一种短杆状耐辐射菌的分离与鉴定

从北京地区公园湖岸土壤中分离到一株橙红色杆状耐辐射菌,细胞壁革兰氏染色为阴性,电镜显示菌体大小为06μm～16μm,略大于日本学者报道的Deinobacter grandis菌,过氧化氢酶的含量和分子量不同于D.radiodurans R1菌,分离菌的(G+C)mol%含量为707%, 16S rDNA序列分析表明,分离到的杆状耐辐射菌(RR5332)16S rRNA基因序列与Deinobacter grandis菌高度同源,提示RR5332归于Deinobacter菌属,并可能是该菌属中的一个新种。     

人基质金属蛋白酶-2的表达、纯化和性质鉴定

PCR方法扩增人基质金属蛋白酶 2 (MMP 2 )不含信号肽的表达序列 ,酶切和测序鉴定正确后 ,构建酵母重组表达质粒pPIC9 MMP 2 ,电击法转化毕赤酵母 (Pichiapastoris)细胞得到阳性克隆 ,甲醇诱导获得含大量基质金属蛋白酶 2的培养上清 ,经SephacrylS 2 0 0纯化后 ,纯度达到电泳纯。明胶酶谱和SDS PAGE分析说明重组MMP 2能够降解明胶和IV型胶原 ,表明重组蛋白具有与天然MMP 2相似的底物特异性。糖基化分析和SDS PAGE表明 ,表达产物的分子量约为 5 0kD ,重组MMP 2的C 末段可能发生了降解。     

耐辐射球菌pprI在大肠杆菌中表达增强细胞抗氧化能力的研究

将耐辐射球菌(Deinococcus radiodurans)与DNA修复有关的开关基因—pprI通过穿梭质粒pRADZ3导入大肠杆菌TG1中,使其在正常培养条件下(不需诱导剂)表达PprI蛋白,并通过Western blot证实该基因在TG1中可稳定表达。与转化了空白质粒pRADZ3 TG1对照,观察了改造后的两种大肠杆菌在有H2O2氧化压力下的存活率和大肠杆菌中两种过氧化氢酶（KatE, KatG）的活性表达差异。结果表明,无论在指数生长期还是稳定生长期,能表达PprI蛋白的大肠杆菌比对照的存活率要高出10％左右;非变性电泳结果表明,耐辐射球菌pprI 在大肠杆菌中的表达使得KatE活性在指数生长期与稳定生长期分别增加1.5～2倍和2.5～3倍。证明耐辐射球菌pprI 在大肠杆菌中的表达能够增强细胞抗氧化能力。     

耐辐射奇球菌recA基因的克隆、表达及其对recA缺损大肠杆菌辐射抗性的影响

将耐辐射奇球菌（Deinococcus radiodurans）的recA基因克隆到表达质粒pET15b中,并在Escherichia coli HMS(DE3)中高效表达了可溶性的RecA重组蛋白。同时将recA基因通过穿梭质粒pRADZ3导入recA缺损E. coli TG2细胞中,Western印迹实验显示RecA蛋白能够在不需要诱导剂IPTG的条件下稳定表达。辐射抗性实验表明,D. radiodurans的recA基因在E. coli细胞中的表达能够完全补偿recA缺损E. coli辐射抗性能力。     

极耐热性阿拉伯糖苷酶基因的表达、纯化及酶学性质研究

采用PCR从海栖热袍菌(Thermotoga maritima)克隆出编码极耐热稳定性阿拉伯糖苷酶基因,以pET20b为表达质粒,与其C末端6个组氨酸标签序列融合,在大肠杆菌中得到高效表达。基因表达产物通过热处理和亲和层析柱纯化后,酶纯度达电泳均一。纯化重组酶稳定性检测表明,阿拉伯糖苷酶活性最适作用温度和最适作用pH分别为90～95℃和pH 5.0～5.5,在pH 4.2～8.2之间酶活力稳定,95℃的半衰期为4h;SDSPAGE测得酶的分子量为56.57 kD,与理论推算值相吻合。在所测定的底物中,阿拉伯糖苷酶仅对对硝基苯阿拉伯呋喃糖苷（pNPAF）有专一性水解作用,其动力学参数Km值为018mmol/L, Vmax为139μmol/min·mg。     

