INTRODUCTION: Microbial degradation of cellulose has enormous economic potential for the conversion of plant biomass into fuel and chemicals. Cellulose is a linear polymer composed of D-glucose units linked by 1,4--D-glucosidic bonds. Its enzymatic hydrolysis requires the action of both endoglucanases (1,4--D-glucan glucanohydrolase [EC 3.2.1.4]) and exoglucanases (1,4--D-glucan cellobiohydrolase [EC 3.2.1.91]). A synergic interaction of these enzymes is necessary for the complete hydrolysis of crystalline cellulose. Thermophilic microrganisms have received considerable attention as source of highly active and thermostable cellulolytic enzymes; genes encoding endoglucanases are widely distributed among fungi and Bacteria; recently one was identified in the Archaeon Pyrococcus furiosus suggesting the occurrence of polysaccharides in hydrothermal vent environments (1). Our results report the identification of cellulasic activity in the Archaeon Sulfolobus solfataricus and molecular characterisation of celS, encoding a putative cellulase homologous to thermophilic endoglucanases. MATERIALS AND METHODS: S. solfataricus MT4 strain, kindly provided by Prof. Mario De Rosa, was grown at 82°C in a rotary shaker. A gene bank of S solfataricus MT4 strain was constructed as described previously (2). pGEM1.1 was the recombinant plasmid screened with adh gene as probe and containing celS . It was sequenced using primers constructed ad hoc. Analysis of the putative open reading frames (ORFs), was performed using Blast program. Total RNA was extracted in the late exponentially growth phase and primer extension was performed (3). Detectection of cellulasic activity was determined on CMC-cellulose plates and after SDS-PAGE (4). RESULTS: Cellulase activitiy was detected in the supernatant of S. solfataricus MT4 cultures and specific enzyme staining after SDS-PAGE revealed the presence of two proteins with apparent molecular mass of about 49 kDa and 40 kDa. At the same time we have cloned a DNA fragment from S. solfataricus MT4 containing an ORF (CelS) of 322 aminoacids (molecular weight 36703 Da) with significant homology to the P. furiosus (1), Thermotoga maritima (4) and T. neapolitana (5) endo-1,4--glucanases. The gene was demonstrated to be transcribed in vivo. In order to optimise the expression of celS we tried to grow MT4 on different -glucans, namely in minimal media containing Avicel, lichenan, carboxylmethylcellulose, but they were unable to support growth. Therefore enzymatic and transcriptional analysis were performed on cells cultured in more unspecific minimal and rich media. The results obtained suggested a catabolite repression by glucose and in general a down regulation by complex nutrients. The transcription start site was unambiguously identified by primer extension and revealed coincident with translational initiation. In order to demonstrate the relationship between structure and function of celS, the gene was fused with gst (glutathione-S- tranferase) in the expression vector pGEX-2tk and expressed in E.coli. The purification and the characterisation of the recombinant protein are underway.

Identification and molecular characterisation of thermophilic endoglucanase from Sulfolobus solfataricus / Limauro, Danila; Fiorentino, Gabriella; Cannio, R.; Rossi, Mose'; Bartolucci, Simonetta. - STAMPA. - (2000), pp. 107-107. (Intervento presentato al convegno 45° congresso nazionale SIB 2000 tenutosi a Napoli nel 20-23 settembre 2000).

Identification and molecular characterisation of thermophilic endoglucanase from Sulfolobus solfataricus.

LIMAURO, DANILA;FIORENTINO, GABRIELLA;ROSSI, MOSE';BARTOLUCCI, SIMONETTA
2000

Abstract

INTRODUCTION: Microbial degradation of cellulose has enormous economic potential for the conversion of plant biomass into fuel and chemicals. Cellulose is a linear polymer composed of D-glucose units linked by 1,4--D-glucosidic bonds. Its enzymatic hydrolysis requires the action of both endoglucanases (1,4--D-glucan glucanohydrolase [EC 3.2.1.4]) and exoglucanases (1,4--D-glucan cellobiohydrolase [EC 3.2.1.91]). A synergic interaction of these enzymes is necessary for the complete hydrolysis of crystalline cellulose. Thermophilic microrganisms have received considerable attention as source of highly active and thermostable cellulolytic enzymes; genes encoding endoglucanases are widely distributed among fungi and Bacteria; recently one was identified in the Archaeon Pyrococcus furiosus suggesting the occurrence of polysaccharides in hydrothermal vent environments (1). Our results report the identification of cellulasic activity in the Archaeon Sulfolobus solfataricus and molecular characterisation of celS, encoding a putative cellulase homologous to thermophilic endoglucanases. MATERIALS AND METHODS: S. solfataricus MT4 strain, kindly provided by Prof. Mario De Rosa, was grown at 82°C in a rotary shaker. A gene bank of S solfataricus MT4 strain was constructed as described previously (2). pGEM1.1 was the recombinant plasmid screened with adh gene as probe and containing celS . It was sequenced using primers constructed ad hoc. Analysis of the putative open reading frames (ORFs), was performed using Blast program. Total RNA was extracted in the late exponentially growth phase and primer extension was performed (3). Detectection of cellulasic activity was determined on CMC-cellulose plates and after SDS-PAGE (4). RESULTS: Cellulase activitiy was detected in the supernatant of S. solfataricus MT4 cultures and specific enzyme staining after SDS-PAGE revealed the presence of two proteins with apparent molecular mass of about 49 kDa and 40 kDa. At the same time we have cloned a DNA fragment from S. solfataricus MT4 containing an ORF (CelS) of 322 aminoacids (molecular weight 36703 Da) with significant homology to the P. furiosus (1), Thermotoga maritima (4) and T. neapolitana (5) endo-1,4--glucanases. The gene was demonstrated to be transcribed in vivo. In order to optimise the expression of celS we tried to grow MT4 on different -glucans, namely in minimal media containing Avicel, lichenan, carboxylmethylcellulose, but they were unable to support growth. Therefore enzymatic and transcriptional analysis were performed on cells cultured in more unspecific minimal and rich media. The results obtained suggested a catabolite repression by glucose and in general a down regulation by complex nutrients. The transcription start site was unambiguously identified by primer extension and revealed coincident with translational initiation. In order to demonstrate the relationship between structure and function of celS, the gene was fused with gst (glutathione-S- tranferase) in the expression vector pGEX-2tk and expressed in E.coli. The purification and the characterisation of the recombinant protein are underway.
2000
Identification and molecular characterisation of thermophilic endoglucanase from Sulfolobus solfataricus / Limauro, Danila; Fiorentino, Gabriella; Cannio, R.; Rossi, Mose'; Bartolucci, Simonetta. - STAMPA. - (2000), pp. 107-107. (Intervento presentato al convegno 45° congresso nazionale SIB 2000 tenutosi a Napoli nel 20-23 settembre 2000).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/315688
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