Isolation and Identification of Acetobacter tropicalis From Selected Malaysian Local Fruits for Potential BC Production

Q4 Agricultural and Biological Sciences

Malaysian applied biology Pub Date : 2023-10-31 DOI:10.55230/mabjournal.v52i4.a048

Tan Yong Jie, Junaidi Zakaria, Shahril Mohamad, Chua Gek Kee, Nurshahfiqah Latif, Mohd Hairul Ab Rahim

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Abstract

Acetobacter spp. that are commonly found on fruits, can perform oxidation processes, resulting in acetic acid production in vinegar. Besides that, Acetobacter spp. able to produce bacterial cellulose (BC), which is an essential by-product. This present study was carried out to isolate Acetobacter spp. from selected local fruits. Species verification of the bacterial isolates was performed using molecular and bioinformatic approaches. A total of six local fruits (starfruit, jackfruit, watermelon, pineapple, honeydew & banana) were subjected to seven days of fermentation in a brown sugar solution. Acetobacter spp. were isolated from the fermented medium using bromocresol green ethanol agar as the selective medium. Thirteen bacterial isolates were obtained and subjected to molecular works, including DNA extraction and PCR amplification using universal primers, targeting the 16S rRNA genes. PCR-amplified products were selected for single-pass sequencing. BLASTn analysis of the sequencing results showed three isolates (23.1%) belonging to Acetobacter tropicalis and one isolate (7.7%) representing Gluconobacter oxydans might have potential in BC production. However, the remaining nine isolates (69.2%) hit the Lactobacillus genus. Morphological observation using FESEM showed that the BC produced by all the positive bacterial isolates is similar to dried nata de coco and BC produced by Acetobacter xylinum. In addition, four similar regions of -OH stretch (3400 - 3300 cm-1), -CH stretch (2970 to 2800 cm-1), -OH bending (1620 cm-1), and -COC stretch (1100 to 1073 cm-1) are identified in the BC samples. In the future, the isolated Acetobacter and Gluconobacter strains could be further utilized for large-scale BC production in a suitable fermentation medium.

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马来西亚当地水果中热带醋酸杆菌的分离与鉴定

通常在水果上发现的醋酸杆菌可以进行氧化过程，导致醋中产生乙酸。此外，醋酸杆菌能够产生细菌纤维素(BC)，这是一种重要的副产物。本研究从当地选定的水果中分离醋酸杆菌。利用分子和生物信息学方法对分离的细菌进行物种验证。当地共有六种水果(杨桃、菠萝蜜、西瓜、菠萝、蜜瓜等)。香蕉)在红糖溶液中发酵7天。以溴甲酚绿乙醇琼脂为选择培养基，从发酵培养基中分离出醋酸杆菌。获得了13株细菌分离株，并进行了分子工作，包括DNA提取和PCR扩增，使用通用引物，针对16S rRNA基因。选择pcr扩增产物进行单次测序。测序结果的BLASTn分析显示，3个分离株(23.1%)属于热带醋酸杆菌，1个分离株(7.7%)代表氧葡萄糖杆菌可能具有生产BC的潜力。其余9株(69.2%)属于乳杆菌属。FESEM形态学观察表明，所有阳性菌株产生的BC与椰干和木醋杆菌产生的BC相似。此外，在BC样品中还发现了- oh拉伸(3400 ~ 3300 cm-1)、- ch拉伸(2970 ~ 2800 cm-1)、- oh弯曲(1620 cm-1)和- coc拉伸(1100 ~ 1073 cm-1)四个相似区域。在未来，分离的醋酸杆菌和葡萄糖杆菌菌株可以在合适的发酵培养基中进一步用于大规模生产BC。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Malaysian applied biology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

0.60

自引率

0.00%

发文量