AN OVERVIEW OF THE SAFETY EVALUATION OF THE RHIZOMUCOR-MIEHEI LIPASE ENZYME

被引：7

作者：

BROADMEADOW, A

CLARE, C

DEBOER, AS

机构：

[1] NOVO NORDISK AS,NOVO ALLE,DK-2880 BAGSVAERD,DENMARK

[2] LIFE SCI RES,EYE YO1 5DU,SUFFOLK,ENGLAND

来源：

FOOD ADDITIVES AND CONTAMINANTS | 1994年 / 11卷 / 01期

关键词：

LIPASE; MUTAGENICITY; CHROMOSOMAL ABERRATION; TOXICITY;

D O I：

10.1080/02652039409374207

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

The Rhizomucor miehei lipase enzyme expressed in Aspergillus oryzae, is used in the production of speciality fats, the production of existing fats from new raw materials, or new fats with improved nutritional or functional qualities. It is produced by A. oryzae containing the structural gene for the precursor of R. miehei triglyceride lipase. It was subjected to a series of toxicological tests to document the safety in use. The enzyme preparation was not found to be mutagenic either in bacterial cultures (Ames test) or in the mammalian cell cultures (mouse lymphoma assay), nor did it cause chromosomal damage (human lymphocyte assay). Dietary concentrations up to 1600 mg/kg diet for up to 13 weeks caused no adverse effect in rats. At higher concentrations there were effects upon food intake, possibly arising from some irritant property of the enzyme preparation in the diet at such high levels, with consequential effects upon bodyweight and energy metabolism. A minor effect upon renal function was indicated by increased kidney weight and changes in the urine. At 40 000 mg/kg diet the enzyme was considered to have exacerbated the onset of normally-occurring chronic myocarditis in male Sprague-Dawley rats.

引用

页码：105 / 119

页数：15

共 17 条

[1]

Broadmeadow A., SP 388: Toxicity Study by Dietary Administration to CD Rats for Four Weeks, (1989)

[2]

Broadmeadow A., SP 388: Toxicity Study by Dietary Administration to CD Rats for 13 Weeks, (1990)

[3]

Clare C.B., Study to determine the ability of SP 388 to induce mutations to 6-thioguanine resistance in mouse lymphoma L5178Y cells using a fluctuation assay, Microtest Report Ref: 2MLRENOD, (1989)

[4]

Cole J., Muriel W.J., Bridges B.A., The mutagenicity of sodium fluoride to L5178Y (Wild-type and TK + /-3.7.2c) mouse lymphoma cells, Mutagenesis, 1, pp. 157-167, (1986)

[5]

Furth E.E., Thilly W.G., Penman B.W., Liber H.L., Rand W.M., Quantitative assay for mutation in diploid human lymphoblasts using microtitre plates, Analytical Biochemistry, 110, pp. 1-8, (1981)

[6]

Gopinath C., Prentice D.E., Lewis D.J., Atlas of Experimental Toxicological Pathology, 13, pp. 11-21, (1987)

[7]

Huge-Jensen B., Andreasen F., Christensen T., Christensen M., Thim M., Boel E., Rhizomucor Miehei Triglyceride Lipase is Processed and Secreted from Transformed Aspergillus Oryzae. Lipids, 24, pp. 781-785, (1989)

[8]

Jensen B.F., Eigtved P., Safety aspects of microbial enzyme technology, exemplified by the safety assessment of an immobilized lipase preparation, Lipozyme™, Food Biotechnology, 4, pp. 699-725, (1990)

[9]

Kinsella J.E., Food components with potential therapeutic benefits: The n-3 polyunsaturated fatty acids of fish oils, Food Technology, 40, pp. 89-97, (1986)

[10]

Mahon G.A.T., Green M.H.L., Middleton B., Mitchell I.D.G., Robinson W.D., Tweats D.J., Analysis of data from microbial colony assays, Statistical Evaluation of Mutagenicity Test Data in the Report of the UKEMS Sub-Committee on Guidelines for Mutagenicity Testing, Part III, pp. 26-65, (1989)

← 1 2 →