Pectinolytic enzymes are greatly important in winemaking due to their ability to degrade pectic polymers from grape, contributing to enhance process efficiency and wine quality. This study aimed to analyze the occurrence of pectinolytic yeasts during spontaneous fermentation of Argentine Bonarda grape, to select yeasts that produce extracellular pectinases and to characterize their pectinolytic activity under wine-like conditions. Isolated yeasts were grouped using PCR-DGGE and identified by partial sequencing of 26S rRNA gene. Isolates comprised 7 genera, with Aureobasidium pullulans as the most predominant pectinolytic species, followed by Rhodotorula dairenensis and Cryptococcus saitoi. No pectinolytic activity was detected among ascomycetous yeasts isolated on grapes and during fermentation, suggesting a low occurrence of pectinolytic yeast species in wine fermentation ecosystem. This is the first study reporting R. dairenensis and Cr. saitoi species with pectinolytic activity. R. dairenensis GM-15 produced pectinases that proved to be highly active at grape pH, at 12 °C, and under ethanol and SO2 concentrations usually found in vinifications (pectinase activity around 1.1 U/mL). This strain also produced cellulase activity at 12 °C and pH 3.5,but did not produce β-glucosidase activity under these conditions. The strain showedencouraging enological properties for its potential use in low-temperaturewinemaking.
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机译:由于果胶分解酶能够降解葡萄中的果胶聚合物,从而有助于提高加工效率和葡萄酒品质,所以果胶分解酶在酿酒过程中非常重要。这项研究旨在分析阿根廷Bonarda葡萄自发发酵过程中果胶分解酵母的发生,以选择产生细胞外果胶酶的酵母,并表征其在类葡萄酒条件下的果胶分解活性。使用PCR-DGGE将分离的酵母分组,并通过对26S rRNA基因进行部分测序进行鉴定。分离物包括7属,其中最主要的果胶分解种是金黄色葡萄球菌,其次是Dhodotorula dairenensis和Cryptococcus saitoi。在葡萄和发酵过程中未分离到的子囊酵母中未检测到果胶分解活性,这表明在葡萄酒发酵生态系统中果胶分解酵母的发生率较低。这是第一个报告R. dairenensis和Cr的研究。具有果胶分解活性的斋藤种。 D. dairenensis GM-15产生的果胶酶在葡萄pH,12°C以及在葡萄酒酿造中通常发现的乙醇和SO2浓度下均具有很高的活性(果胶酶活性约为1.1 U / mL)。该菌株还在12°C和pH 3.5时产生纤维素酶活性,但在这些条件下不会产生β-葡萄糖苷酶活性。应变显示鼓励其在低温下的潜在用途的酶学性质葡萄酒酿造。
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