普鲁兰酶基因在解淀粉芽孢杆菌BF7658菌株中的分泌表达

根据文献报道的核苷酸序列合成Bacillus deramificans普鲁兰酶成熟肽编码基因BdP。将BdP基因插入芽孢杆菌分泌表达载体pUC980信号肽编码区下游,获得重组质粒pUC980-BdP,重组质粒转化中温α-淀粉酶生产菌解淀粉芽孢杆菌BF7658菌株。摇瓶发酵实验表明,重组转化子发酵液有明显普鲁兰酶酶活,约48h酶活达到最高水平,为2．8ASPU／mL。酶学性质分析表明,重组酶最适作用温度约为60℃,最适反应pH为5．0,60℃保温3h仍保存50％的活性。重组酶性质适合淀粉糖化工艺的要求。     

解淀粉芽孢杆菌β-1,3-1,4-葡聚糖酶的高效表达

目的:克隆解淀粉芽孢杆菌β-1,3-1,4-葡聚糖酶基因(bglA)使其在解淀粉芽孢杆菌CICIM B4081中高效表达,并对重组酶进行酶学性质研究.方法:以解淀粉芽孢杆菌(CICIM B4801)染色体DNA为模板,经过PCR扩增得到了大小约为0.8kb的β-1,3-1,4-葡聚糖酶基因(bglA),构建了重组表达质粒pQ-bglA,通过电转化的方法将其转化人解淀粉芽孢杆菌(CICIM B4801)中.结果:得到了能高效表达β-1,3-1,4-葡聚糖酶的重组解淀粉芽孢杆菌.在250mL摇瓶条件下,重组菌分解地衣多糖的胞外最高酶活达到了1515.7U/mL,重组酶的最适作用温度为55℃,最适反应pH值为6.5.结论:重组菌的β-1,3-1,4-葡聚糖酶的酶活为原始菌株的11.84倍,实现了bglA基因在解淀粉芽孢杆菌中的高效表达.     

地衣芽孢杆菌普鲁兰酶编码基因的鉴定

对地衣芽孢杆菌基因组序列分析显示。其中标注为amyX的基因可能编码普鲁兰酶。以PCR方法,从地衣芽孢杆菌染色体DNA中扩增出amyX基因蛋白编码区,插入大肠杆菌表达载体pET28aT7启动予下游。含重组质粒的大肠杆菌BL21（DE3）在IPTG诱导下表达出有活性的普鲁兰酶。酶学性质初步分析表明,重组普鲁兰酶最适反应温度为40℃,最适pH值为6．0。     

嗜热枯草芽孢杆菌普鲁兰酶基因的表达与重组酶的性质

克隆嗜热枯草芽孢杆菌WY-34普鲁兰酶基因并在大肠杆菌中进行表达,对重组酶进行纯化和酶学性质研究,根据枯草芽孢杆菌的普鲁兰酶蛋白序列,设计PCR引物对WY-34的普鲁兰酶基因进行克隆及异源表达.对表达蛋白的最适pH、pH稳定性及最适温度、温度稳定性等特性进行研究,并测定重组普鲁兰酶的底物特异性.将普鲁兰酶基因pluA克隆及分析序列后,发现基因长度为2.2 kb,编码718个氨基酸,在大肠杆菌中异源表达.通过Ni-IDA亲和层析一步纯化得到比活力为93.2 U/mg的纯酶,SDS-PAGE和凝胶层析测定的分子量分别为76.2 kD和74.3 kD.酶学性质研究表明,该酶的最适温度为40℃,在温度不高于45℃条件下稳定;最适pH为6.0,同一温度下pH 6.0-9.0范围内处理30 min可以保持80％以上的酶活力,此酶对普鲁兰糖有很强的底物特异性.此重组普鲁兰酶的酶学性质表明此酶具有一定的工业化应用价值.     

