Marek P.M. Romaniec scite author profile

It is known that two proteins of the cellulosomal complex of Clostridium thermocellum (SL and SS) together degrade crystalline cellulose. SL is a glycoprotein of 210,000 Da which enhances the binding to cellulose and the activity of SS, an endoglucanase of 83,000 Da. We have previously reported the cloning of a DNA fragment encoding the N-terminal end of the SL protein using antibodies raised against the native protein. A chromosomal walking approach using an EcoRI and a Bam HI-Sau3A gene library allowed us to isolate the C-terminal end of the gene. Sequencing of both fragments revealed the existence of a leader peptide as has been found in cellulases of the same organism. This leader sequence is followed by a stretch of 14 amino acids that is identical to the N-terminal amino acid sequence of the native secreted protein. The open reading frame (ORF) of this gene encodes a protein of 196,800 Da and is followed by a hairpin loop that could be involved in transcription termination. Within the open reading frame (ORF), we found nine internal repeated elements (IREs) of about 500 nucleotides each. Seven of these sequences displayed 98-100% homology and were located adjacent to each other within the structural gene without intervening regions. The remaining two, located on the N-terminal end of the gene, showed a significantly lower homology. Bearing in mind the inherent instability of reiterated regions, we confirmed the authenticity of our clones by Southern blot analysis using chromosomal C. thermocellum DNA and ruled out the possibility of rearrangements during the cloning and sequencing process. The sequenced gene is designated cipA and the encoded SL protein CipA.

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Sequencing of a Clostridium thermocellum gene (cipA) encoding the cellulosomal S_L‐protein reveals an unusual degree of internal homology

Gerngross

Romaniec

Kobayashi

et al. 1993

Molecular Microbiology

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Characterization of the subunits in an apparently homogeneous subpopulation of Clostridium thermocellum cellulosomes

Ali

Romaniec

Hazlewood

et al. 1995

Enzyme and Microbial Technology

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A catalogue of Clostridium thermocellum endoglucanase, β-glucosidase and xylanase genes cloned in Escherichia coli

et al. 1988

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Two independent collections of clones containing Clostridium thermocellum genes involved in cellulose have been previously obtained at IAPGR, Cambridge, and at the Pasteur Institute, Paris. The two collections were compared for cross‐hybridization, restriction maps and enzyme phenotypes. Truly distinct genes were one β‐glucosidase gene, two xylanase genes, and fifteen endogluconase genes. Two of the cloned fragments contained extraneous DNA which was absent from their respective counterparts isolated in the other collection. The dicrepancies resulted from in vivo rearrangements which had occurred in either of the C. thermocellum NCIB 10682 stocks used to generate the two gene banks.

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Molecular Cloning of Clostridium Thermocellum DNA and the Expression of Further Novel Endo- ,4-glucanase Genes in Escherichia Coli

Romaniec

Clarke²,

Hazlewood³

1987

Microbiology

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Sau3A fragments of Clostridium thermocellum (NCIB 10682) DNA were ligated into the BamHI site of pBR322 and expressed in Escherichia coli HBlOl and a Lac-mutant thereof. Twentyeight clones with carboxymethylcellulase (CMCase) activity were selected from two libraries by means of the Congo Red plate assay. Restriction enzyme analysis indicated that the CMCase+ clones contained a total of 13 unique DNA inserts. Hybridization of recombinant plasmids with chromosomal DNA confirmed the physical maps in all but one case and was further used to demonstrate the absence of homology between the Hind111 restriction fragments of similar size which occurred in many of the clones. Without exception, CMCase+ E. coli clones expressed endoglucanase activity, but differed with respect to the amount and nature of the enzyme activity produced; additionally, some clones had exoglucanase activity which, in at least one case, was not attributable to the production of a second enzyme. For a few selected clones, the partially purified CMCase was analysed by electrophoresis. A temperature profile characteristic of a thermostable enzyme was demonstrated for the endoglucanase of one of the most active clones. Based on the evidence presented here, it is probable that the 13 unique DNA fragments described do not contain any of the C. thermocellum endoglucanase genes previously cloned.

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Purification and characterization of a new endoglucanase from Clostridium thermocellum

Romaniec

Fauth

Kobayashi

et al. 1992

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An endoglucanase (1,4-beta-D-glucan glucanohydrolase, EC 3.2.1.4) from the thermophilic anaerobe Clostridium thermocellum was purified to apparent homogeneity without the use of denaturants. No carbohydrate is associated with the endoglucanase. A molecular mass of 76,000 Da was determined by SDS/PAGE. The optimal pH is 7.0 and the enzyme is isoelectric at pH 5.05. The enzyme has a temperature optimum of 70 degrees C and retains approx. 50% of its activity after 48 h at 60 degrees C. Hydrolysis of CM-cellulose takes place with a rapid decrease in viscosity but a slow liberation of reducing sugars, indicating an endoglucanase type of activity. The endoglucanase shows little ability to hydrolyse highly ordered cellulose. Cellobiose inhibits whereas Mg2+ and Ca2+ stimulate the activity. The enzyme is completely inactivated by 1 mM-Hg2+ and is inhibited by a thiol-blocking reagent.

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Purification and characterization of endoglucanase Ss from Clostridium thermocellum

Fauth

Romaniec

Kobayashi

et al. 1991

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The extracellular cellulolytic enzymes of the thermophilic anaerobe Clostridium thermocellum occur as a protein complex or aggregate known as the cellulosome. By using a combination of ion-exchange, adsorption and hydrophobic-interaction chromatography, it was possible to isolate from extracellular broth a specific endoglucanase of interest without the use of denaturants. The endoglucanase was identified as the cellulosomal subunit Ss by the use of specific antibodies. The enzyme has an Mr of 83,000, an isoelectric point of 3.55, optimum pH of 6.6 and optimum temperature of 70 degrees C. It hydrolyses CM-cellulose and, at a higher rate, the cellodextrins, cellotetraose and cellopentaose, but does not hydrolyse a crystalline cellulose such as Avicel. Cellobiose and cellotriose are also immune to attack. It differs from endoglucanases previously isolated by others and a 76,000-Mr endoglucanase recently isolated in this laboratory.

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Cloning and sequencing of the celA gene encoding endoglucanase A of Butyrivibrio fibrisolvens strain A46

Hazlewood

Davidson²,

Laurie³

et al. 1990

Journal of General Microbiology

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Genomic DNA from Butyrivibriojibrisolvens strain A46 was digested with EcoRI and ligated into A g t l l . Two recombinant phages isolated from the gene bank hydrolysed carboxymethylcellulose and were shown to contain the same 2.3 kb EcoRI restriction fragment, which was cloned into pUC12 to generate pBA46. Escherichia coli JM83 harbouring pBA46 expressed an endoglucanase (EGA) which hydrolysed a range of other substrates including barley p-glum, Avicel, filter paper and p-nitrophenyl p-D-cellobioside. Nucleotide sequencing of the K fibrkolvens strain A46 DNA cloned in pBA46 revealed a single open reading frame (ORF') of 12% bp, encoding a protein of 48863 Da. Confirmation that the ORF coded for EGA was obtained by comparing the N-terminal sequence of the puritied endoglucanase with that deduced from the nucleotide sequence. EGA contains a typical prokaryotic signal peptide at its N-terminus and shows some homology with the Bacillus family of cellulases. The enzyme does not contain distinct functional domains, which are prevalent in cellulases from Pseudbmonas jhorescens subsp. cellulosa and CeUulomonas #mi

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