Flammeovirga sp.SJP92琼脂酶的分离纯化及其酶学性质

琼胶酶是一类能够降解琼脂糖生成琼胶寡糖的酶类,具有广泛的应用范围.从海洋性高产琼胶酶菌株Flammeovirgasp.SJP92的发酵液经硫酸铵沉淀,DEAE-琼脂糖离子层析,分离纯化获得了一个分子量约为70KDa的琼胶酶AgaB.经过酶学性质分析,它的最适pH值为7.0,最适温度为40℃,在最适温度下能够保持较好的稳定性.进一步的分析表明,MgSO_4和β-Me对该酶有明显的促进作用,而CaCl_2、MnCl_2、ZnCl_2、CoCl_2、FeCl_3、CuSO_4等则会强烈抑制它的活性.此外,通过产物分析表明,该酶能够通过内切作用将琼脂糖最终降解成6糖和4糖.AgaB的分离纯化及其酶学性质分析为其工业应用奠定了基础.

Deletion of a Non-Catalytic Region Increases the Enzymatic Activity of a β-Agarase from Flammeovirga sp. MY04

A Glycoside hydrolase （GH） typically contains one catalytic module and varied non-catalytic regions （NCRs）. However, effects of the NCRs to the catalytic modules remain mostly unclear except the carbohydrate-binding modules （CBMs）. AgaG4 is a GH16 endo-β-agarase of the agarolytic marine bacterium Flammeovirga sp. MY04. The enzyme consists of an extra sugar-binding peptide within the catalytic module, with no predictable CBMs but function-unknown sequences in the NCR, which is a new characteristic of agarase sequences. In this study, we deleted the NCR sequence, a 140-amino acid peptide at the C-terminus and expressed the truncated gene, agaG4-T140, in Escherichia coli. After purification and refolding, the trtmcated agarase rAgaG4-T140 retained the same catalytic temperature and pH value as rAgaG4. Using combined fluorescent labeling, HPLC and MS/MS techniques, we identified the end-products of agarose degradation by rAgaG4-T140 as neoagarotetraose and neoagarohexaose, with a final molar ratio of 1.53：1 and a conversion ratio of approximately 70%, which were similar to those of rAgaG4. However, the truncated agarase rAgaG4-T140 markedly decreased in protein solubility by 15 times and increased in enzymatic activities by 35 times. The oligosaccharide production of rAgaG4-T140 was approximately 25 times the weight of that produced by equimolar rAgaG4. This study provides some insights into the influences of NCR on the biochemical characteristics of agarase AgaG4 and implies some new strategies to improve the properties of a GH enzyme.

A Polysaccharide-Degrading Marine Bacterium Flammeovirga sp.MY04 and Its Extracellular Agarase System

Bacteria of the genus Flammeovirga can digest complex polysaccharides (CPs), but no details have been reported regarding the CP depolymerases of these bacteria. MY04, an agarolytic marine bacterium isolated from coastal sediments, has been identified as a new member of the genus Flammeovirga. The MY04 strain is able to utilize multiple CPs as a sole carbon source and grows well on agarose, mannan, or xylan. This strain produces high concentrations of extracellular proteins (490 mg L-1 ± 18.2 mg L-1 liquid culture) that exhibit efficient and extensive degradation activities on various polysaccharides, especially agarose. These proteins have an activity of 310 U mg-1 ± 9.6 U mg-1 proteins. The extracellular agarase system (EAS) in the crude extracellular enzymes contains at least four agarose depolymerases, which are with molecular masses of approximately 30-70 kDa. The EAS is stable at a wide range of pH values (6.0-11.0), temperatures (0-50℃), and sodium chloride (NaCl) concentrations (0- 0.9 mol L-1). Two major degradation products generated from agarose by the EAS are identified to be neoagarotetraose and neoagarohexaose, suggesting that β-agarases are the major constituents of the MY04 EAS. These results suggest that the Flammeovirga strain MY04 and its polysac-charide-degradation system hold great promise in industrial applications.

一株海洋细菌的鉴定及其细胞死亡的研究

对从浒苔表面分离得到的1株海洋细菌——HT5进行了系统分类鉴定和细胞死亡的初步研究。根据形态学特征、培养特性和生理生化特征及16S rDNA序列同源性将HT5鉴定为Flammeovirga sp.。通过生长曲线、菌体的形态变化、存活时间与温度的关系等描述了HT5在培养中菌体细胞的死亡特性,并初步推测这一特性与细菌的细胞程序性死亡有关。

深海沉积物中龙须菜降解菌群的筛选与鉴定及多样性分析

以龙须菜为唯一的营养源对深海沉积物进行富集和筛选,获得一个可降解龙须菜(Gracilaria lemaneiformis)、紫菜(Porphyra umbilicalis)和海带(Laminaria japonica)产生还原性寡糖的菌群.通过16S rRNA序列及16S rRNA-RFLP分析对该菌群中的细菌多样性进行了研究.结果表明,降解菌群中的细菌组成主要为弧菌属(Vibrio,8株)、火色杆菌属(Flammeovirga,7株)和希瓦氏菌属(Shewanella,5株),其中希瓦氏菌属和火色杆菌属的细菌在菌群中的丰度较高.采用龙须菜为唯一营养源的筛选培养基对菌群中的细菌进行分离,获得4株具有琼胶酶活力的细菌,包括2株火色杆菌属和2株希瓦氏菌属细菌.培养和未培养的结果均表明火色杆菌和希瓦氏菌这2个属为所研究的深海沉积物主要的龙须菜降解菌.对原始降解菌群和所分离的关键菌株进行了龙须菜酶解产糖能力的比较,结果发现菌群中的弧菌属菌株虽然自身没有酶解龙须菜的能力,但可能可以协助关键菌株,提高菌群对龙须菜的降解效率.因此本研究中所获得的菌群和菌株有望在琼胶寡糖的绿色生产中得到广泛应用.

