海洋低温蛋白酶菌株选育及发酵培养基的研究(Ⅰ)

以渤海和黄海分离出400多株在低温条件下生长良好的菌株为出发菌株,利用常规筛选方法选出2株低温蛋白酶产生菌（Pseudorrtortas alcaligenes）。经UV、DES、NTG、EMS、LiCl单独及复合诱变,选育出一株（Pa040523）蛋白酶高产突变株。通过单因素实验,确定了Pa040523菌株蛋白酶发酵培养基为：玉米淀粉糖1．8％,尿素0．6％,磷酸氢二钾0．6％,磷酸二氖钾0．3％。该突变株低温蛋白酶产量为940．8U／mg。     

海洋低温蛋白酶菌株发酵条件的研究(Ⅱ)

建立了海洋低温蛋白酶菌株(Pseudomonasalcaligenes简写为Pa040523)发酵最适pH值、温度、时间、接种量、通气量分别为5·5、12℃、72h、7%、170mL;在最适发酵条件下,Pa040523菌株50L发酵罐中低温蛋白酶活性为1,976·2U/mg。     

亚硝基胍诱变选育低温β-半乳糖苷酶高产菌

以野生低温β-半乳糖苷酶产生菌水生拉恩菌(Rahnella aquatilis)14-1为出发菌株.通过亚硝基胍(NTG)诱变及低温驯化,采用选择性平板初筛和摇瓶复筛,筛选出一株产酶活力比原始菌株提高54%的突变株,该突变株经传5代培养,产酶特性稳定.     

68株北极产蛋白酶菌株的筛选、鉴定以及部分酶学性质

【目的】从北极海水样品中分离产蛋白酶细菌,并对其进行初步的分类鉴定,为低温蛋白酶的低温适应性及其应用研究奠定基础。【方法】通过酪蛋白筛选培养基低温培养的方法从北极水样中分离出68株产蛋白酶细菌,采用16S rRNA基因PCR-RFLP(限制性酶切多态性)方法及传统的表型特性分析对所分离纯化的菌株进行分类,每种细菌类型各取1株代表菌株进行16S rRNA基因序列测定、GenBank数据库blast分析以及通过DNAMAN软件进行系统进化树分析。对代表菌株的蛋白酶酶学性质进行初步研究。【结果】68个菌株可归为3种类型(54.41%、42.65%和2.94%),分别以菌株6、11和52为代表菌株。16S rRNA基因序列分析结果表明,菌株11与比目鱼黄杆菌(Chryseobacterium scophthalmum)具有98.24%的同源性;菌株52与嗜根寡养单胞菌(Stenotrophomonas rhizophila)具有98.55%的同源性;菌株6与Stenotrophomonas rhizophila具有96.50%的同源性,可能为该属的新物种。对3种类型代表菌株进行表型性状研究显示,菌株6、11和52为革兰氏阴性、直杆状、不产胞外脂肪酶和淀粉酶,具有强的蛋白酶活性。菌株6的蛋白酶最适酶活温度为55℃,最适宜pH为6.7;菌株11的蛋白酶最适酶活温度为40℃,属于低温酶,最适酶活pH约为8.5;菌株52的蛋白酶最适酶活温度为65℃,最适酶活pH为7.4。【结论】本文首次报道了Stenotrophomonas和Chryseobacterium的菌株在北极海水样品中的分布,充实了极地产蛋白酶菌的种属分布多样性,为后续低温蛋白酶的研究和应用奠定了基础。     

低温纤维素酶菌株CNY086选育及发酵培养基优化(Ⅱ)

自渤海湾海泥中分离21株低温纤维素酶产生菌。其中菌株CNY01为绿色木霉(Trichoderma viride), 酶活力为67.30 U/mL。以该菌株为出发菌株, 经UV、DES等诱变, 选育出高产突变菌株CNY086, 酶活力为92.17 U/mL。该突变菌株低温纤维素酶发酵具有遗传稳定性。通过单因素和正交实验确定突变菌株CNY086低温纤维素酶发酵最适培养基: 秸秆粉1.20%、麸皮0.70%、硫酸铵0.50%、磷酸二氢钾0.55%, 上述条件下CNY086菌株酶活力达到108.55 U/mL。     

