LIPASE FROM BRASSICA-NAPUS L DISCRIMINATES AGAINST CIS-4 AND CIS-6 UNSATURATED FATTY-ACIDS AND SECONDARY AND TERTIARY ALCOHOLS

被引：40

作者：

HILLS, MJ ^{[1
]}

KIEWITT, I ^{[1
]}

MUKHERJEE, KD ^{[1
]}

机构：

[1] HP KAUFMANN INST BUNDESANSTALT FETTFORSCH,FED CTR LIPID RES,INST BIOCHEM & TECHNOL,PIUSALLEE 68,W-4400 MUNSTER,GERMANY

来源：

BIOCHIMICA ET BIOPHYSICA ACTA | 1990年 / 1042卷 / 02期

关键词：

(Brassica napus); Esterification; Plant lipase; Polyunsaturated fatty acid; γ-Linoleneic acid;

D O I：

10.1016/0005-2760(90)90014-O

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：

Lipase (EC 3.1.1.3) from oilseed rape (Brassica napus L., cv Ceres) hydrolyzes triacylglycerols containing a broad range of fatty acids at similar rates. In esterification reactions carried out in hexane, rape lipase also uses a wide range of fatty acids and alcohols as reaction partners. However, the rates of esterification of petroselinic, γ-linolenic, stearidonic and docosahexaenoic acids are only between 2 and 7% that of oleic acid. The common feature of these fatty acids is that the first double bond is cis-4 or cis-6. Petroselaidic acid with a trans-6 double bond is esterified about 10-times faster than petroselinic acid. Arachidonic and eicosapentaenoic acids, both with the first double bond being cis-5, are esterified about 20-times faster than docosahexaenoic acid. By analogy, tripetroselinin and tri-γ-linolenin are hydrolyzed at 14% and 1.5%, respectively, of the rate of triolein hydrolysis. The rape lipase esterifies primary alcohols but cannot esterify secondary and tertiary alcohols. © 1990.

引用

页码：237 / 240

页数：4

共 15 条

[1]

BROCKERHOF H, 1974, LIPOLYTIC ENZYMES, P140

[2] MECHANISM OF PANCREATIC LIPASE ACTION .1. INTERFACIAL ACTIVATION OF PANCREATIC LIPASE [J].

CHAPUS, C ;

SEMERIVA, M ;

BOVIERLAPIERRE, C ;

DESNUELLE, P .

BIOCHEMISTRY, 1976, 15 (23) :4980-4987

[3] THE PREPARATION OF TRIGLYCERIDES HIGHLY ENRICHED WITH OMEGA-3 POLY-UNSATURATED FATTY-ACIDS VIA LIPASE CATALYZED INTERESTERIFICATION [J].

HARALDSSON, GG ;

HOSKULDSSON, PA ;

SIGURDSSON, ST ;

THORSTEINSSON, F ;

GUDBJARNASON, S .

TETRAHEDRON LETTERS, 1989, 30 (13) :1671-1674

[4] ISOLATION OF LIPASE FROM GERMINATING OILSEEDS FOR BIOTECHNOLOGICAL PROCESSES [J].

HASSANIEN, FR ;

MUKHERJEE, KD .

JOURNAL OF THE AMERICAN OIL CHEMISTS SOCIETY, 1986, 63 (07) :893-897

[5] EFFECT OF DOUBLE-BOND POSITION IN OCTADECENOATES UPON HYDROLYSIS BY PANCREATIC LIPASE [J].

HEIMERMANN, WH ;

GORDON, DT ;

KOWALYSHYN, DE ;

JENSEN, RG ;

HOLMAN, RT .

LIPIDS, 1973, 8 (01) :45-46

[6] PARTIAL-PURIFICATION OF LIPASE FROM COTYLEDONS OF OILSEED RAPE (BRASSICA-NAPUS L) [J].

HILLS, MJ ;

OSULLIVAN, JN .

BIOCHEMICAL SOCIETY TRANSACTIONS, 1989, 17 (03) :480-480

[7]

HILLS MJ, 1989, BIOCHEM SOC T, V17, P478

[8] AN ANTIBODY TO THE CASTOR BEAN GLYOXYSOMAL LIPASE (62 KD) ALSO BINDS TO A 62 KD PROTEIN IN EXTRACTS FROM MANY YOUNG OILSEED PLANTS [J].

HILLS, MJ ;

BEEVERS, H .

PLANT PHYSIOLOGY, 1987, 85 (04) :1084-1088

[9] CHARACTERIZATION OF LIPASES FROM THE LIPID BODIES AND MICROSOMAL-MEMBRANES OF ERUCIC ACID-FREE OILSEED-RAPE (BRASSICA-NAPUS) COTYLEDONS [J].

HILLS, MJ ;

MURPHY, DJ .

BIOCHEMICAL JOURNAL, 1988, 249 (03) :687-693

[10] CHARACTERISTICS AND BIOSYNTHESIS OF SEED LIPASES IN MAIZE AND OTHER PLANT-SPECIES [J].

HUANG, AHC ;

LIN, YH ;

WANG, SM .

JOURNAL OF THE AMERICAN OIL CHEMISTS SOCIETY, 1988, 65 (06) :897-899

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