Conserved serine‐rich sequences in xylanase and cellulase from <i>Pseudomonas fluorescens</i> subspecies <i>cellulosa</i>: internal signal sequence and unusual protein processing

Hall, Judith G.; Hazlewood, Geoffrey P.; Huskisson, Neville S.; Durrant, A. J.; Gilbert, Harry J.

doi:10.1111/j.1365-2958.1989.tb00271.x

Cited by 109 publications

(101 citation statements)

References 23 publications

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“…Sequence alignment,for /3-1,4-glucanases offamily F. The sequences shown are from the catalytic domains or pulative catalytic domains of (a) Cex, C.,fimi [38]; (b) XynZ, Clostridium thermocellum [26]; (c) XynA, ~seudomonus,fluorescens subsp. cellulosa [39]; (d) CelB, exoglucanase domain, Cuidocellum sacchurolyticum [40]; (e) XynA, C. saccharolyticum [41]; (0 XynA, Bucillus sp. strain C125 [42]; (g) XynA, Butyrivihrio jibrisolvens 1431; (h) ORF4, C'.…”

Section: Discussionmentioning

confidence: 99%

Structural and functional relationships in two families of β‐1,4‐glycanases

Gilkes

Claeyssens

Aebersold

et al. 1991

European Journal of Biochemistry

111

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CenA and Cex are /3-1 ,Cglycanases produced by the cellulolytic bacterium Cellulomonasfimi. Both enzymes are composed of two domains and contain six Cys residues. Two disulfide bonds were assigned in both enzymes by peptide analysis of the isolated catalytic domains. A further disulfide bond was deduced in both cellulosebinding domains from the absence of free thiols under denaturing conditions. Corresponding Cys residues are conserved in eight of nine other known C.fimi-type cellulose-binding domains. CenA and Cex belong to families B and F, respectively, in the classification of p-1,4-glucanases and p-1 ,Cxylanases based on similarities in catalytic domain primary structure. Disulfide bonds in the CenA catalytic domain correspond to the two disulfide bonds in the catalytic domain of Trichoderma reesei cellobiohydrolase I1 (family B) which stabilize loops forming the active-site tunnel. Sequence alignment indicates the probable occurrence of disulfides at equivalent positions in the two other family B enzymes. Partial resequencing of the gene encoding Streptomyces KSM-9 fl-1,4-glucanase CasA (family B) revealed five errors in the original nucleotide sequence analysis. The corrected amino acid sequence contains an Asp residue corresponding to the proposed proton donor in hydrolysis catalysed by cellobiohydrolase 11. Cys residues which form disulfide bonds in the Cex catalytic domain are conserved in XynZ of Clostridium thermocellum and Xyn of Cryptococcus alhidus but not in the other eight known family F enzymes. Like other members of its family, Cex catalyses xylan hydrolysis. The catalytic efficiency (kCat/Km) for hydrolysis of the heterosidic bond ofp-nitrophenyI-fl-D-xylobioside is 14385 min-l . mM-l at 25 "C; the corresponding kc,,/ K, for p-nitrophenyl-fi-D-cellobioside hydrolysis is 296 min-l . mM-'.Cellulose and xylan are the major components of plant biomass. Many bacteria and fungi exploit the natural abundance of these P-l,Cglycans to obtain carbon and energy. Such microorganisms produce an array of degradative enCorrespondence t o N. R. Gilkes,

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Section: Discussionmentioning

confidence: 99%

Structural and functional relationships in two families of β‐1,4‐glycanases

Gilkes

Claeyssens

Aebersold

et al. 1991

European Journal of Biochemistry

111

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“…The EDTA was then removed by dialysis against 100 volumes of 10 mM Tris/HCl buffer, pH 8.0, at 4°C. XYLA was then purified by anion-exchange chromatography (17). The purified enzymes were dialyzed against 3 ϫ 1,000 volumes of 50 mM Tris/HCl buffer, pH 7.5, containing 10 g/liter Chelex 100 (Bio-Rad) to remove any remaining Ca 2ϩ .…”

Section: Methodsmentioning

confidence: 99%

“…Aliquots were removed at each time point between 0 and 20 min, heated to 100°C in the presence of 2% SDS, and then subjected to SDS-PAGE (21). The NH 2 -terminal sequence of the major proteolytic product generated (29 kDa) was determined as described previously (17). To determine the precise size of this peptide, the proteolytic reaction was terminated by the addition of phenylmethylsulfonyl fluoride (1 mM) rather than SDS , and the sample was dialyzed extensively against distilled water and then subjected to electrospray ionization mass spectrometry using a VG Quattro Tandem Quadropole mass spectrometer.…”

Section: Methodsmentioning

confidence: 99%

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Calcium Protects a Mesophilic Xylanase from Proteinase Inactivation and Thermal Unfolding

Spurway¹,

Morland²,

Cooper³

et al. 1997

Journal of Biological Chemistry

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“…Although its role, if any, in the binding of CenB to cellulose was not established, the sequence was designated CBDCenB. Similar sequences occur at the N or C termini of other bacterial cellulases and a xylanase (1,3,13,14,36). The consensus for these sequences is given in Fig.…”

Section: Resultsmentioning

confidence: 99%

Unusual sequence organization in CenB, an inverting endoglucanase from Cellulomonas fimi

et al. 1991

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The nucleotide sequence of the cenB gene was determined and used to deduce the amino acid sequence of endoglucanase B (CenB) of Cellulomonasfimi. CenB comprises 1,012 amino acids and has a molecular weight of 105,905. The polypeptide is divided by so-called linker sequences rich in proline and hydroxyamino acids into five domains: a catalytic domain of 607 amino acids at the N terminus, followed by three repeats of 98 amino acids each which are >60% identical, and a C-terminal domain of 101 amino acids which is 50% identical to the cellulose-binding domains of C. fimi cellulases Cex and CenA. A deletion mutant of the cenB gene encodes a polypeptide lacking the C-terminal 333 amino acids of CenB. The truncated polypeptide is catalytically active and, like intact CenB, binds to cellulose, suggesting that CenB has a second cellulosebinding site. The sequence of amino acids 1 to 461 of CenB is 35% identical, with a further 15% similarity, to that of a cellulase from avocado, which places CenB in cellulase family E. CenB releases mostly cellobiose and cellotetraose from cellohexaose. Like CenA, CenB hydrolyzes the ,3-1,4-glucosidic bond with inversion of the anomeric configuration. The pH optimum for CenB is 8.5, and that for CenA is 7.5.

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Conserved serine‐rich sequences in xylanase and cellulase from Pseudomonas fluorescens subspecies cellulosa: internal signal sequence and unusual protein processing

Cited by 109 publications

References 23 publications

Structural and functional relationships in two families of β‐1,4‐glycanases

Structural and functional relationships in two families of β‐1,4‐glycanases

Calcium Protects a Mesophilic Xylanase from Proteinase Inactivation and Thermal Unfolding

Unusual sequence organization in CenB, an inverting endoglucanase from Cellulomonas fimi

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