重离子诱变技术选育碱性蛋白酶高产菌株

从采集的土壤样品中分离筛选出一株碱性蛋白酶产生菌G-41,经16S rRNA分子鉴定为芽孢杆菌属菌株。该菌株在发酵培养基中能产生较高产量的胞外碱性蛋白酶(1.7×104U/mL)。以G-41为出发菌株,对其进行重离子辐照诱变处理,获得突变株G-41-68,将该突变株再次经重离子诱变,从大量突变株中筛选出碱性蛋白酶高产菌株15Gy-54,其酶活力达到6.22×104U/mL。与出发菌株相比较,突变株G-41-68和15Gy-54的酶活力分别提高了1.58倍和2.65倍。对突变株15Gy-54的发酵条件进行了优化研究,结果表明,该菌株的碱性蛋白酶活力得到进一步提高,达到7.18×104U/mL,其最适发酵条件为:培养基(g/100mL)为胰蛋白胨1、酵母膏0.5、乳糖5、Na2HPO4·12H2O0.4、KH2PO40.03、Na2CO30.1、MgSO40.0481(4×10-3mol/L)、pH8.0,培养温度41℃,振荡培养时间42-48h。实验结果表明,重离子辐照诱变技术是一种非常有效的微生物诱变育种新技术。     

产低温蛋白酶极地菌株的筛选及Pseudoalteromonas sp. QI-1产蛋白酶粗酶性质

通过酪蛋白平板法从实验室极地微生物资源库中筛选到130株在低温条件(4℃)下具有蛋白酶活性的菌株,并对部分酪蛋白水解圈较大的菌株进行了酶活测定和系统发育分析。发现酶活较高的8株菌分别属于假交替单胞菌属(Pseudoalteromonas)、科尔韦尔氏菌属(Colwellia)、希瓦氏菌属(Shewanella)、嗜冷杆菌属(Psychrobacter)。选择低温蛋白酶活性较高的菌株Pseudoalteromonas sp.QI-1为研究对象,以酪蛋白为反应底物对其所产低温蛋白酶粗酶酶性质进行初步研究。结果表明:QI-1低温蛋白酶酶活最适反应温度为40℃,在0℃时保持10%的相对酶活,酶活最适反应pH为10.0;其催化作用不需要金属离子的参与;热稳定性极差,在60℃放置15 min即完全失活。     

枯草杆菌(Bacillus subtilis)蛋白酶突变株蛋白酶和α-淀粉酶合成的关系

用同步辐射、离子注入和紫外辐射对枯草芽孢杆菌(Bacillus subtilis)183l菌株辐射诱变后,筛选到四个稳定的蛋白酶突变株。研究了B．subtilis 183l亲株及其蛋白酶突变株的蛋白海和α-淀粉酶合成情况,分析了蛋白酶和α-淀粉酶的合成关系。结果表明,B． subtilis 183l亲株及其突变株在以豆饼粉、玉米粉、麸皮等组成的发酵培养基中,37℃,120r／min培养条件下,各菌株最高α-淀粉酶活力相差不大;中性蛋白酶与α-淀粉酶的合成可能具有相互促进的作用。     

低温碱性蛋白酶菌株的筛选及产酶条件的研究

从 2 0株枯草芽孢杆菌筛选出了 1株产低温碱性蛋白酶菌株 ;并通过单因子实验、正交实验确定该菌株的最佳培养基为 :葡萄糖 8%,豆粕粉 6 %,Tween80 0 .0 3%,KH2 PO4 0 .0 6 %;确定了酶作用的最适条件为 30℃。     

亚硝酸与紫外线复合诱变原生质体选育产酶菌株

目的：筛选出一株稳定、高产的产中性蛋白酶菌株。方法：以突变株UV_(11)(原生质体紫外诱变得到)为出发菌株,在原生质体形成与再生最佳条件下制备原生质体并进行亚硝酸与紫外线复合诱变。结果：得到突变株Bacillus subtilis UN_(19),产酶活力从最初的378．97U/ml提高到3965．84U/ml。结论：亚硝酸与紫外线复合诱变原生质体是一种很好的诱变方式。     

Thermostable Alkaline Protease from a Novel Marine Haloalkalophilic Bacillus Clausii Isolate

