Regulation and distribution of Fibrobacter succinogenes subsp. succinogenes S85 endoglucanases.

The distribution of endoglucanase activities in cultures of Fibrobacter succinogenes subsp. succinogenes S85 grown on different carbon sources was examined by a variety of biochemical and immunological techniques. Total culture endoglucanase activity was primarily cell associated and was expressed constitutively, although synthesis of endoglucanase 1 (EG1) was repressed by cellobiose. Western immunoblotting showed that EG1 and EG3 were released into the culture fluid during growth, while EG2 remained largely associated with the cell. Subcellular localization showed low endoglucanase activity in the periplasmic fraction and similar, high levels in the cytoplasmic and membrane fractions. Western immunoblotting showed that EG2 was absent from the periplasmic fraction. Data from immunoelectron microscopy with either polyclonal or monoclonal antibody to EG2 revealed a high density of gold labeling at sites where there was a disruption in the regular features of the cell surface, such as in blebbing or physical tearing of the membrane. When cells were grown on cellulose, there was a high density of labeling on the cellulose but not on the cells, indicating that EG2 has limited exposure at the cell surface. On the basis of these data, export of enzymes from their intracellular locations appears to occur via three different mechanisms: a specific secretory pathway independent of cellulose, a secretory mechanism which is mediated by contact with cellulose, and a generalized blebbing process that occurs irrespective of the carbon source.     

Regulation and distribution of Fibrobacter succinogenes subsp. succinogenes S85 endoglucanases

The distribution of endoglucanase activities in cultures of Fibrobacter succinogenes subsp. succinogenes S85 grown on different carbon sources was examined by a variety of biochemical and immunological techniques. Total culture endoglucanase activity was primarily cell associated and was expressed constitutively, although synthesis of endoglucanase 1 (EG1) was repressed by cellobiose. Western immunoblotting showed that EG1 and EG3 were released into the culture fluid during growth, while EG2 remained largely associated with the cell. Subcellular localization showed low endoglucanase activity in the periplasmic fraction and similar, high levels in the cytoplasmic and membrane fractions. Western immunoblotting showed that EG2 was absent from the periplasmic fraction. Data from immunoelectron microscopy with either polyclonal or monoclonal antibody to EG2 revealed a high density of gold labeling at sites where there was a disruption in the regular features of the cell surface, such as in blebbing or physical tearing of the membrane. When cells were grown on cellulose, there was a high density of labeling on the cellulose but not on the cells, indicating that EG2 has limited exposure at the cell surface. On the basis of these data, export of enzymes from their intracellular locations appears to occur via three different mechanisms: a specific secretory pathway independent of cellulose, a secretory mechanism which is mediated by contact with cellulose, and a generalized blebbing process that occurs irrespective of the carbon source.     

Catalytic and substrate-binding domains of endoglucanase 2 from Bacteroides succinogenes.

Endoglucanase 2 (EG2) of the cellulolytic ruminal anaerobe Bacteroides succinogenes is a 118-kilodalton (kDa) enzyme which binds to cellulose and produces cellotetraose as the end product of hydrolysis. The purified enzyme was treated with the protease trypsin in an attempt to isolate peptides which retained the ability to either hydrolyze soluble carboxymethyl cellulose or bind to insoluble cellulose. There was no loss in endoglucanase activity (carboxymethylcellulase) over a period of 2 h following the addition of trypsin. In comparison, there was a greater than eightfold reduction in the binding of carboxymethylcellulase activity to crystalline cellulose. A Lineweaver-Burk plot with amorphous cellulose as the substrate revealed that the trypsin-digested enzyme had an identical Vmax but a 1.9-fold-lower Km in comparison with the intact enzyme. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the trypsin-digested enzyme revealed two major peptides of 43 and 51 kDa (p43 and p51). The 43-kDa peptide was able to bind to both amorphous and crystalline cellulose, whereas p51 did not. Purified p51 had a molar activity toward carboxymethyl cellulose which was identical to that of the intact enzyme, but activity toward both amorphous and crystalline cellulose was reduced approximately twofold. Two high-titer monoclonal antibodies from mice immunized with the intact protein recognized p43 but not p51. The results are consistent with a bifunctional organization of EG2, in which the 118-kDa enzyme is composed of a 51-kDa catalytic domain and a highly antigenic 43-kDa substrate-binding domain. In terms of its domain structure and activity toward cellulose, EG2 is very similar to cellobiohydrolase II of Trichoderma reesei.     