嗜热细菌木糖异构酶基因xylA在酿酒酵母中的高效表达

采用PCR技术克隆得到嗜热细菌Clostridium thermohydrosulfuricum木糖异构酶(xylose isomerase XI)基因xylA,将该基因连接于酵母表达载体pMA91的磷酸甘油激酶(PGK)启动子下,得到重组质粒pBX1。通过LiAc完整细胞转化法将重组质粒转移至酿酒酵母(Saccharomyces cerevisiae)H158受体菌中,得到重组酵母转化子H612,酶活测定结果表明,成功地在酿酒酵母中得到木糖异构酶的活性表达。SDSPAGE电泳结果显示出明显的特异性表达产物带,单体分子量为43kD。由酿酒酵母重组子H612产生的木糖异构酶最高酶活条件与其在自然状态下的一致,均为85℃,pH70,在这一条件下酶的比活力为10U/mg蛋白,而在接近酵母最适生长温度的30℃和40℃时,其相对酶活分别下降37%和11%。研究结果显示在酿酒酵母中得到木糖异构酶的活性表达,为进一步在酿酒酵母菌中建立新的木糖代谢途径打下了基础。     

来源于橄榄绿链霉菌A1的高比活木聚糖酶XYNB的高效表达及性质的比较分析

高效表达高比活木聚糖酶是进一步提高木聚糖酶发酵效价、降低其生产成本的有效途径。将橄榄绿链霉菌(Streptomyces olivaceoviridis) A1的高比活木聚糖酶成熟蛋白编码基因xynB克隆到毕赤酵母表达载体pPIC9中,转化毕赤酵母得到重组酵母,在重组酵母中木聚糖酶基因得到了高效分泌表达,且表达产物具有生物学活性。在3L发酵罐中蛋白表达量约14mg/mL, 酶活性(效价)为1200IU/mL。SDSPAGE分析表明,表达的木聚糖酶XYNBa为糖基化蛋白, 分子量为31kD, 经脱糖基化处理得到21kD 的XYNBb, 与橄榄绿链霉菌A1所产原酶XYNB大小一致。通过对XYNB、XYNBa及XYNBb酶学性质的比较发现：三者在比活性、Vmax及热稳定性方面有较大差异。该酶对不同木聚糖的酶解产物的糖份分析表明：酶解产物的主要成分为木二糖、木三糖和木四糖,占总糖含量的95%以上。     

绮丽刺毛霉的一种新型甘氨酸氨肽酶的研究

研究了产自于绮丽刺毛霉（Actinomucor elegans）的一种甘氨酸氨肽酶。分子筛层析表明该酶的天然分子的分子量为320kD,SDSPAGE分析表明蛋白质的亚基分子量为565kD。该酶水解含有甘氨酸残基的底物（如glycinenaphthylamine）的效率要较其它氨基酸残基高得多。该酶的最佳反应温度为30℃,最佳pH为8.0。酶的Km和Kcat值分别为0.24mmol/L与1008 s^-1。1.0mmol/L Zn²⁺,Cu²⁺和Cd²⁺可完全抑制该酶的活性。作用于酶巯基的化学物质对酶活性都有抑制作用。根据络合剂反应的实验结果表明该酶是一种含有金属的酶。当与蛋白酶共同作用时该酶除了甘氨酸外还能提高脯氨酸、精氨酸及谷氨酸的水解率。     

