Detection and characterization of the Pichia manshurica biofilm on the traditionally produced homemade apple vinegar.

IF 1.3 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Turkish Journal of Chemistry Pub Date : 2023-10-18 eCollection Date: 2024-01-01 DOI:10.55730/1300-0527.3640

Zeynep Işlek Köklü, Pınar Akkuş Süt, Esra Eskihoran Üçüncüoğlu, Sadık Kalayci, Fikrettin Şahin

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Abstract

Pichia yeasts are capable of forming biofilms during vinegar production and causing spoilage in various beverages. In addition, there exists a significant likelihood of encountering yeast contamination which can prevent vinegar production. The present study investigates the detection and characterization of the Pichia manshurica (P. manshurica) biofilm on traditionally produced homemade apple vinegar. The unique characteristics of vinegar were analyzed with a focus on the constituent, known as the "mother of vinegar", whose composition is comprised of cellulosic biofilm and acetic acid bacteria, including Gluconobacter oxydans (G. oxydans) Briefly, P. manshurica was isolated from apple vinegar and characterized in terms of the effect of biofilm formation on the surface of the cellulosic film on vinegar production. Microbial identification of vinegar with/without contamination by P. manshurica was analyzed through MALDI-TOF mass spectrometry (MS), and biofilm was characterized by Fourier transform infrared spectroscopy (FT-IR), Scanning electron microscopy (SEM), and crystal violet staining. Accordingly, MS spectrum of isolates was identified as G. oxydans and P. manshurica with a ratio of 2.01 and 1.94, respectively. The FTIR analysis indicated that the peaks within the range of 1150-900 cm^-1 revealed a high content of polysaccharide in P. manchuria-contaminated biofilm, which is attributed to the stretching vibration of C-C and C-O bonds. The spectral region from 2921.51 to 2853.71 cm^-1 exhibited the characteristic of lipids in bacterial cell walls and membranes. SEM images of bacterial biofilms revealed a three-dimensional network composed of ultrafine fibers with a ribbon-like shape; however, the condensed reticulated structure was observed in contaminated biofilms. The presence of two microbial populations was detected regarding the morphological analysis. Crystal violet staining of contaminated-cellulosic biofilms visualized bacterial and yeast colonization. Concisely, this study emphasizes that the proliferation of Pichia during apple fermentation has the potential to adversely affect the quality of the homemade vinegar, due to its distinct biofilm characteristics.

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检测传统自制苹果醋上的 Pichia manshurica 生物膜并确定其特征。

皮氏酵母能够在食醋生产过程中形成生物膜，导致各种饮料变质。此外，遇到酵母污染的可能性也很大，这会阻碍食醋的生产。本研究调查了传统自制苹果醋上曼殊里卡酵母菌（P. manshurica）生物膜的检测和特征。研究分析了醋的独特特征，重点是被称为 "醋母 "的成分，其组成是纤维素生物膜和醋酸菌，包括氧甘杆菌（G. oxydans）。通过 MALDI-TOF 质谱（MS）分析了受/未受人舒利卡氏菌污染的醋的微生物鉴定，并通过傅立叶变换红外光谱（FT-IR）、扫描电子显微镜（SEM）和水晶紫染色对生物膜进行了表征。据此，分离物的 MS 光谱被鉴定为 G. oxydans 和 P. manshurica，比例分别为 2.01 和 1.94。傅立叶变换红外光谱分析表明，在 1150-900 cm-1 范围内的峰值显示，受曼殊里卡氏菌污染的生物膜中多糖含量较高，这归因于 C-C 和 C-O 键的伸缩振动。2921.51 至 2853.71 cm-1 光谱区显示了细菌细胞壁和细胞膜中脂类的特征。细菌生物膜的扫描电子显微镜图像显示了由带状超细纤维组成的三维网络；然而，在受污染的生物膜中观察到了凝结的网状结构。形态学分析发现存在两种微生物种群。对受污染的纤维素生物膜进行水晶紫染色，可观察到细菌和酵母菌的定植。简而言之，这项研究强调，苹果发酵过程中 Pichia 的增殖有可能对自制食醋的质量产生不利影响，因为它具有明显的生物膜特征。

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来源期刊

Turkish Journal of Chemistry 化学-工程：化工

CiteScore

2.40

自引率

7.10%

发文量

审稿时长

3 months

期刊介绍： The Turkish Journal of Chemistry is a bimonthly multidisciplinary journal published by the Scientific and Technological Research Council of Turkey (TÜBİTAK). The journal is dedicated to dissemination of knowledge in all disciplines of chemistry (organic, inorganic, physical, polymeric, technical, theoretical and analytical chemistry) as well as research at the interface with other sciences especially in chemical engineering where molecular aspects are key to the findings. The journal accepts English-language original manuscripts and contribution is open to researchers of all nationalities. The journal publishes refereed original papers, reviews, letters to editor and issues devoted to special fields. All manuscripts are peer-reviewed and electronic processing ensures accurate reproduction of text and data, plus publication times as short as possible.