; however, O-deglucosylation only slightly affects activity, Computer searches showed that the B-2-aldehyde-forming enzyme has little homology with other proteins, but domain motifs may reflect N-myristoylation of a dehydrogenase with a signature similar to 4Fe-4S ferredoxins. The enzyme cDNA was subcloned into a Pichia expression vector pPIC9K to produce a recombinant protein which exhibited B-2-aldehyde-forming enzyme activity.

引用

页码：20077 / 20081

页数：5

共 34 条

[1]

[Anonymous], 1994, MODERN NUTR HLTH DIS

[2] Novel developments with the PRINTS protein fingerprint database [J].

Attwood, TK ;

Beck, ME ;

Bleasby, AJ ;

Degtyarenko, K ;

Michie, AD ;

ParrySmith, DJ .

NUCLEIC ACIDS RESEARCH, 1997, 25 (01) :212-216

[3]

BRADFORD MM, 1976, ANAL BIOCHEM, V72, P248, DOI 10.1016/0003-2697(76)90527-3

[4] YEAST SYSTEMS FOR THE COMMERCIAL PRODUCTION OF HETEROLOGOUS PROTEINS [J].

BUCKHOLZ, RG ;

GLEESON, MAG .

BIO-TECHNOLOGY, 1991, 9 (11) :1067-1072

[5] CLARIFICATION AND QUANTITATION OF PRIMARY (TISSUE) AND SECONDARY (MICROBIAL) CATABOLITES OF RIBOFLAVIN THAT ARE EXCRETED IN MAMMALIAN (RAT) URINE [J].

CHASTAIN, JL ;

MCCORMICK, DB .

JOURNAL OF NUTRITION, 1987, 117 (03) :468-475

[6] FLAVIN CATABOLITES - IDENTIFICATION AND QUANTITATION IN HUMAN-URINE [J].

CHASTAIN, JL ;

MCCORMICK, DB .

AMERICAN JOURNAL OF CLINICAL NUTRITION, 1987, 46 (05) :830-834

[7]

CHASTAIN JL, 1991, CHEM BIOCH FLAVINS, P195

[8] RECENT ADVANCES IN THE EXPRESSION OF FOREIGN GENES IN PICHIA-PASTORIS [J].

CREGG, JM ;

VEDVICK, TS ;

RASCHKE, WC .

BIO-TECHNOLOGY, 1993, 11 (08) :905-910

[9] A COMPREHENSIVE SET OF SEQUENCE-ANALYSIS PROGRAMS FOR THE VAX [J].

DEVEREUX, J ;

HAEBERLI, P ;

SMITHIES, O .

NUCLEIC ACIDS RESEARCH, 1984, 12 (01) :387-395

[10] BACTERIAL DEGRADATION OF RIBOFLAVIN .V. STOICHIOMETRY OF RIBOFLAVIN DEGRADATION TO OXAMIDE + OTHER PRODUCTS OXIDATION OF C14-LABELED INTERMEDIATES + ISOLATION OF PSEUDOMONAD EFFECTING THESE TRANSFORMATIONS [J].

HARKNESS, DR ;

STADTMAN, ER ;

TSAI, L .

ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 1964, 108 (02) :323-&

← 1 2 3 4 →