Cloning of an endo-(1 leads to 4)-beta-glucanase gene, celA, from the rumen bacterium Clostridium sp. ('C. longisporum') and characterization of its product, CelA, in Escherichia coli

• Published in: Journal of general microbiology Vol. 139; no. pt.12 p.3233-3242; pp. 3233 - 3242
• Main Authors: Mittendorf, V, Thomson, J A
• Format: Journal Article
• Language: English
• Published: 01.12.1993
• Subjects: beta-glucanase; Clostridium; Escherichia coli; genes
• ISSN: 0022-1287

A genomic library of Clostridium sp. ('C. longisporum') ATCC 49440 in the host Escherichia coli was screened for endo-beta-glucanases, and plasmids pCM64 and pCM4 were isolated. The nucleotide sequence of a 3620 bp fragment was found to contain a 1548 bp open reading frame (ORF), termed celA, which encodes an endo-(1 leads to 4)-beta-glucanase, CelA, assigned to family A4. N-terminal amino acid sequence determination revealed that pCM64 encoded the full-length celA gene, including a signal sequence, while pCM4 carried a 5'-truncated celA gene expressed as an N-terminal fusion protein, CelAdeltaN', without a signal sequence. CelA was secreted into the periplasm in E. coli. In this organism, proteolytic cleavage of CelA at or near a putative tinker region resulted in the appearance of two active polypeptides of molecular masses 57 and 47 kDa. The former was the full-length enzyme, while the latter consisted of the catalytic domain from which the cellulose-binding domain (CBD) had been removed (CelAdeltaCBD). The intracellularly-located CelAdeltaN' was not subject to proteolytic degradation. The pH and temperature optima of CelA were pH 4.8 and 43 degrees C, respectively. CelA hydrolysed barley beta-glucan, lichenan, carboxymethylcellulose and xylan. It showed preferential activity against the larger cellooligosaccharides (cellohexaose and cellopentaose); cellotetraose was the smallest substrate degraded completely.