An oxidative and SDS-stable alkaline protease secreted by a marine haloalkalophilic Bacillus clausii isolated from the tidal mud flats of the Korean Yellow Sea near Inchon City was investigated in batch fermentation in shake flasks and in a bioreactor under a range of conditions. The isolate produced maximum protease yields (15,000 U ml⁻¹) under submerged fermentation conditions at 42 °C for 40 h with an aeration of 1.5 v/v/min and agitation of 400 rev/min in a formulated soybean—casein medium (pH 9.6) containing (w/v): soybean meal (2%), casein (1%), corn starch (0.5%), NH₄Cl (0.05%), NaCl (0.05%), KH₂PO₄(0.04%), K₂HPO₄(0.03%), MgSO₄(0.02%), yeast extract (0.01%) and Na₂CO₃(0.6%). The optimal pH and temperature of activity of the partially purified enzyme were 11.5 and 80 °C, respectively. The alkaline protease showed extreme stability towards SDS and oxidizing agents, retaining its activity above 96 and 75% on treatment for 72 h with 5% SDS and 5% H₂O₂, respectively. The inhibition profile exhibited by phenylmethanesulphonyl fluoride suggested that the protease from B. clausii belongs to the family of serine proteases.     

Gelling properties of water-soluble polysaccharides from proliferating marine green seaweeds (Ulva spp.)

Water-soluble polysaccharides (12·2% of the algal dry weight) were extracted from marine green seaweed (Ulva spp.) which proliferate along the Brittany shores of France. They were composed of 18·4% rhamnose, 4·4% glucose, 1·9% xylose, 0·9% mannose, 0·9% galactose, 15·2% uronic acid, 15·8% sulphate and 23·7% ash based on the extract dry weight. These polysaccharides, formed a weak gel (about 3 Pa) at a concentration of 1·6% (w/v) in deionized water. The elastic modulus increased to about 160 Pa when boric acid (15–33 m ) was added and reached 250 Pa when both boric acid (7 m ) and calcium chloride (7 m ) were present. Adjusting the pH to 7·5 or higher by sodium tetraborate, phosphate or Tris-HCl buffers was detrimental to the gel. These results demonstrate that the poorly exploited biomass of Ulva spp. is a source of gelling polysaccharides of potential economical value. Mechanisms for gel formation which unusually involve both boron and calcium ions are proposed and will be studied further.     

一株高ACE抑制活性乳杆菌的筛选鉴定、培养条件优化及其基因组分析

【背景】乳杆菌是人体肠道益生菌,其发酵乳中可检测到血管紧张素转换酶(Angiotensin converting enzyme,ACE)抑制肽。海洋蕴藏着丰富的微生物种质资源,分布着大量的乳杆菌。【目的】从高通量测序结果中发现渤海沉积物中分布着乳杆菌资源。为了进一步开发具有ACE抑制活性的海洋乳杆菌资源,提高乳杆菌发酵乳的ACE抑制活性,筛选瑞士乳杆菌(Lactobacillus helveticus)并对其特性进行研究。【方法】采用高通量测序技术从渤海沉积物中检测乳杆菌,并对其进行富集分离,对筛选出的乳杆菌进行16S rRNA基因鉴定和全基因组测序分析,测定该菌发酵乳的ACE抑制活性,并采用正交实验优化发酵条件。【结果】渤海沉积物中含有乳杆菌并成功筛选出一株瑞士乳杆菌GY-3,其发酵乳具有较高的ACE抑制活性。该菌在发酵温度37°C,接种量3%,且在脱脂乳培养基中添加1.0%葡萄糖,0.6%大豆蛋白胨,1.0%酵母浸粉,0.04%MnSO_4·4H_2O时,抑制活性最高,可达79.52%。通过对该菌基因组进行测序研究,发现其产ACE抑制肽涉及蛋白酶系统、多肽转运系统和肽酶系统。【结论】为扩大海洋源产ACE抑制肽的乳杆菌种质资源、开发高产ACE抑制活性的发酵菌株奠定了基础,进一步研究了如何提高乳杆菌产ACE抑制肽的水平,并对其基因组进行了研究,为今后生物学特性和ACE抑制活性机理的研究奠定了基础,并对降血压相关产品的开发具有重要意义。     

