Production of novel pullulanases at high concentrations by two newly isolated thermophilic clostridia

Two thermophilic bacteria, which are capable of growing on starch at 60-70 degrees C under anaerobic conditions, were isolated from a sugar refinery in Uelzen and from Solar lake in Israel. On the basis of their physiological characteristics they were identified as Clostridium thermohydrosulfuricum Uel 1 and C. thermohydrosulfuricum Sol 1, respectively. The product pattern of glucose polymer hydrolysis showed that both strains secreted enzymes that possess amylolytic and pullulytic activities. The major product formed was maltose. In addition, alpha-glucosidase activity could be detected in the supernatants of Uel 1 strain. Compared to most anaerobes investigated these isolates secreted extremely high concentrations of pullulanases in batch culture. Up to 85% of the total enzyme synthesized was detected in the culture fluid. Unlike the pullulanases of type I, which can only attack the alpha-1,6-glycosidic linkages, the pullulanases of both clostridial strains were also capable of hydrolyzing alpha-1,4-linkages. The enzyme system of both bacteria was found to be highly thermoactive; optimal activity was detected at pH 5.0 and 85 degrees C. Even at 95 degrees C and without the addition of metal ions still 15% to 25% of enzymatic activity was detectable.     

Physiology and enzymology of thermophilic anaerobic bacteria degrading starch

Abstract The capability of secreting thermoactive enzymes exhibiting α-amylase and pullulanase with debraching activity, seems to be widely distributed amongst anaerobic thermophilic bacteria. Interestingly, pullulanase formed by these bacteria displays dual specificity by attacking α-1,6- as well as α-1,4-glycosidic linkages in branched glucose polymers. Unlike the enzyme system of aerobic microorganisms the majority of starch hydrolysing enzymes of anaerobic bacteria is metal indepedent and is extremely thermostable. This enzyme system is controlled by substrate induction and catabolite repression; enzyme expression is accomplished when maltose or maltose-containing carbohydrates are used as substrates. By developing a process in continuous culture we were able to greatly enhance enzyme synthesis and release by anaerobic thermophilic bacteria. An elevation in the specific activities of cell-free amylases and pullulanases could also be achieved by entrapping of bacteria in calcium alginate beads. The unique properties of extracellular enzymes of thermophilic anaerobic bacteria makes this group of organisms suitable candidates for inductrial application.     

An unusual pattern of carbohydrate utilization in Corallococcus (Myxococcus) coralloides (Myxobacterales)

The myxobacterium, Corallococcus (Myxococcus) coralloides strain Cc c127, could not utilize mono- and disaccharides, but maltotriose and the polysaccharides starch, amylose, amylopectin, and pullulan stimulated growth. Radioactive CO₂ was set free from ¹⁴C-labeled starch. When starch was degraded, small amounts of maltose and glucose accumulated in the culture supernatant. Maltotriose, however, appeared only temporarily. Outside the cells, the trisaccharide could not be split into glucose and maltose. Pullulan was hydrolyzed exclusively into a trisaccharide which during growth was immediately consumed. Hexokinase, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase and phosphoglucomutase could readily be demonstrated in cell extracts, but fructose-1,6-diphosphate aldolase was present with low activity only. The data suggest that intracellular glucose is metabolized mainly via the pentose phosphate pathway.Prof. Dr. Gerhard Drews gratefully dedicated to his 60th birthday     

诺卡氏菌属GS-17耐热茁霉多糖酶的提纯和性质

诺卡氏菌属GS-17(Nocardia sp.GS-17)的耐热茁霉多糖酶(Pullulanase EC.3.2.1.41)的粗酶液经中空纤维柱超滤浓缩、羟基磷灰石柱层析和Pullulan-Sepharose 6B亲和层析,得到凝胶电泳均一的纯酶,比活提高264倍.酶作用最适温度为55℃,最适PH6.2,分子量140000,等电点pI为6.0.该酶水解茁霉多糖、支链淀粉和可溶性淀粉,但不水解糖原.酶在50℃作用于茁霉多糖的米氏常数K_m为0.90mg/ml,最大反应速度V_(max)为57μmol·min~(-1)·mg~(-1).Zn~(2 )、Fe~(3 )、Hg~(2 )、Cu~(2 )、Pb~(2 )和环状糊精对酶有抑制作用,Ca~(2 )对酶有激活作用.经蛋白质侧链化学修饰研究表明,色氨酸残基位于酶的活性位区.该酶是由1129个氨基酸残基组成的单肽链,酶的N末端序列经测定为:Ala-Gly-His-Gly-Pro-Asp-Val-Gln-Asp-Gly-     

Starch degradation by glucoamylase Glm from Saccharomycopsis fibuligera IFO 0111 in the presence and absence of a commercial pullulanase

This study describes the course of enzymatic hydrolysis of the native corn starches Maritena 100 and Maritena 300. Hydrolyses were carried out with glucoamylase Glm produced by Saccharomycopsis fibuligera IFO 0111, which degrades also native starch, with the purpose to substitute a two-step hydrolysis (amylase followed by glucoamylase) by a one-step process (glucoamylase only). Hydrolysis generally became more effective by adding the pullulanase Promozyme D, which cleaves alpha-1,6-glycosidic bonds more effectively than glucoamylase Glm does. The time course (kinetics) of hydrolysis was followed by determination of the glucose concentration and calculation of dextrose equivalents.     