Enhancement of cellulase activity by clones selected from the combinatorial library of the cellulose-binding domain by cell surface engineering

To improve the cellulolytic activity of a yeast strain displaying endoglucanase IotaIota (EG II) from Trichoderma reesei, a combinatorial library of the cellulose-binding domain (CBD) of EG II was constructed by using cell surface engineering. When EG II degrades celluloses, CBD binds to cellulose, and its catalytic domain cleaves the glycosidic bonds of cellulose. CBD had a flat face, composed of five amino acids for binding. It was supposed that the three hydrophobic amino acid residues of the five amino acid residues were essential for binding to cellulose. Therefore, by improving the two remaining amino acid residues, construction of mutants with a combinatorial library of the two amino acids in CBD was carried out and binding ability and hydrolysis activity were measured. In the first screening by halo assay using the Congo Red staining method, about 200 of the 2000 colonies formed clear halos, and then five colonies with the clearest halos were finally selected. In the second screening, the binding ability of the five mutants to phosphoric acid-swollen Avicel was measured. In addition, the measurement of hydrolysis activity toward carboxymethylcellulose (CMC) using the screened mutants was carried out. As a result, the mutated EG II exhibiting higher binding ability (1.5-fold) had higher hydrolysis activity (1.3-fold) compared to the parent EG II-displaying yeast cell, demonstrating that CBD has confirmatively some effect on the cellulase activity through its binding ability of the enzyme to cellulose.     

Properties of cellulose-binding modules in endoglucanase F from Fibrobacter succinogenes S85 by means of surface plasmon resonance

Properties of the recombinant proteins derived from Fibrobacter succinogenes endoglucanase F (EGF), AD2 and AD4, were characterized using surface plasmon resonance. Because AD2, which contains two reiterated regions, showed stronger affinity to immobilized carboxymethylcellulose (CMC) than did AD4, which contains only the first reiterated region, it has been assumed that the reiterated regions of EGF are cellulose-binding modules. While calcium enhanced the binding of AD2 to the immobilized CMC, it did not enhance the binding of AD4. Moreover, the results obtained from experiments using cellooligosaccharides showed that the binding sites of AD4 and AD2 span approximately four and nine glucosyl units, respectively.     

Engineering a family 9 processive endoglucanase from Paenibacillus barcinonensis displaying a novel architecture

Cel9B from Paenibacillus barcinonensis is a modular endoglucanase with a novel molecular architecture among family 9 enzymes that comprises a catalytic domain (GH9), a family 3c cellulose-binding domain (CBM3c), a fibronectin III-like domain repeat (Fn3_1,2), and a C-terminal family 3b cellulose-binding domain (CBM3b). A series of truncated derivatives of endoglucanase Cel9B have been constructed and characterized. Deletion of CBM3c produced a notable reduction in hydrolytic activity, while it did not affect the cellulose-binding properties as CBM3c did not show the ability to bind to cellulose. On the contrary, CBM3b exhibited binding to cellulose. The truncated forms devoid of CBM3b lost cellulose-binding ability and showed a reduced activity on crystalline cellulose, although activity on amorphous celluloses was not affected. Endoglucanase Cel9B produced only a small ratio of insoluble products from filter paper, while most of the reducing ends produced by the enzyme were released as soluble sugars (91%), indicating that it is a processive enzyme. Processivity of Cel9B resides in traits contained in the tandem of domains GH9–CBM3c, although the slightly reduced processivity of truncated form GH9–CBM3c suggests a minor contribution of domains Fn3_1,2 or CBM3b, not contained in it, on processivity of endoglucanase Cel9B.     

Purification of an extracellular cellulose-binding endoglucanase of Cellulomonas sp. ATCC 21399 by affinity chromatography on H3PO4-swollen cellulose

A cellulose-binding endoglucanase (endoglucanase A) of Cellulomonas sp. ATCC 21399 was purified to immunological homogeneity by affinity chromatography ob H(3)PO(4)-swollen cellulose. This method of purification turned out to be an easy and very gentle method for obtaining a high yield of cellulose-binding endoglucanase. The purified enzyme was immunologically homogeneous but appeared heterogeneous when analyzed by denaturing polyacrylamide gel electrophoresis. In addition to the cellulose-binding of endoglucanase A, the enzyme also had a strong affinity for Concanavaline A, indicating that the enzyme was glycosylated. Purified endoglucanase A showed an endo mode of action on carboxymethylcellulose. The enzyme could hydrolyze microcrystalline cellulose when acting alone, and the enzyme had a high specific activity on H(3)PO(4)-swollen cellulose.     