Quantitative studies of increased cell-to-substratum adhesion at low temperature

The cell-to-substratum adhesion of an established epithelial cell line cultured for 24 h on glass coverslips was determined at 4 degrees C, 8 degrees C and 37 degrees C using a miniaturised parallel-plate shearing apparatus. The measurements of the minimum shear necessary to dislodge the cells (minimum distraction force, MDF) demonstrated a three- to fourfold increase in the adhesion of the cells at 4 degrees C (6.17 Pa) compared to that at 37 degrees C (1.36 Pa). At 8 degrees C the MDF was 2.31 pascals. Part of the adhesion was resistant to mild trypsinisation. Trypsin-resistant adhesion (TRA) was stabilised by low temperature, and by treatment with concanavalin A (50 micrograms ml-1) or colchicine (200-400 microM). The effects of con A (140 micrograms ml-1) and low temperature (4 degrees C) were additive, giving a combined MDF of greater than 9.27 pascals. On the basis of their different temperature and protease susceptibility it is suggested that trypsin-sensitive adhesion (TSA) and TRA represent separate functional classes of cell-to-substratum attachment corresponding to 'frictional' and 'tractional' adhesion, respectively.     

Optimization, purification and characterization of novel thermostable, haloalkaline, solvent stable protease from Bacillus halodurans CAS6 using marine shellfish wastes: a potential additive for detergent and antioxidant synthesis

A protease producing marine bacterium, Bacillus halodurans CAS6 isolated from marine sediments, was found to produce higher enzyme by utilizing shrimp shell powder. Optimum culture conditions for protease production were 50 °C, pH 9.0, 30 % NaCl and 1 % shrimp shell powder (SSP) and the protease purified with a specific activity of 509.84 U/mg. The enzyme retained 100 % of its original activity even at 70 °C, pH 10.0 and 30 % NaCl for 1 h. The purified protease exhibited higher stability when treated with ionic, non-ionic (72–94 %) and commercial detergents (76–88 %), and organic solvents (88–126 %). Significant blood stain removal activity was found with the enzyme in washing experiments. The culture supernatant supplemented with 1 % SSP showed 93.67 ± 2.52 % scavenging activity and FT-IR analysis of the reaction mixture confirmed the presence of antioxidants such as cyclohexane and cyclic depsipeptide with aliphatic amino groups. These remarkable qualities found with this enzyme produced by Bacillus halodurans CAS6 could make this as an ideal candidate to develop the industrial process for bioconversion of marine wastes and antioxidant synthesis.     

Enzymatic properties of a novel highly active and chelator resistant protease from a Pseudomonas aeruginosa PD100

Pseudomonas aeruginosa PD100 capable of producing an extracellular protease was isolated from the soil collected from local area (garbage site) from Shivage market in Pune, India. The purified protease showed a single band on native and SDS-PAGE with a molecular weight of 36 kDa on SDS-PAGE. The optimum pH value and temperature range were found to be 8 and 55–60 °C, respectively. The enzyme exhibited broad range of substrate specificity with higher activity for collagen. The enzyme was inhibited with low concentration of Ag²⁺, Ni²⁺, and Cu²⁺. β-Mercaptoethanol was able to inactivate the enzyme at 2.5 mM, suggesting that disulfide bond(s) play a critical role in the enzyme activity. Studies with inhibitors showed that different classes of protease inhibitors, known to inhibit specific proteases, could not inhibit the activity of this protease. Amino acid modification studies data and pK_a values showed that Cys, His and Trp were involved in the protease activity. P. aeruginosa PD100 produces one form of protease with some different properties as compared to other reported proteases from P. aeruginosa strains. With respect to properties of the purified protease such as pH optimum, temperature stability with capability to degrade different proteins, high stability in the presences of detergents and chemicals, and metal ions independency, suggesting that it has great potential for different applications.     