短小芽孢杆菌木聚糖酶基因在毕赤酵母中的分泌表达及酶学性质研究

将短小芽孢杆菌HB030的内切-1,4-木聚糖酶基因克隆到毕赤酵母表达载体pPIC9k上,得到重组质粒pHBM220,将pHBM220经酶切后分别转化三株毕赤酵母KM71、GS115、SMD1168,该木聚糖酶基因在三株毕赤酵母中均实现了分泌表达。将重组毕赤酵母KM71(pHBM220)、GS115(pHBM220)、SMD1168(pHBM220)分别诱导产酶,对重组酶进行相关的酶学性质分析表明,三者的最适反应pH值约为5.5,最适反应温度约为60℃。在其最适反应条件下测得三者粗酶液酶活分别为10.80IU/mL,11.63IU/mL,9.68IU/mL。重组毕赤酵母KM71(pHBM220)所产酶的热稳定性较好,而在pH稳定性方面三者没有太大的差异。     

短小芽孢杆菌木聚糖酶基因在毕赤酶母中的分泌表达及酶学性质研究

将短小芽孢杆菌HB030的内切-1,4-木聚糖酶基因克隆到毕赤酵母表达载体pPIC9K,得到重组质粒pH-BM220,将pHBM220经酶切后分别转化三株毕赤酵母KM71、GS115、SMD1168,该木聚糖酶基因在三株毕赤酵母中均实现了分泌表达,将重组毕赤酵母KM71（pHBM220）,GS115（pHBM220),GS115(pHBM220),SMD1168（pHBM220）分别诱导产酶,对重组酶进行相关的酶学性质分析表明,三的最适反应pH值约为5.5,最适反应温度约为60℃,在其最适反应条件下测得三粗酶液酶活分别为10.80IU/mL,11.63IU/mL,9.68IU/mL,重组毕赤酵母KM71（pHBM220）所产酶的热稳定性较好,而在pH稳定性方面三没有太大的差异。     

内切葡聚糖酶基因在巨大芽孢杆菌中的表达及其酶学性质研究

通过PCR方法将已克隆的内切葡聚糖酶基因(GenBank No. DQ782954)信号肽编码序列去除, 然后与表达载体pHIS1525连接后转化大肠杆菌DH5a, 筛选出阳性转化子DH5 a -pHIS1525-G7并提取质粒进一步转化巨大芽孢杆菌WH320原生质体, 获得基因工程菌WH320-pHIS1525-G7。刚果红染色和SDS-PAGE分析表明该基因在巨大芽孢杆菌中得到了有效表达。基因工程菌经优化培养后, 胞外上清液中的酶活力可达889 U, 是出发菌株(即枯草芽孢杆菌C-36)的11.22倍。酶学性质研究表明: 该酶的最适反应温度与pH值分别为65℃与pH 6.0, 在pH 4.5~10.0范围内50℃保温30 min可保持在最高酶活的80%以上。     

碱性α-淀粉酶基因在巨大芽孢杆菌中的表达及酶学性质研究

将已克隆的碱性α-淀粉酶基因信号肽编码序列去除,用PCR的方法加入酶切位点,然后与表达载体pHIS1525连接转化大肠杆菌DH5α,筛选出阳性转化子DH5α-pHIS1525-JH,并提取质粒进一步转化巨大芽孢杆菌YYBm1原生质体,获得基因工程菌YYBm1 -pHIS1525-JH.SDS-PAGE分析表明该基因在巨大芽孢杆菌中得到了有效表达.酶学性质研究表明,该酶的最适温度与pH值分别为60℃与pH8.5,在pH7.0 - 10.5之间具有较好的稳定性,Km值为1.94 mg/mL,酶活力可达2516.5 U.     

嗜热脂肪芽孢杆菌高温中性蛋白酶在枯草芽孢杆菌中的表达、纯化及其酶学性质的研究

本文中嗜热脂肪芽孢杆菌(B. stearothermophilus)的高温中性蛋白酶基因在sacB基因启动子的调控下, 以蛋白酶自身或sacB基因的序列为信号肽, 分别实现了在枯草芽孢杆菌DB104中的高效表达. 表达产物经纯化后, 酶的比活力可达16530 U/mg, 纯化倍数达到3.8倍, 分子量约为35 kD. 对酶学性质的研究结果表明, 此酶的最适反应温度为65℃, 最适作用pH为7.5, 在65℃下反应1 h后, 仍可保留约80%的活力.     