Molecular cloning, expression, and characterization of endoglucanase genes from Fibrobacter succinogenes AR1

A cosmid gene library was constructed in Escherichia coli from genomic DNA isolated from the ruminal anaerobe Fibrobacter succinogenes AR1. Clones were screened on carboxymethyl cellulose, and 8 colonies that produced large clearing zones and 25 colonies that produced small clearing zones were identified. Southern blot hybridization revealed the existence of at least three separate genes encoding cellulase activity. pRC093, which is representative of cosmid clones that produce large clearing zones, was subcloned in pGem-1, and the resulting hybrid pRCEH directed synthesis of endoglucanase activity localized on a 2.1-kb EcoRI-HindIII insert. Activity was expressed from this fragment when it was cloned in both orientations in pGem-1 and pGem-2, indicating that F. succinogenes promoters functioned successfully in E. coli. A high level of endoglucanase activity was detected on acid-swollen cellulose, ball-milled cellulose, and carboxymethyl cellulose; and a moderate level was detected on filter paper, Avicel, lichenan, and xylan. Most activity (80%) was localized in the periplasm of E. coli, with low but significant levels (16%) being detected in the extracellular medium. The periplasmic endoglucanase had an estimated molecular weight of 46,500, had an optimum temperature of 39 degrees C, and exhibited activity over a broad pH range, with a maximum at pH 5.0.     

Molecular cloning, expression, and characterization of endoglucanase genes from Fibrobacter succinogenes AR1.

A cosmid gene library was constructed in Escherichia coli from genomic DNA isolated from the ruminal anaerobe Fibrobacter succinogenes AR1. Clones were screened on carboxymethyl cellulose, and 8 colonies that produced large clearing zones and 25 colonies that produced small clearing zones were identified. Southern blot hybridization revealed the existence of at least three separate genes encoding cellulase activity. pRC093, which is representative of cosmid clones that produce large clearing zones, was subcloned in pGem-1, and the resulting hybrid pRCEH directed synthesis of endoglucanase activity localized on a 2.1-kb EcoRI-HindIII insert. Activity was expressed from this fragment when it was cloned in both orientations in pGem-1 and pGem-2, indicating that F. succinogenes promoters functioned successfully in E. coli. A high level of endoglucanase activity was detected on acid-swollen cellulose, ball-milled cellulose, and carboxymethyl cellulose; and a moderate level was detected on filter paper, Avicel, lichenan, and xylan. Most activity (80%) was localized in the periplasm of E. coli, with low but significant levels (16%) being detected in the extracellular medium. The periplasmic endoglucanase had an estimated molecular weight of 46,500, had an optimum temperature of 39 degrees C, and exhibited activity over a broad pH range, with a maximum at pH 5.0.     

A possible role of cellulose-binding protein A (CBPA) in the adhesion of Eubacterium cellulosolvens 5 to cellulose

The cellulose-binding protein A (CBPA) of Eubacterium cellulosolvens 5 is a modular enzyme comprised of a catalytic domain, a cellulose-binding domain and a cell wall-binding domain. Cellobiose-grown cells changed their adhesion ability to cellulose depending on the growth phase. On the other hand, carboxymethyl cellulose (CMC)-grown cells bound to cellulose regardless of their growth phase. The distribution of CBPA in the culture supernatant and cell fractions changed depending on the carbon source contained in the medium and growth phase. The cellobiose-grown cells harvested from the culture of the late stationary growth phase did not bind to cellulose, but their adhesion ability was recovered by treatment with recombinant CBPA. Moreover, cellobiose-grown cells harvested from the culture of an early exponential growth phase bound to cellulose, but their adhesion ability was inhibited by treatment with anti-CBPA antiserum. CBPA rapidly decreased the viscosity of CMC, indicating that CBPA was endoglucanase. The results obtained in this study indicate that CBPA plays an important role in the adhesion of E. cellulosolvens 5 cells to cellulose.     

