BIOSYNTHESIS OF THE SIDE-CHAIN OF UBIQUINONE-TRANS-PRENYLTRANSFERASE IN RAT-LIVER MICROSOMES

被引:0
|
作者
TECLEBRHAN, H
OLSSON, J
SWIEZEWSKA, E
DALLNER, G
机构
[1] KAROLINSKA INST,HUDDINGE HOSP,CLIN RES CTR,S-14186 HUDDINGE,SWEDEN
[2] POLISH ACAD SCI,INST BIOCHEM & BIOPHYS,PL-02532 WARSAW,POLAND
来源
JOURNAL OF BIOLOGICAL CHEMISTRY | 1993年 / 268卷 / 31期
关键词
D O I
暂无
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
The trans-prenyltransferase activity present in rat liver microsomes was investigated using an in vitro system. Geranyl-PP, but not farnesyl-PP is utilized as substrate. The pH optimum is at 8.0, and Mn2+ and Mg2 activate, while Zn2+ completely inhibits the enzyme. Digitonin, taurodeoxycholate, and Tween 80 increase this activity, whereas deoxycholate and SDS are inhibitory. In contrast to the cis-prenyltransferase, the trans-prenyltransferase is not dependent on cytosolic protein factors. The trans-prenyltransferase is present at the cytoplasmic surface of rough and smooth microsomes. Solanesyl-PP and all-trans-geranylgeranyl-PP inhibit the transferase activity but poly-cis-polyprenyl-12-PP, an intermediate in the cis-prenyltransferase reaction, does not. The enzyme reaction gives rise to two products, solanesyl-PP and an unidentified polyprenyl metabolite. Mevinolin treatment distinguishes this enzyme from the cytoplasmic geranylgeranyl-PP synthase. The results demonstrate that rat liver microsomes synthesize solanesyl-PP via a trans-prenyltransferase, which is distinct from cis-prenyltransferase and geranylgeranyl-PP synthase.
引用
收藏
页码:23081 / 23086
页数:6
相关论文
共 50 条
  • [31] POLAROGRAPHIC ESTIMATION OF UBIQUINONE IN RAT-LIVER
    FOMENKO, BS
    ZASLAVSK.YA
    VOPROSY MEDITSINSKOI KHIMII, 1974, 20 (05): : 554 - 558
  • [32] CHARACTERIZATION OF NAD(P)H-DEPENDENT UBIQUINONE REDUCTASE ACTIVITIES IN RAT-LIVER MICROSOMES
    SHIGEMURA, T
    KANG, D
    NAGATAKUNO, K
    TAKESHIGE, K
    HAMASAKI, N
    BIOCHIMICA ET BIOPHYSICA ACTA, 1993, 1141 (2-3) : 213 - 220
  • [33] IS POLAROGRAPHIC POTENTIAL OF UBIQUINONE DEPENDENT ON ISOPRENOID SIDE-CHAIN LENGTH
    KATZ, EY
    STUDIA BIOPHYSICA, 1988, 125 (03): : 211 - 217
  • [34] RELATIONSHIP BETWEEN THE RATES OF UBIQUINONE AND CHOLESTEROL-BIOSYNTHESIS IN RAT-LIVER AND KIDNEY TISSUES
    FEDUROV, VV
    BELOMAR, LB
    VOPROSY MEDITSINSKOI KHIMII, 1987, 33 (05): : 134 - 139
  • [35] BIOSYNTHESIS OF PHOSPHATIDIC-ACID BY GLYCEROPHOSPHATE ACYLTRANSFERASES IN RAT-LIVER MITOCHONDRIA AND MICROSOMES
    MOK, AYP
    MCMURRAY, WC
    BIOCHEMISTRY AND CELL BIOLOGY-BIOCHIMIE ET BIOLOGIE CELLULAIRE, 1990, 68 (12): : 1380 - 1392
  • [36] BETA-OXIDATION OF THE CARBOXYL SIDE-CHAIN OF PROSTAGLANDIN-E2 IN RAT-LIVER PEROXISOMES AND MITOCHONDRIA
    SCHEPERS, L
    CASTEELS, M
    VAMECQ, J
    PARMENTIER, G
    VANVELDHOVEN, PP
    MANNAERTS, GP
    JOURNAL OF BIOLOGICAL CHEMISTRY, 1988, 263 (06) : 2724 - 2731
  • [37] Aromatic side-chain crosslinking in RiPP biosynthesis
    Kandy, Sanath K.
    Pasquale, Michael A.
    Chekan, Jonathan R.
    NATURE CHEMICAL BIOLOGY, 2025, 21 (02) : 168 - 181
  • [38] GLUCURONIDATION OF TESTOSTERONE BY RAT-LIVER MICROSOMES
    NUMAZAWA, M
    SUZUKI, K
    NAMBARA, T
    CHEMICAL & PHARMACEUTICAL BULLETIN, 1977, 25 (03) : 420 - 426
  • [39] UBIQUINONE IN LYSOSOMAL MEMBRANE FRACTION OF RAT-LIVER
    HENNING, R
    STOFFEL, W
    HOPPE-SEYLERS ZEITSCHRIFT FUR PHYSIOLOGISCHE CHEMIE, 1972, 353 (01): : 75 - &
  • [40] DIGITOXIN METABOLISM BY RAT-LIVER MICROSOMES
    SCHMOLDT, A
    BENTHE, HF
    HABERLAND, G
    BIOCHEMICAL PHARMACOLOGY, 1975, 24 (17) : 1639 - 1641
12345