兼具凝集素活性的芥菜几丁质酶BjCHI1

利用毕赤酵母表达系统表达芥菜几丁质酶基因BjCHI1及其两个衍生基因BjCHI2和BjCHI3,获得相应的蛋白质。经FPLC纯化后,测定了3种蛋白质的几丁质酶活性,发现它们均能降解CM-chitin-RBV和胶状几丁质。以CM-chitin-RBV为底物时的Km值分别为0.799mg/mL、0.544mg/mL和0.793mg/mL,差别甚微。而以胶状几丁质为底物时的Km值分别为0.281mg/mL、0.388mg/mL和1.643mg/mL,表现一定的差别,说明几丁质结合域影响了酶对不溶性底物的亲和力。3种蛋白中,只有BjCHI1在33μg/mL以上浓度具有凝集素活性,而BjCHI2和BjCHI3的浓度即使高达800μg/mL也无凝集素活性,表明2个几丁质结合域是BjCHI1具有凝集素活性的必需条件,这是植物中发现的第一个兼有几丁质酶和凝集素活性的蛋白质。      

小球藻病毒PBCV-1特异性溶壁酶(Lysin)的溶壁活性

从PBCV\|1感染小球藻NC64A的细胞裂解液中提取了Lysin的粗制剂,酶活底物范围分析表明,几丁质酶、壳聚糖酶和β\|1,3\|葡萄糖苷酶是Lysin活性的主要组成部分,并与小球藻细胞壁的组成成分相吻合。其中几丁酯酶和壳聚糖酶,特别是几丁酯酶在裂解小球藻细胞壁的过程中发挥了重要的作用。Lysin粗制剂经FPLC分离纯化得到分子量分别为52kD、56kD的两个几丁质酶(Chil和Chi2)和一个分子量为36kD的壳聚糖酶。     

Protease expression in the supernatant of Chinese Hamster Ovary cells grown in serum-free culture

The protease activity secreted by the Chinese Hamster Ovary (CHO-K1) cell line grown in serum-free medium was examined by substrate gel electrophoresis (zymography). The cell line expressed extracellular proteases that were active on gelatin zymograms but not on casein zymograms. The main protease band visible by gelatin zymography was approx. 92 kDa. Incubation of the conditioned medium with aminophenylmercuric acetate (APMA) resulted in the appearance of gelatinase activity at 82 kDa. Incubation of the conditioned media with EDTA significantly decreased the gelatinolytic activity of both the 92 kDa and 82 kDa forms, indicating the gelatinase responsible was a metalloprotease. Immunoblotting of the conditioned medium showed the gelatinase to be the pro- form of matrix metalloprotease-9 (pro-MMP-9), also known as gelatinase B.     

The ClpPX protease is required for radioresistance and regulates cell division after gamma-irradiation in Deinococcus radiodurans

Protein degradation in bacteria is involved in diverse cellular responses to environmental stimuli and in removing potentially toxic damaged proteins or protein aggregates. ATP-dependent proteases play a key role in these processes. Here, we have individually inactivated all the ATP-dependent proteases belonging to the Clp or Lon families in Deinococcus radiodurans. The mutants were tested for survival after gamma-irradiation and for sensitivity to the tRNA analogue puromycin in order to assess the impact of each disruption on radioresistance, as well as on proteolysis of misfolded proteins. We found that inactivation of the ClpPX protease significantly decreased cell survival at elevated gamma-irradiation doses, while inactivation of Lon1 and Lon2 proteases reduced resistance to puromycin, suggesting that they play a role in eliminating damaged proteins. Mutants devoid of ClpPX protease displayed altered kinetics of DNA double-strand break repair and resumed cell division after an exceedingly long lag phase following completion of DNA repair. During this stasis period, most of the DeltaclpPX irradiated cells showed decondensed nucleoids and abnormal septa and some cells were devoid of DNA. We propose that the ClpPX protease is involved in the control of proper chromosome segregation and cell division in cells recovering from DNA damage.     