Endoglucanase activity and relative expression of glycoside hydrolase genes of Fibrobacter succinogenes S85 grown on different substrates

The endoglucanase activity of cells and extracellular culture fluid of Fibrobacter succinogenes S85 grown on glucose, cellobiose, soluble polysaccharides (beta-glucan, lichenan) and intact plant polysaccharides, was compared. The specific activity of cells grown on cellulose or forages was 6- to 20-fold higher than that of cells grown on soluble substrates, suggesting an induction of endoglucanases by the insoluble substrates. The ratios of cells to extracellular culture fluid endoglucanase activities measured in cultures grown on sugars or insoluble polysaccharides suggested that the endoglucanases induced by the insoluble polysaccharides remained attached to the cells. The mRNA of all the F. succinogenes glycoside hydrolase genes sequenced so far were then quantified in cells grown on glucose, cellobiose or cellulose. The results show that all these genes were transcribed in growing cells, and that they are all overexpressed in cultures grown on cellulose. Endoglucanase-encoding endB and endA(FS) genes, and xylanase-encoding xynC gene appeared the most expressed genes in growing cells. EGB and ENDA are thus likely to play a major role in cellulose degradation in F. succinogenes.     

Antigenic nature of the chloride-stimulated cellobiosidase and other cellulases of Fibrobacter succinogenes subsp. succinogenes S85 and related fresh isolates.

Polyclonal and monoclonal antibodies to the Cl-stimulated cellobiosidase of Fibrobacter succinogenes subsp. succinogenes S85 reacted with numerous proteins of both higher and lower molecular weights from F. succinogenes subsp. succinogenes S85, but not with Escherichia coli proteins, and only one protein each from Butyrivibrio fibrisolvens and Ruminococcus albus. Different profiles were observed for Western blots (immunoblots) of peptide digests of both the purified enzyme from F. succinogenes and immunoreactive proteins of higher and lower molecular weights, demonstrating that they were different proteins. Therefore, F. succinogenes appeared to produce numerous proteins with one or more common antigenic determinants. However, with the exception of Cl-stimulated cellobiosidase, none were cellulases that have been characterized. An affinity-purified polyclonal antibody to Cl-stimulated cellobiosidase reacted with numerous proteins in cells of each of three fresh isolates of F. succinogenes subsp. succinogenes and one of F. succinogenes subsp. elongata when analyzed by Western blotting. Antibodies to periplasmic cellodextrinase, endoglucanase 2 (EG2), and EG3, when reacted in Western blots with the various cellulases, including Cl-stimulated cellobiosidase, revealed limited antigenic similarity among the different proteins and none with either B. fibrisolvens or R. albus proteins. The periplasmic cellodextrinase antibody reacted with an antigen with a size corresponding to cellodextrinase in each of the three F. succinogenes subsp. succinogenes isolates but not with any antigens from the F. succinogenes subsp. elongata isolate. The anti-EG2 antibody reacted with single antigens in each of the four isolates, while the anti-EG3 antibody reacted with only one of the four isolates.(ABSTRACT TRUNCATED AT 250 WORDS)     

Functional analysis of a gene encoding endoglucanase that belongs to glycosyl hydrolase family 12 from the brown-rot basidiomycete Fomitopsis palustris

The brown-rot basidiomycete Fomitopsis palustris is known to degrade crystalline cellulose (Avicel) and produce three major cellulases, exoglucanases, endoglucanases, and beta- glucosidases. A gene encoding endoglucanase, designated as cel12, was cloned from total RNA prepared from F. palustris grown at the expense of Avicel. The gene encoding Cel12 has an open reading frame of 732 bp, encoding a putative protein of 244 amino acid residues with a putative signal peptide residing at the first 18 amino acid residues of the N-terminus of the protein. Sequence analysis of Cel12 identified three consensus regions, which are highly conserved among fungal cellulases belonging to GH family 12. However, a cellulose-binding domain was not found in Cel12, like other GH family 12 fungal cellulases. Northern blot analysis showed a dramatic increase of cel12 mRNA levels in F. palustris cells cultivated on Avicel from the early to late stages of growth and the maintenance of a high level of expression in the late stage, suggesting that Cel12 takes a significant part in endoglucanase activity throughout the growth of F. palustris. Adventitious expression of cel12 in the yeast Pichia pastoris successfully produced the recombinant protein that exhibited endoglucanase activity with carboxymethyl cellulose, but not with crystalline cellulose, suggesting that the enzyme is not a processive endoglucanase unlike two other endoglucanases previously identified in F. palustris.     