Protein engineering of Bacillus acidopullulyticus pullulanase for enhanced thermostability using in silico data driven rational design methods

Thermostability has been considered as a requirement in the starch processing industry to maintain high catalytic activity of pullulanase under high temperatures. Four data driven rational design methods (B-FITTER, proline theory, PoPMuSiC-2.1, and sequence consensus approach) were adopted to identify the key residue potential links with thermostability, and 39 residues of Bacillus acidopullulyticus pullulanase were chosen as mutagenesis targets. Single mutagenesis followed by combined mutagenesis resulted in the best mutant E518I-S662R-Q706P, which exhibited an 11-fold half-life improvement at 60 °C and a 9.5 °C increase in T_m. The optimum temperature of the mutant increased from 60 to 65 °C. Fluorescence spectroscopy results demonstrated that the tertiary structure of the mutant enzyme was more compact than that of the wild-type (WT) enzyme. Structural change analysis revealed that the increase in thermostability was most probably caused by a combination of lower stability free-energy and higher hydrophobicity of E518I, more hydrogen bonds of S662R, and higher rigidity of Q706P compared with the WT. The findings demonstrated the effectiveness of combined data-driven rational design approaches in engineering an industrial enzyme to improve thermostability.     

一株产耐热普鲁兰酶菌株Anoxybacillus sp.LM14-2分离鉴定及酶学性质研究

从云南轮马热泉下游淤泥中筛选得到了一株产耐热普鲁兰酶菌株LM14-2.根据形态特征及16S rRNA序列同源性分析,初步判定为Anoxybacillus sp.LM14-2.该菌株发酵上清液中有耐热普鲁兰酶积累,其反应最适pH值为6.0,最适温度为70℃.利用染色体步移技术获得了完整的普鲁兰酶编码基因(HQ660582),经序列相似性进一步分析,确定该蛋白与Ⅰ型普鲁兰酶保守区b相吻合.通常的普鲁兰酶在高温下很快失活,难以满足淀粉加工,洗涤剂等相关工业的需求,而该新型的耐热普鲁兰醇的作用温度广泛,热稳定性较好,65℃保温55 h后达到其半衰期,具有广阔的开发应用前景.     

长野芽孢杆菌普鲁兰酶基因在枯草芽孢杆菌中的表达及酶学性质研究

根据NCBI上报道的基因序列设计引物,以长野芽孢杆菌(Bacillus naganoensis)ATCC53909的染色体DNA为模板,PCR扩增普鲁兰酶编码基因pulB。将此基因与表达载体pWB980连接构建重组质粒pWB-pulB,并转化枯草芽孢杆菌WB600。SDS-PAGE结果显示,在100 kD处有特异性条带,经测定重组转化子粗酶液酶活力达10.94 U/mL。酶学性质分析表明,其最适反应温度为60℃,最适反应pH为5.0,且在温度30-60℃及pH4.0-6.0范围内稳定,适合淀粉加工行业的应用。     

Specific detection of pullulanase type I in polyacrylamide gels

Abstract A specific detection of pullulanase type I which hydrolyzes the α-1,6-glycosidic linkages on pullulan and starch was developed using impregnation of gels with soluble starch and staining for amylose with iodine. It was a simple and highly sensitive zymogram method capable of detecting as little as 0.001 unit of pullulanase type I activity in polyacrylamide gels after electrophoresis. After fractionation of crude enzyme using DEAE ion exchange chromatography to avoid possible co-migration of amylolytic enzymes which disturb the interaction between amylose and iodine, the high and critical sensitivity of the detection was achieved. The specific detection is based on the fact that when pullulanase type I hydrolyzes the α-1,6-glycosidic bonds in soluble starch increased amounts of α-1,4-linked amylose is formed which yields more intensely blue colored conjugate with iodine. Thus, blue bands on the lighter background signal the presence of pullulanase type I. In contrast, amylolytic enzymes give 'white' bands on the lightly stained background because they remove amylose. This procedure is effective in enzyme screening to distinguish debranching enzyme (pullulanase type I) from other pullulan-degrading enzymes.     

Five additional genes in the pulC-O operon of the gram-negative bacterium Klebsiella oxytoca UNF5023 which are required for pullulanase secretion

Summary DNA sequence analysis, Tnpho and Tntac-1, mutagenesis, deletion analysis, expression under bacteriophage T7 gene 10 promoter control, subcellular fractionation and complementation tests were used to study the function of DNA located in the centre of thepulC-O operon fromKlebsiella oxytoca strain UNF5023. The characterized region of the operon includes five genes (pulG,pulH,pulI,pulJ andpulK) coding for apparently integral inner membrane proteins which are required for pullulanase secretion. The results presented here and previously show that thepulC-O operon contains at least 11 pullulanase secretion genes.