The Effects of Heavy Metals and Molasses on Enzyme Activity of Candida Yeast

Cumhuriyet Science Journal Pub Date : 2023-09-29 DOI:10.17776/csj.1127921

BAŞKAN, Gülşah , AÇIKEL, Unsal

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Abstract

Lipases are mainly applied in the food, abluent and medicine industries. Through the high production costs of lipase enzymes for industrial applications, cheap and eco-friendly enzyme production has gained great importance in recent years. Yeasts can produce lipase enzyme and grow in acidic media. In the present study, the act of Cu2+, Ni2+ and molasses concentrations on the enzyme activity of Candida yeasts were investigated in a batch system. The maximum enzyme activities of microorganisms were determined at pH:4. Lipase enzyme activity was investigated changing metal ion and molasses sucrose concentrations by 25-250 mg/L and 1-20 g/L respectively. When molasses sucrose concentration was increased, the enzyme activity of all yeasts increased to 10 g/L, and the lipase enzyme activity decreased at the higher molasses concentrations. Enzyme activity of yeasts decreased with increasing both metal ion concentrations at constant molasses sucrose concentrations. Ni2+ cations were more inhibited to enzyme activity of all yeasts than Cu2+. Among the yeasts, Candida membranefeciens (936.96 U/L) showed the highest enzyme activity in media containing a constant molasses concentration of 10 g/L.

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重金属和糖蜜对念珠菌酵母菌酶活性的影响

脂肪酶主要应用于食品、洗涤、医药等行业。近年来，由于工业应用中脂肪酶的生产成本高，廉价和环保的酶生产变得越来越重要。酵母能产生脂肪酶，在酸性培养基中生长。本研究在间歇式系统中研究了Cu2+、Ni2+和糖蜜浓度对念珠菌酵母菌酶活性的影响。测定了pH = 4时微生物酶活性的最大值。研究了金属离子25 ~ 250 mg/L和糖蜜蔗糖浓度1 ~ 20 g/L对脂肪酶活性的影响。随着糖蜜蔗糖浓度的增加，所有酵母菌的酶活性均升高至10 g/L，脂肪酶活性随着糖蜜浓度的增加而降低。在糖蜜、蔗糖浓度不变的情况下，随着两种金属离子浓度的增加，酵母菌的酶活性降低。Ni2+对酵母菌酶活性的抑制作用强于Cu2+。其中，在糖蜜浓度为10 g/L的培养基中，膜效念珠菌(936.96 U/L)的酶活性最高。

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Cumhuriyet Science Journal

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10 weeks