Supernatant proteolytic activities of High-Five insect cells grown in serum-free culture

The proteolytic activity of High-Five insect cell culture supernatants was analysed using substrate gel electrophoresis (zymography). During growth in serum-free media, High-Five cells constitutively expressed and secreted proteases that were active on casein gel but not on gelatin or bovine serum albumin gels. Two main protease bands were visible at about 41–42 kDa and 32–33 kDa. By addition of various protease inhibitors in the incubation buffer, the proteases were identified as metalloproteases as complete and specific inhibition of the proteolytic activities was only obtained by 1,10-phenanthroline.     

Silver-stained fibrin zymography: separation of proteases and activity detection using a single substrate-containing gel

A new zymogram method, silver-stained fibrin zymography, for separation of protease bands and activity detection using a single substrate gel, was developed. The method takes advantage of the nanoscale sensitivity of both zymography and silver staining. After SDS-PAGE in a gel containing fibrin, the gel was incubated in enzyme reaction buffer and the zymogram was silver-stained. Bands with protease activity were stained with silver in clear areas where the protein substrate had been degraded. The molecular sizes of proteases were accurately determined. Furthermore, proteases of high molecular weight were clearly and sharply resolved.     

REVISITING RUBISCO AS A PROTEIN SUBSTRATE FOR INSECT MIDGUT PROTEASES

Gene fragments encoding the large subunit (LS) of Rubisco (RBCL) were cloned from various species of host plants of phytophagous Lepidoptera and expressed as recombinant proteins in Escherichia coli. Recombinant RBCLs were compared among each other along with casein and native Rubisco as proteinaceous substrates for measuring total midgut protease activities of fourth instar larvae of Helicoverpa armigera feeding on casein, Pieris brassicae feeding on cauliflower, and Antheraea assamensis feeding on Litsea monopetala and Persea bombycina. Cognate rRBCL (from the pertinent host plant species) substrates performed similar to noncognate rRBCL reflecting the conserved nature of encoding genes and the versatile use of these recombinant proteins. Casein and recombinant RBCL generally outperformed native Rubisco as substrates, except where inclusion of a reducing agent in the enzyme assay likely unfolded the plant proteins. Levels of total midgut protease activities detected in A. assamensis larvae feeding on two primary host species were similar, suggesting that the suite(s) of digestive enzymes in these insects could hydrolyze a plant protein efficiently. Protease activities detected in the presence of protease inhibitors and the reducing agent dithiothreitol (DTT) suggested that recombinant RBCL was a suitable protein substrate for studying insect proteases using in vitro enzyme assays and substrate zymography.     

Intracellular proteases in sporulated Bacillus thuringiensis subsp. kurstaki and their role in protoxin activation

The intracellular proteases in sporulated Bacillus thuringiensis subsp. kurstaki were studied to identify the endogenous proteases involved in the activation of protoxin. The proteases obtained with 30% ammonium sulfate saturation were analysed by both gelatin zymography and azocasein hydrolysis. Three proteases with molecular mass 92 kDa, 78 kDa and 69 kDa were identified on gelatin gel and their gelatinolytic activity was inhibited by ethylenediamine tetraacetic acid. Significantly, 1,10-phenanthroline caused an inhibition of the azocasein hydrolytic activity by 98% and ethylenediamine tetraacetic acid by 28%. The three proteases were heat-stable at 65 °C, while the 69-kDa protease was active up to 75 °C. Intracellular protease-deficient mutants (ethyl methanesulfonate mutagenesis) could not generate the active toxin suggesting the existence of a specific enzyme affecting the conversion of protoxin to toxin.     

Intracellular protease activity during the growth of Streptomyces coelicolor

Multiple intracellular proteases were produced by Streptomyces coelicolor throughout growth as surface cultures. Zymography revealed two constitutive, gelatinolytic proteases of approximate molecular masses 32.5 and 36.5 kDa. In addition, transient expression of a large (183.5 kDa) protease preceded aerial mycelium formation and following this, during sporulation, an additional protease of mass 27.5 kDa was produced.     