A thermoacidophilic endoglucanase (CelB) from Alicyclobacillus acidocaldarius displays high sequence similarity to arabinofuranosidases belonging to family 51 of glycoside hydrolases.

A 100-kDa protein with endoglucanase activity was purified from Triton X-100 extract of cells of the thermoacidophilic Gram-positive bacterium Alicyclobacillus acidocaldarius. The enzyme exhibited activity towards carboxy methyl cellulose and oat spelt xylan with pH and temperature optima of 4 and 80 degrees C, respectively. Cloning and nucleotide sequence analysis of the corresponding gene (celB) revealed an ORF encoding a preprotein of 959 amino acids which is consistent with an extracellular localization. Purified recombinant CelB and a variant lacking the C-terminal 203 amino acid residues (CelBtrunc) displayed similar enzymatic properties as the wild-type protein. Analysis of product formation suggested an endo mode of action. Remarkable stability was observed at pH values between 1 and 7 and 60% of activity were retained after incubation for 1 h at 80 degrees C. CelB displayed homology to members of glycoside hydrolase family 51, being only the second entry with activity typical of an endoglucanase but lacking activity on p-nitrophenyl-alpha-l-arabinofuranoside (pNPAraf). Highest sequence similarity was found towards the other endoglucanase F from Fibrobacter succinogenes (EGF), forming a distinct group in the phylogenetic tree of this family. Analysis of the amino acid composition of the catalytic domains demonstrated that CelB contains fewer charged amino acids than its neutrophilic counterparts, which is in line with adaptation to low pH. Wild-type and full-length recombinant CelB were soluble only in Triton X-100. In contrast, CelBtrunc was completely water soluble, suggesting a role of the C-terminal region in cell association. This C-terminal hydrophobic region displayed local sequence similarities to an alpha-amylase from the same organism.     

X-Ray crystal structure of the multidomain endoglucanase Cel9G from Clostridium cellulolyticum complexed with natural and synthetic cello-oligosaccharides

Complete cellulose degradation is the first step in the use of biomass as a source of renewable energy. To this end, the engineering of novel cellulase activity, the activity responsible for the hydrolysis of the beta-1,4-glycosidic bonds in cellulose, is a topic of great interest. The high-resolution X-ray crystal structure of a multidomain endoglucanase from Clostridium cellulolyticum has been determined at a 1.6-A resolution. The endoglucanase, Cel9G, is comprised of a family 9 catalytic domain attached to a family III(c) cellulose-binding domain. The two domains together form a flat platform onto which crystalline cellulose is suggested to bind and be fed into the active-site cleft for endolytic hydrolysis. To further dissect the structural basis of cellulose binding and hydrolysis, the structures of Cel9G in the presence of cellobiose, cellotriose, and a DP-10 thio-oligosaccharide inhibitor were resolved at resolutions of 1.7, 1.8, and 1.9 A, respectively.     

海栖热袍菌内切葡聚糖酶Cel12B与木聚糖酶XynA CBD结构域融合基因的构建、表达及融合酶性质分析

海栖热袍菌内切葡聚糖酶Cel12B是极耐热胞外酶,氨基酸序列分析表明不含有纤维素结合结构域(CBD),对结晶纤维素无活性,但同样菌种来源的木聚糖酶XynA有催化结构域和纤维素结合结构城。用同样极耐热酶CBD区域和Cel12B融合构建重组质粒pET-20b-Cel12B-CBD,经诱导表达后,对结晶纤维素有活性,酶学特性研究表明:最适反应温度为100℃、最适pH为5.8、在pH4.5~7.0时酶活力稳定,90℃保温2h仍有87%的酶活。     

Antigenic nature of the chloride-stimulated cellobiosidase and other cellulases of Fibrobacter succinogenes subsp. succinogenes S85 and related fresh isolates.

