Fermentation of Gracilaria verrucosa to Reduce Insoluble Non-Starch Polysaccharide (iNSP) Using Cellulolytic Bacteria Pseudomonas stutzeri (ISO2) for a Dietary Ingredient of Golden Rabbitfish, Siganus guttatus

Q3 Agricultural and Biological Sciences

HAYATI Journal of Biosciences Pub Date : 2023-07-04 DOI:10.4308/hjb.30.5.946-956

Sri Redjeki, Hesti Mulyaningrum, S. Aslamyah, A. Laining, H. S. Suwoyo

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Abstract

A series of experiments were conducted to optimize P. stutzeri (ISO2) fermentation in reducing the non-starch polysaccharide (NSP) of G. verrucosa as golden rabbitfish feed ingredient. A completely randomized experimental design in triplicates was used to optimize the pH of CMC media and the duration of fermentation. Using a 3 × 3 factorial design with two factors and triplicates, the optimum substrate-inoculum interaction was determined. Nine levels combination of G. verrucosa (G1 = 50 g; G2 = 100 g; G3 = 150 g) and P. stutzeri inoculum (P1 = 5%; P2 = 10%; P3 = 15%) were investigated. Cellulolytic activity (CA) of P. stutzeri was measured using UV-vis spectrophotometer, meanwhile chemical compound and physical characteristics of fermented G. verrucosa were evaluated using Fourier Transform Infra Red (FTIR) and Scanning Electron Microscope (SEM) respectively. Data on fermentation optimization were analyzed statistically using ANOVA. The result indicated pH, duration of fermentation and substrate-inoculum ratio had a significant effect on bacteria growth and CA (P<0.05). P. stutzeri grew well at pH 8, the fermentation process was ideally running in four days with (150 g-10%) G:P level. Hemicellulose was the most biodegradable NSP compared to cellulose and lignin. Fermented G. verrucosa (FG) had FTIR vibrations which indicated the conversion of the cell wall to reducing sugar. The fermentation process resulted in surface structure changes of G. verrucosa based on SEM photos.

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利用纤维素酶假单胞菌（ISO2）发酵疣状龙须菜降低不溶性非淀粉多糖（iNSP）作为金拉比鱼（Siganus guttatus）的日粮成分

通过一系列试验，优化施图茨氏杆菌(P. stutzeri, ISO2)发酵还原黄颡鱼非淀粉多糖(NSP)的工艺。采用完全随机的3个重复试验设计，优化CMC培养基的pH和发酵时间。采用3 × 3因子设计，确定了最佳底物与接种物的相互作用。疣棘九级联合(G1 = 50 g;G2 = 100 g;G3 = 150 g)和施图茨氏杆菌接种物(P1 = 5%;P2 = 10%;P3 = 15%)。采用紫外-可见分光光度计测定了stutzeri菌的纤维素水解活性(CA)，并利用傅里叶变换红外光谱(FTIR)和扫描电镜(SEM)分别对发酵后的疣状菌的化学成分和物理特性进行了评价。发酵优化数据采用方差分析进行统计学分析。结果表明，pH、发酵时间和底物接种比对细菌生长和CA有显著影响(P<0.05)。stutzeri在pH为8时生长良好，在(150 G -10%) G:P水平下发酵4 d最理想。与纤维素和木质素相比，半纤维素是最可生物降解的NSP。发酵后的疣胞菌(G. verrucosa, FG)有FTIR振动，表明细胞壁转化为还原糖。SEM照片显示，发酵过程导致疣菌表面结构发生变化。

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来源期刊

HAYATI Journal of Biosciences Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

24 weeks

期刊介绍： HAYATI Journal of Biosciences (HAYATI J Biosci) is an international peer-reviewed and open access journal that publishes significant and important research from all area of biosciences fields such as biodiversity, biosystematics, ecology, physiology, behavior, genetics and biotechnology. All life forms, ranging from microbes, fungi, plants, animals, and human, including virus, are covered by HAYATI J Biosci. HAYATI J Biosci published by Department of Biology, Bogor Agricultural University, Indonesia and the Indonesian Society for Biology. We accept submission from all over the world. Our Editorial Board members are prominent and active international researchers in biosciences fields who ensure efficient, fair, and constructive peer-review process. All accepted articles will be published on payment of an article-processing charge, and will be freely available to all readers with worldwide visibility and coverage.