Culture Conditions for the Production of Alkaline Protease from n-Paraffins by a Kabicidin Resistant Mutant No. 5–128B

A novel process for the microbial production of alkaline protease on an industrial scale was successfully established by using a kabicidin resistant mutant, No. 5–128B, derived from Fusarium sp. S–19–5. The most suitable carbon source for producing alkaline protease was n-paraffins (C₁₀~C₁₄) and the effective nitrogen source was dried-yeast cells containing no nucleic acid, the optimum concentrations being 12.5% (w/v) and 7.0% (w/v), respectively. The optimal temperature and initial pH for protease production were 24°C and 6.0, respectively. Under the optimal conditions using a shaker flask mutant No. 5–128B produced 41000 PU/ml of alkaline protease, which corresponded to about 10 times the amount produced by the parent strain. The relation between the high ability to produce alkaline protease and the resistance to kabicidin, a polyene antibiotic, is discussed.     

Purification and characterization of a novel salt-tolerant protease from Aspergillus sp. FC-10, a soy sauce koji mold

A novel salt-tolerant protease produced by Aspergillus sp. FC-10 was purified to homogeneity through anion-exchange chromatography, preparative isoelectric-focusing electrophoresis, and gel filtration chromatography, with an overall recovery of 12.7%. This protease demonstrated an optimum pH range of 7.0-9.0 for activity, with a stable pH range of 5.0-9.0. The optimum process temperature at pH 7.0 was 65 degrees C. The enzyme has a molecular mass of 28 kDa and was deduced as a monomer with an isoelectric point of 3.75. Enzyme activity was strongly inhibited by 5 mM of HgCl(2) and FeCl(3), and significantly inhibited by 5 mM of CuSO(4), FeSO(4), and MnCl(2). The activity of this purified protease was inhibited by Na(2).EDTA; however, leupeptin, pepstatin A, PMSF, and E-64 did not affect the activity. Based on the N-terminal amino acid sequence and amino acid composition, this purified protease should be classified as a member of the deuterolysin family.     

Bacterial Diversity and Bioprospecting for Cold-Active Lipases,Amylases and Proteases,from Culturable Bacteria of Kongsfjorden and Ny-Ålesund,Svalbard, Arctic

Culturable bacterial diversity of seven marine sediment samples of Kongsfjorden and a sediment and a soil sample from Ny-Ålesund, Svalbard, Arctic was studied. The bacterial abundance in the marine sediments of Kongsfjorden varied marginally (0.5 × 10³–1.3 × 10⁴ cfu/g sediment) and the bacterial number in the two samples collected from the shore of Ny-Ålesund also was very similar (0.6 × 10⁴ and 3.4 × 10⁴, respectively). From the nine samples a total of 103 bacterial isolates were obtained and these isolates could be grouped in to 47 phylotypes based on the 16S rRNA gene sequence belonging to 4 phyla namely Actinobacteria, Bacilli, Bacteroidetes and Proteobacteria. Representatives of the 47 phylotypes varied in their growth temperature range (4–37°C), in their tolerance to NaCl (0.3–2 M NaCl) and growth pH range (2–11). Representatives of 26 phylotypes exhibited amylase and lipase activity either at 5 or 20°C or at both the temperatures. A few of the representatives exhibited amylase and/or lipase activity only at 5°C. None of the phylotypes exhibited protease activity. Most of the phylotypes (38) were pigmented. Fatty acid profile studies indicated that short chain fatty acids, unsaturated fatty acids, branched fatty acids, the cyclic and the cis fatty acids are predominant in the psychrophilic bacteria.     

Expression and characterization of a novel mesophilic protease from metagenomic library derived from Antarctic coastal sediment

A metagenomic cosmid library was constructed, in which the insert DNA was derived from the coastal sediment near Antarctic China Zhongshan Station. One clone (ACPRO001) expressing protease activity was isolated from the library using milk agar plates. Sequencing of the clone revealed a novel protease gene. The amino acid sequence comparison and phylogenetic analysis indicated that it could be classified as a subtilisin-like serine protease, though the highly conserved residue Asp was replaced by Ala. The ACPRO001 protease gene was expressed in pET-His and purified for characterization. The optimal temperature and pH for the activity of the ACPRO001 protease were 60°C and pH 9.0, respectively. The enzyme retained about 73% of residual activity after 2 h incubation at 50°C in the presence of Ca²⁺. The presence of Ca²⁺ increased the thermostability of ACPRO001 protease obviously. The enzymatic activity was inhibited by 1 mM phenylmethyl sulfonylfluoride (PMSF) and hydrochloride 4-(2-aminoethyl)-benzenesulfonyl fluoride (AEBSF), indicating that it was a serine protease.