ABSTRACT
Background: Cyclodextrin glucanotransferase (CGTase) is one of the most industrially important enzymes used in the commercial production of cyclodextrins (CDs). Alkaliphilic bacteria have attracted much interest in the last few decades because of their ability to produce extracellular enzymes that are active and stable at high pH values. Here, we report the isolation of a new CGTase from alkaliphilic bacteria collected from Egyptian soda lakes and describe the purification and biochemical characterization of this CGTase. Results: Screening for CGTase-producing alkaliphilic bacteria from sediment and water samples collected from Egyptian soda lakes located in the Wadi Natrun valley resulted in the isolation of a potent CGTase-producing alkaliphilic bacterial strain, designated NRC-WN. Strain NRC-WN was belonging to genus Amplibacullus by 16S rDNA sequence analysis (similarity: ca. 98%). Among the tested nitrogen and carbon sources, peptone (0.15%, w/v) and soluble starch (0.4%, w/v) allowed maximal CGTase production by Amphibacillus sp. NRC-WN. CGTase was successfully purified from Amphibacillus sp. NRC-WN up to 159.7-fold through a combination of starch adsorption and anion exchange chromatography, resulting in a yield of 84.7%. SDS-PAGE analysis indicated that the enzyme was purified to homogeneity and revealed an estimated molecular mass of 36 kDa, which makes it one of the smallest CGTases reported in the literature. The purified enzyme exhibited maximum activity at 50ºC and was stable up to 70ºC, retaining 93% of its initial activity after treatment for 1 hr. Furthermore, Ca2+ ions (10 mM) significantly enhanced the thermal stability of the CGTase. The purified enzyme was active and stable over a wide pH range, showing maximal activity at pH 9.5. The enzyme was significantly stimulated by Zn2+, Ca2+ and Co2+ but was completely inhibited in the presence of Fe3+ and mercaptoethanol. The Km and Vmax values of the purified CGTase were estimated to be 0.0434 mg/ml and 3,333.3 mg β-CD/ml/min, respectively. β-CD was the predominant product of starch degradation by the Amphibacillus sp. NRC-WN CGTase, followed by α-and γ-CDs. Conclusions: A new low molecular mass alkaline CGTase was purified from a newly identified alkaliphilic Amphibacillus sp. NRC-WN isolate from the Egyptian soda lakes. The enzyme showed promising thermal and pH stability and a high affinity toward starch as a natural substrate.
Subject(s)
Bacillaceae/enzymology , Glucosyltransferases/biosynthesis , Temperature , Bacillaceae/isolation & purification , Enzyme Stability , Kinetics , Lakes/microbiology , Chromatography, Ion Exchange , Adsorption , Glucosyltransferases/metabolism , Hydrogen-Ion Concentration , Molecular WeightABSTRACT
Three strains of Bacillus sp. (BACRP, BACNC-1 and BACAR) were isolated from soil adhered to cassava husk. CGTase specific activity for the three isolated strains was higher when cultivated at 40¨¬C. Potato starch, cassava starch, maltodextrin and glucose were used as carbon source and growth temperatures varied from 25 to 55¨¬C. The three isolates presented higher CGTase specific activity when cultivated with potato starch at 40¨¬C. Isolated BACRP and BACAR presented specific activity of 4.0x10-3 and 2.2x10-3 U/mg prot at pH 7.0, respectively, when cultivated in mediums added with NaCl 2 percent; at pH 10,0 their activities were of 3.4x10-3 and 3.0x10-3 U/mg prot, respectively, in the same concentration of NaCl. On the other hand, the isolated BACNC-1 presented activity specific of 2.4x10-3 U/mg prot when cultivated at pH 7.0 added of NaCl 1 percent, and at pH 10.0 the specific activity was of 3.4x10-3 U/mg prot without NaCl addition. This work also showed the presence of cyclodextrins formed during fermentation process and that precipitation with acetone or lyophilization followed by dialysis was efficient at removing CDs (cyclodextrins), thus, eliminating interference in the activity assays. The enzyme produced by the BACAR strain was partially purified and ¥â-CD was liberated as a reaction product.
Três linhagens de Bacillus sp (BACRP, BACNC- 1 e BACAR) foram isoladas a partir de solo aderido em casca de mandioca. Foram utilizados amido de batata, amido de mandioca, maltodextrina e glicose como fonte de carbono, e temperaturas de crescimento de 25-55¨¬C, sendo que os três isolados apresentaram maior atividade específica de CGTase quando cultivados com amido de batata a 40¨¬C. Em pH 7,0 os isolados BACRP e BACAR apresentaram atividade específica de 4,0x 10-3 e 2,2x10-3 U/mg prot, respectivamente, quando cultivados em meios acrescidos de 2 por cento de NaCl; em pH 10,0 suas atividades foram de 3,4x10-3 e 3,0x10-3 U/mg prot na mesma concentração de NaCl. Por outro lado, o isolado de BACNC-1 apresentou atividade específica 2,4x10-3 U/mg prot quando cultivado em pH 7,0 acrescido de 1 por cento de NaCl, e em pH 10,0 sua atividade específica foi de 3,4x10-3 U/mg prot sem adição de NaCl. Também foi demonstrada neste trabalho que ciclodextrinas são formadas durante o processo fermentativo, e que a precipitação com acetona ou liofilização seguida de diálise foram eficientes na remoção destas CDs, eliminando sua interferência nos ensaios enzimáticos. A enzima produzida pela cepa BACAR foi purificada parcialmente liberando b-CD como produto da reação.