Protease activity in protein-free NSO myeloma cell cultures

Summary Zymography of concentrated conditioned medium (CM) from protein-free NS0 myeloma cell cultures showed that this cell line produced and released/secreted several proteases. Two caseinolytic activities at 45–50 and 90 kDa were identified as aspartic acid proteases, and at least two cathepsins of the papain-like cysteine protease family with molecular masses of 30–35 kDa were found by gelatin zymography. One of these cathepsins was identified as cathepsin L by using an enzyme assay exploiting the substrate Z-Phe-Arg-AMC and the inhibitor Z-Phe-Tyr-t(Bu)-DMK. The aspartic acid and cysteine proteases were active only at acidic pH and are therefore not a potential risk for degrading the product or affecting cell growth during culture. Secreted proforms of cathepsins may, however, possess mitogenic functions, but addition of anti-procathepsin L antibodies to NS0 cultures did not influence proliferation. The recombinant antibody product was not degraded in cell-free CM incubated at pH 7, but when the pH was decreased to 3.5–4, the aspartic acid proteases degraded the product. Gelatin zymography also revealed the presence of several serine proteases in NS0 CM, one at 85 kDa and two at 50 kDa, with pH optima close to culture pH. Addition of the serine protease inhibitor aprotinin significantly increased the specific proliferation rate as compared to the control. In addition to these data, N-terminal amino acid sequencing identified two proteins in NS0 CM as the protease inhibitors secretory leukocyte protease inhibitor and cystatin C.     

海洋细菌QD80低温碱性蛋白酶的基因克隆和性质

对海洋细菌QD80所产低温碱性蛋白酶进行了基因克隆和序列分析,对此酶的性质进行了初步研究.此酶基因开放阅读框架为1377bp,分子量为49.9kD.此序列上游-8bp处为该基因的SD序列,-10区和-35区分别有5′TAGAAT3′和5′TTGACC3′的保守序列.该酶最适pH为9.5,最适反应温度为30℃,在10℃酶活力仍能保持30%以上.该酶对氧化剂H2O2的抗氧化作用明显,浓度达到4gL时酶活仍保留85%.该蛋白酶的低温适应性和抗氧化特性将对其在低温洗涤领域的应用提供广泛的潜在应用价值.     

Limited concentration of RecA delays DNA double-strand break repair in Deinococcus radiodurans R1

To evaluate the importance of RecA in DNA double-strand break (DSB) repair, we examined the effect of low and high RecA concentrations such as 2500 and 100 000 molecules per cell expressed from the inducible Pspac promoter in Deinococcus radiodurans in absence or in presence of IPTG respectively. We showed that at low concentration, RecA has a negligible effect on cell survival after gamma-irradiation when bacteria were immediately plated on TGY agar whereas it significantly decreased the survival to gamma-irradiation of DeltaddrA cells while overexpression of RecA can partially compensate the loss of DdrA protein. In contrast, when cells expressing limited concentration of RecA were allowed to recover in TGY2X liquid medium, they showed a delay in mending DSB, failed to reinitiate DNA replication and were committed to die during incubation. A deletion of irrE resulted in sensitivity to gamma-irradiation and mitomycin C treatment. Interestingly, constitutive high expression of RecA compensates partially the DeltairrE sensitization to mitomycin C. The cells with low RecA content also failed to cleave LexA after DNA damage. However, neither a deletion of the lexA gene nor the expression of a non-cleavable LexA(Ind-) mutant protein had an effect on survival or kinetics of DNA DSB repair compared with their lexA+ counterparts in recA+ as well as in bacteria expressing limiting concentration of RecA, suggesting an absence of relationship between the absence of LexA cleavage and the loss of viability or the delay in the kinetics of DSB repair. Thus, LexA protein seems to play no major role in the recovery processes after gamma-irradiation in D. radiodurans.