Secreted expression of the pullulanase in Bacillus amyloliquefaciens BF7658

根据文献报道的核苷酸序列合成Bacillus deramificans普鲁兰酶成熟肽编码基因BdP.将BdP基因插入芽孢杆菌分泌表达载体pUC980信号肽编码区下游,获得重组质粒pUC980-BdP,重组质粒转化中温α-淀粉酶生产菌解淀粉芽孢杆菌BF7658菌株.摇瓶发酵实验表明,重组转化子发酵液有明显普鲁兰酶酶活,约48 h酶活达到最高水平,为2.8 ASPU/mL.酶学性质分析表明,重组酶最适作用温度约为60℃,最适反应pH为5.0,60℃保温3h仍保存50％的活性.重组酶性质适合淀粉糖化工艺的要求.     

产碱性木聚糖酶菌株的筛选及酶学性质

从青海盐碱湖土壤中筛选到25株产碱性木聚糖酶的菌株,其中编号为QH14的菌株产酶量达648.79U/mL,纯化后比活可达1148.56 U/mg。16 SrDNA鉴定表明菌株QH14属于短小芽孢杆菌,命名为Bacillus sp.QH14。从该菌株的基因组中克隆获得了碱性木聚糖酶编码基因XynQH14,并在大肠杆菌E.coliBL21(DE3)中获得重组表达。通过Ni-NTA亲和层析分离纯化后的重组QH14木聚糖酶比活达700.47 U/mg。该碱性木聚糖酶的酶促反应最适温度为60℃,最适pH为9.2;55℃处理1h仍保持50%的活力;在pH7.0~11条件下37℃处理酶液24 h后均保持80%以上的活力,且在pH11缓冲溶液中50℃处理24 h仍保持31.02%的酶活,显示了该碱性木聚糖酶较好的热稳定性和碱稳定,提示该碱性木聚糖酶在制浆造纸、纺织等行业的应用潜力。     

产碱性木聚糖酶菌株的筛选及酶学性质

从青海盐碱湖土壤中筛选到25株产碱性木聚糖酶的菌株, 其中编号为QH14的菌株产酶量达648.79 U/mL, 纯化后比活可达1148.56 U/mg。16 SrDNA鉴定表明菌株QH14属于短小芽孢杆菌, 命名为Bacillus sp. QH14。从该菌株的基因组中克隆获得了碱性木聚糖酶编码基因XynQH14, 并在大肠杆菌E.coliBL21(DE3)中获得重组表达。通过Ni-NTA亲和层析分离纯化后的重组QH14木聚糖酶比活达700.47 U/mg。该碱性木聚糖酶的酶促反应最适温度为60℃, 最适pH为9.2; 55℃处理1h仍保持50%的活力; 在pH7.0~11条件下37℃处理酶液24 h后均保持80%以上的活力, 且在pH11缓冲溶液中50℃处理24 h仍保持31.02%的酶活, 显示了该碱性木聚糖酶较好的热稳定性和碱稳定, 提示该碱性木聚糖酶在制浆造纸、纺织等行业的应用潜力。     

Over-expression and properties of a purified recombinant Bacillus licheniformis lipase: a comparative report on Bacillus lipases

The gene coding for an extracellular lipase of Bacillus licheniformis was cloned using PCR techniques. The sequence corresponding to the mature lipase was subcloned into the pET 20b(+) expression vector to construct a recombinant lipase protein containing 6 histidine residues at the C-terminal. High-level expression of the lipase by Escherichia coli cells harbouring the lipase gene-containing expression vector was observed upon induction with IPTG at 30 degrees C. A one step purification of the recombinant lipase was achieved with Ni-NTA resin. The specific activity of the purified enzyme was 130 units/mg with p-nitrophenyl-palmitate as substrate. The enzyme showed maximum activity at pH 10-11.5 and was remarkably stable at alkaline pH values up to 12. The enzyme was active toward p-nitrophenyl esters of short to long chains fatty acids but with a marked preference for esters with C(6) and C(8) acyl groups. The amino acid sequence of the lipase shows striking similarities to lipases from Bacillus subtilis and Bacillus pumilus. Based on the amino acid identity and biochemical characteristics, we propose that Bacillus lipases be classified into two distinct subfamilies of their own.     

