The effect of inoculum and glucose addition on polyhydroxyalkanoate production by Brevibacterium sp. B45

E-Journal Menara Perkebunan Pub Date : 2021-05-28 DOI:10.22302/IRIBB.JUR.MP.V89I1.387

D. Ratnaningrum, E. S. Endah, A. H. Abdullah, V. Saraswaty, P. Lisdiyanti, Eva Frasnawaty, Sri Priatini

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引用次数: 1

Abstract

Petroleum-based plastics are the major cause of environmental pollution because the plastics need years to be degraded. The difficulties in handling waste of petroleum-based plastic have motivated researchers to produce environmentally friendly plastic materials that are biologically degradable; one of them is polyhydroxyalkanoate (PHA). Polyhydroxyalkanoate is natural biodegradable biopolymers produced by bacteria as an intracellular carbon and energy storage. This polymer is an alternative source of plastics with similar physical properties to petroleum-based plastic.It can be easily biodegraded aerobically and anaerobically. This study examined the potential of one superior isolate as PHA producers, i.e.,Brevibacterium sp. B45. Brevibacterium sp. B45 was cultivated in Ramsay’s minimal medium with inoculum concentrations were 1, 2, and 3% (v/v)and glucose concentrations were 1, 3, and 5% (w/v). The cultivation of Brevibacterium sp. B45 was carried out in a 500 mL Erlenmeyer flask on a shaker incubator with 150 rpm and 30 oC for 72 hours. PHA recovery was carried out by chloroform extraction and characterized by scanning electron microscopy (SEM), Fourier transformed infrared (FTIR), and differential scanning calorimetric (DSC) methods. The highest yield of dried biomass (2.92%) was obtained using 3% inoculum and 3% glucose. The melting temperature (Tm), enthalpy (ΔHf), and crystallinity (Xc) of the PHA product were 172.1 °C, 61.04 J g-1, and 41.08%, respectively. Data of SEM show that a porous surface characterized morphological of purified PHA grains. The functional units of purified PHA grains were C=O, CH3, C-O, C-O-C, C-C, C-H, and -OH. The purified PHA grains show a similar spectrum to the standard Poly-3-hydroxybutyrate (PHB). Therefore, it could be assumed that PHA produced by Brevibacterium sp. B45 was most likely PHB.

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接种量和葡萄糖添加对短杆菌B45生产聚羟基烷酸盐的影响

石油基塑料是造成环境污染的主要原因，因为塑料需要数年才能降解。处理石油基塑料废物的困难促使研究人员生产生物可降解的环保塑料材料;其中之一是聚羟基烷酸酯(PHA)。聚羟基烷酸酯是一种天然的可生物降解的生物聚合物，由细菌产生，作为细胞内的碳和能量储存。这种聚合物是塑料的一种替代来源，具有与石油基塑料相似的物理特性。它可以很容易地进行好氧和厌氧生物降解。本研究考察了短杆菌B45作为PHA生产者的潜力。短杆菌B45在Ramsay最小培养基中培养，接种量分别为1、2和3% (v/v)，葡萄糖浓度分别为1、3和5% (w/v)。短杆菌B45在500 mL的Erlenmeyer烧瓶中，在30℃、150 rpm的摇床培养箱中培养72小时。采用氯仿萃取法回收PHA，并用扫描电镜(SEM)、傅里叶变换红外(FTIR)和差示扫描量热(DSC)等方法对其进行表征。在3%接种量和3%葡萄糖的条件下，干生物量的产率最高，为2.92%。PHA产物的熔融温度(Tm)、焓(ΔHf)和结晶度(Xc)分别为172.1℃、61.04 J g-1和41.08%。SEM数据表明，纯化后的PHA颗粒具有多孔的表面形貌。纯化PHA颗粒的功能单元为C=O、CH3、C-O、C-O-C、C-C、C- h和-OH。纯化后的PHA颗粒显示出与标准聚3-羟基丁酸酯(PHB)相似的光谱。因此，可以认为短杆菌B45产生的PHA极有可能是PHB。

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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E-Journal Menara Perkebunan

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