深海细菌太平洋火色杆菌中α-淀粉酶基因amy608的克隆表达及其酶学性质研究

从来自深海沉积物的太平洋火色杆菌（Flammeovirga pacifica）的基因组中发现了一个全长为1 875 bp的α-淀粉酶基因amy608.该基因在数据库中找不到具有同源性的序列,而所编码的Amy608蛋白与已注册蛋白的氨基酸序列相似性最高仅为56%,但具有α-淀粉酶水解活性所必需的保守基序DXEXD.进化树分析表明其属于糖苷水解酶13（GH13）家族第二亚家族.构建了p ColdΙ-amy608表达载体,在大肠杆菌中进行重组Amy608蛋白的异源表达,并采用镍离子亲和层析柱对重组蛋白进行了纯化.酶学性质分析表明,重组酶Amy608的最适作用温度为40℃,在40℃保温4 d后,仍保留70%以上的酶活,显示出良好的中温热稳定性;最适p H值为7.0,p H值范围在6~9时仍保留60%以上的酶活力,表明该酶具有较宽的p H值作用范围.Ca^2＋、Na^＋、K^＋对α-淀粉酶Amy608有激活作用,尤其是Ca2＋可使酶活显著提高40%.薄层色谱分析结果显示该酶水解可溶性淀粉的最终产物以葡萄糖为主,表明该酶是一个糖化型淀粉水解内切酶.这些结果表明Amy608为GH13家族第二亚家族中一个新型的α-淀粉酶.

毕赤酵母表达食琼脂火色杆菌褐藻胶裂解酶

选择食琼脂火色杆菌(Flammeovirga agarivorans)的潜在褐藻胶裂解酶基因,对其进行序列优化及全基因合成,在毕赤酵母(Pichia pastoris)中进行分泌表达。摇瓶诱导表达产物的蛋白浓度为0.23 mg/mL。表达的褐藻胶裂解酶最适pH值为9.0,最适温度为40℃,在该条件下的酶活力达400.00 U/mL。该酶在40℃及以下时较稳定。底物特异性分析结果显示,该酶对聚甘露糖醛酸及聚古罗糖醛酸均有水解能力,但对聚古罗糖醛酸的水解能力更强。利用该酶水解褐藻酸钠并使用高效液相色谱及质谱方法对产物进行了分析,结果显示,产物主要为聚合度2~4的褐藻寡糖。研究获得的褐藻胶裂解酶可用于褐藻寡糖的酶法规模制备。

深海太平洋火色杆菌琼胶降解基因分析和琼胶酶Aga0950的表达及酶学性质

【目的】对深海太平洋火色杆菌(Flammeovirga pacifica WPAGA1)全基因组进行生物信息学分析,筛选获得琼胶酶基因aga0950,采用基因工程手段对该基因的功能和性质进行验证和分析。【方法】采用Illumina HiSeq2500测序技术进行基因组测序分析;采用克隆表达和镍柱纯化方法获得纯aga0950基因表达产物;采用薄层层析(TLC)和离子色谱(IC)法分析酶降解琼胶产物;采用二硝基水杨酸法(DNS)测定琼胶酶活性。【结果】基因组序列分析表明,菌株WPAGA1全基因组拥有13个β-琼胶酶相关基因;氨基酸序列比对显示,同源性为60%–85%,其中aga0950是具有GH16家族典型特征的基因,同源性为67%。纯化的重组酶Aga0950比活力达51770 U/mg,具有高效降解琼胶活性,降解终产物为新琼四糖和新琼六糖;最适温度为50°C,最适pH为4.0–10.0;Co^(2+)、Mn^(2+)和Fe3+促进酶活,Cu^(2+)抑制酶活。【结论】深海菌株WPAGA1具有丰富的琼胶酶基因;属于GH16家族的琼胶酶基因aga0950表达产物具有高效降解胶琼活性和良好的热、酸、碱稳定性。

深海太平洋火色杆菌琼胶酶Aga2660的克隆表达及发酵优化

【背景】琼胶寡糖已成为化妆品、食品、医药等领域的研究热点,而生物酶法被认为是制备琼胶寡糖的高效方法。【目的】从深海太平洋火色杆菌(Flammeovirga pacifica WPAGA1)筛选获得琼胶酶基因aga2660,对基因aga2660进行克隆转化,使其在大肠杆菌中进行表达,分析重组酶的性质以及酶解产物。【方法】采用克隆表达和镍柱纯化方法获得aga2660基因表达的纯化产物;采用薄层层析和离子色谱法分析酶解产物;5L发酵罐采用补料阶段指数流加、诱导阶段乳糖连续流加的策略进行产酶发酵条件的优化。【结果】基因aga2660是具有GH50家族典型特征的基因,酶解产物为单一的新琼二糖。最适温度为30°C,最适pH为7.0,Mn^(2+)、Ca^(2+)和Mg^(2+)能促进琼胶酶Aga2660的酶活。采用发酵优化策略后的酶活达到11.81U/mL,比优化前提高了13.2倍。【结论】琼胶酶Aga2660具有良好的热、酸、碱稳定性,其酶解产物为单一的新琼二糖,这为特定聚合度琼胶寡糖的制备奠定了良好基础。