解淀粉芽孢杆菌中温α-淀粉酶基因的克隆、表达与酶学性质分析

以中温α-淀粉酶生产菌株Bacillus amyloliquefaciens M23基因组DNA为模板。PCR扩增得到了2．0kb α-淀粉酶基因全长序列。该基因由上游启动子220bp,结构基因1544bp和终止序列320bp构成。将无信号肽的α-淀粉酶结构基因amyQ,克隆入表达载体pET28a,转化E．coli BL21（DE3）,经诱导,测定α-淀粉酶活性。结果表明：α-淀粉酶基因amyQ获得了活性表达,酶活力为2．297U／mL,SDS-PAGE电泳结果显示出分子量约为58kDa特异性蛋白质条带。酶学性质分析表明,重组α-淀粉酶的最适反应温度为60℃,最适反应pH为6．5,在60℃保温15min保持85％以上活性,超过15min,酶迅速失活,在pH5．5～10．0环境下稳定。水解产物分析表明：淀粉水解终产物主要为麦芽寡糖和糊精和少量葡萄糖。     

New type of pullulanase from Bacillus stearothermophilus and molecular cloning and expression of the gene in Bacillus subtilis.

A new type of pullulanase which mainly produced panose from pullulan was found in Bacillus stearothermophilus and purified. The enzyme can hydrolyze pullulan efficiently and only hydrolyzes a small amount of starch. When pullulan was used as a substrate, the main product was panose and small amounts of glucose and maltose were simultaneously produced. By using pTB522 as a vector plasmid, the enzyme gene was cloned and expressed in Bacillus subtilis. Since the enzyme from the recombinant plasmid carrier could convert pullulan into not only panose but also glucose and maltose, we concluded that these reactions were due to the single enzyme. The new pullulanase, with a molecular weight of 62,000, was fairly thermostable. The optimum temperature was 60 to 65 degrees C, and about 90% of the enzyme activity was retained even after treatment at 60 degrees C for 60 min. The optimum pH for the enzyme was 6.0.     

枯草芽孢杆菌(Bacillus subtilis)碱性脂肪酶基因在毕赤酵母中的表达

将来自枯草芽孢杆菌的碱性脂肪酶基因经密码子优化,全基因合成后克隆到pPICZαA载体,构建了pPICZαA-bsl分泌型重组质粒,该重组质粒经限制性内切酶PmeI线性化后使用LiCl法转化到毕赤酵母X-33,经过筛选获得分泌表达碱性脂肪酶的重组毕赤酵母X-33/pPICZαA-bsl。摇瓶发酵液上清酶活最高可达4.78 U/mL,初步研究了该脂肪酶的酶学性质,其最适作用温度为40-60℃,最适pH9.0,且具有高度耐碱的特性。该重组脂肪酶对旧新闻纸具备较明显的脱墨能力。     

Molecular cloning, purification and characterization of thermostable beta-1,3-1,4 glucanase from Bacillus subtilis A8-8

A gene encoding a beta-1,3-1,4-glucanase (CelA) belonging to family 5 of glycoside hydrolases was cloned and sequenced from the Bacillus subtilis A8-8. The open-reading-frame of celA comprised 1499 base pairs and the enzyme was composed of 500 amino acids with a molecular mass of 55 kDa. The recombinant beta-1,3-1,4 glucanase was purified by GST-fusion purification system. The pH and temperature optima of the enzyme were 8.0 and 60 degrees C, respectively. The enzyme was stable within pH 6.0-9.0. It was stable up to 60 degrees C and retained 30% of its original activity at 70 degrees C for 60 min. It hydrolyzed lichenan, CMC, xylan, laminarin, avicel and pNPC, but was inactive towards cellobiose. The enzyme activity was markedly activated by Co2+ and Mn2+, but was strongly inactivated by Fe3+. The truncated gene, devoid of cellulose-binding domain (CBD) showed 60% of activity and bound to avicel.     

合成利巴韦林的关键酶瞟呤核苷磷酸化酶的原核表达及活性分析

目的：在枯草芽孢杆菌中表达嘌呤核苷磷酸化酶（PNPase）并分析其活性。方法：将PNPase的编码基因deoD克隆入pDG148表达载体,构建原核穿梭型表达载体pDG148-deoD,采用电转化方法将表达载体转入枯草芽孢杆菌WB600后诱导表达重组PNPase;研究重组PNPase的活性。结果与结论：获得的重组PNPase活性较对照提高了193．9％,其最适催化条件为65℃、pH7．5、500μmol／L底物浓度和1％1,2,4-三氮唑-3-羧甲酰胺;对重组菌的发酵条件进行了初步优化,IPTG诱导6h后在发酵液中添加0．5％的Tween-80能大幅度提高重组PNPase的酶活力。