Polyclonal and monoclonal antibodies to the Cl-stimulated cellobiosidase of Fibrobacter succinogenes subsp. succinogenes S85 reacted with numerous proteins of both higher and lower molecular weights from F. succinogenes subsp. succinogenes S85, but not with Escherichia coli proteins, and only one protein each from Butyrivibrio fibrisolvens and Ruminococcus albus. Different profiles were observed for Western blots (immunoblots) of peptide digests of both the purified enzyme from F. succinogenes and immunoreactive proteins of higher and lower molecular weights, demonstrating that they were different proteins. Therefore, F. succinogenes appeared to produce numerous proteins with one or more common antigenic determinants. However, with the exception of Cl-stimulated cellobiosidase, none were cellulases that have been characterized. An affinity-purified polyclonal antibody to Cl-stimulated cellobiosidase reacted with numerous proteins in cells of each of three fresh isolates of F. succinogenes subsp. succinogenes and one of F. succinogenes subsp. elongata when analyzed by Western blotting. Antibodies to periplasmic cellodextrinase, endoglucanase 2 (EG2), and EG3, when reacted in Western blots with the various cellulases, including Cl-stimulated cellobiosidase, revealed limited antigenic similarity among the different proteins and none with either B. fibrisolvens or R. albus proteins. The periplasmic cellodextrinase antibody reacted with an antigen with a size corresponding to cellodextrinase in each of the three F. succinogenes subsp. succinogenes isolates but not with any antigens from the F. succinogenes subsp. elongata isolate. The anti-EG2 antibody reacted with single antigens in each of the four isolates, while the anti-EG3 antibody reacted with only one of the four isolates.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization and comparison of Clostridium cellulovorans endoglucanases-xylanases EngB and EngD hyperexpressed in Escherichia coli.

By the use of a T7 expression system, endoglucanases-xylanases EngB and EngD from Clostridium cellulovorans were hyperexpressed and purified from Escherichia coli. The two enzymes demonstrated both endoglucanase and xylanase activities. The substrate specificities of both endoglucanases were similar except that EngD had four-times-greater p-nitrophenyl beta-1,4-cellobiosidase activity. The two proteins were very homologous (80%) up to the Pro-Thr-Thr region which divided the protein into -NH2- and -COOH-terminals. The -COOH- region of EngB has high homology to the endoglucanases and a xylanase from Clostridium thermocellum and to an endoglucanase from Clostridium cellulolyticum and did not show strong binding to cellulose (Avicel). However, the -COOH- region of EngD, which had homology to the cellulose-binding domains of Cellulomonas fimi exo- and endoglucanases and to Pseudomonas fluorescens endoglucanase, demonstrated binding ability to cellulose even when the domain was fused to the N-terminal domain of EngB. By probing the Avicel-purified cellulase complex (F8) with anti-EngB and anti-EngD antibodies, both EngB and EngD were shown to be present on the cellulase complex of C. cellulovorans. Many proteins homologous to EngB and EngD were also present on the complex.     

Cloning, nucleotide sequence and expression of the gene encoding the cellulose-binding protein 1 (CBP1) of Fibrobacter succinogenes S85

Abstract The nucleotide sequence of the gene encoding the Fibrobacter succinogenes S85 cellulose-binding protein 1 (CBP1) has been determined. The gene encodes a protein of 1054 amino acids with a molecular mass of 118614. The deduced amino acid sequence of CBPl showed an extensive similarity to the cellulose-binding domain of an endoglucanase (EGCCD) from Clostridium cellulolyticum and contained the reiterated regions. The cloned gene was inserted into an expression vector, pRSETA, and was expressed in E. coli as a fused protein with the peptide consisting of six consecutive histidine residues. The fused protein was detected by immunoblotting using antiserum against CBP1, and exhibited the cellulose-binding activities.     

Engineering of Family-5 Glycoside Hydrolase (Cel5A) from an Uncultured Bacterium for Efficient Hydrolysis of Cellulosic Substrates

Cel5A, an endoglucanase, was derived from the metagenomic library of vermicompost. The deduced amino acid sequence of Cel5A shows high sequence homology with family-5 glycoside hydrolases, which contain a single catalytic domain but no distinct cellulose-binding domain. Random mutagenesis and cellulose-binding module (CBM) fusion approaches were successfully applied to obtain properties required for cellulose hydrolysis. After two rounds of error-prone PCR and screening of 3,000 mutants, amino acid substitutions were identified at various positions in thermotolerant mutants. The most heat-tolerant mutant, Cel5A_2R2, showed a 7-fold increase in thermostability. To enhance the affinity and hydrolytic activity of Cel5A on cellulose substrates, the family-6 CBM from Saccharophagus degradans was fused to the C-terminus of the Cel5A_2R2 mutant using overlap PCR. The Cel5A_2R2-CBM6 fusion protein showed 7-fold higher activity than the native Cel5A on Avicel and filter paper. Cellobiose was a major product obtained from the hydrolysis of cellulosic substrates by the fusion enzyme, which was identified by using thin layer chromatography analysis.