Isolation and characterization of Tn5 insertion mutants of Erwinia chrysanthemi that are deficient in polygalacturonate catabolic enzymes oligogalacturonate lyase and 3-deoxy-D-glycero-2,5-hexodiulosonate dehydrogenase.

Mutants of Erwinia chrysanthemi EC16 deficient in the polygalacturonate catabolic enzymes oligogalacturonate lyase (Ogl-) and 3-deoxy-D-glycero-2,5-hexodiulosonate (ketodeoxyuronate) dehydrogenase (KduD-) were obtained by Tn5 mutagenesis using the R plasmid pJB4JI. Ogl- Exu+ (Exu+, D-galacturonate utilization) and KduD- Exu- strains macerated potato tuber tissue and utilized glucose, glycerol, and gluconate, but they did not utilize polygalacturonate, unsaturated digalacturonate, or saturated digalacturonate. Genetic and physical evidence indicated that the Ogl- mutants and a KduD- recombinant contained a single copy of Tn5 and that Tn5 (Kmr) was linked to the mutant phenotypes. In the Ogl+ parents, basal levels of oligogalacturonate lyase were present in glycerol-grown cells and induced levels were present with saturated or unsaturated digalacturonate, while oligogalacturonate lyase was undetectable under similar conditions in Ogl- strains. Pectate lyase, polygalacturonase, and ketodeoxyuronate dehydrogenase were induced in an Ogl- strain by 3-deoxy-D-glycero-2,5-hexodiulosonate and by the enzymatic products of unsaturated digalacturonate but not by the digalacturonates. The KduD- strains lacked the dehydrogenase activity but in the presence of the digalacturonates produced higher levels of pectate lyase, polygalacturonase, and oligogalacturonate lyase than the KduD+ parents did. In the KduD- strains, pectate lyase and oligogalacturonate lyase were induced by unsaturated digalacturonate in a "gratuitous" manner, suggesting an intracellular accumulation of the inducer(s). We conclude that an intermediate(s) of the ketodeoxyuronate pathway induces pectate lyase, polygalacturonase, oligogalacturonate lyase, and ketodeoxyuronate dehydrogenase in E. chrysanthemi.     

Chemically methylated and reduced pectins: preparation,characterisation by 1H NMR spectroscopy,enzymatic degradation,and gelling properties

The gelling properties of pectins are known to be closely related to the degree of methylation (DM) and the distribution of the ester groups. In order to investigate this dependency, a natural citrus pectin (DM 64%) has been methylated to pectins with higher DM or saponified to achieve pectins with lower DM. A simple method for determination of DM by 1H NMR spectroscopy is presented. New modified pectins have been prepared by treatment of pectins having different DM with NaBH(4) to reduce selectively the methyl esters to primary alcohols in the presence of free acids. The degree of reduction (DR) and the DM of the remaining carboxylic acids could likewise be determined by 1H NMR spectroscopy. The new reduced pectins are recognized by the pectin degrading enzymes polygalacturonase PGI and PGII as well as by pectin lyase, all from Aspergillus niger, but the enzymes exhibit lower specific activities as compared with unmodified pectin. The new reduced pectins exhibit high gelling properties.     

Analysis of conductance responses during depolymerization of pectate by soft rot Erwinia spp. and other pectolytic bacteria isolated from potato tubers

Different bacteria isolated from potato tubers were screened for their pectolytic properties by examining pitting in polypectate agar, recording conductance responses in polypectate medium and performing potato tuber soft rot tests. For bacteria found positive in conductimetry, the role of polygalacturonase (PG) and pectate lyase (PL) in the generation of conductance changes in a polygalacturonic acid (PGA) medium was further analysed using enzyme activity staining after gel electrophoresis and high-performance anion exchange chromatography. The extent of the conductance changes during depolymerization of PGA was dependent on the amounts of galacturonate monomers and oligomers accumulated in the medium. In comparison with an unidentified saprophyte and a Klebsiella strain, both mainly having PL activity, soft rot Erwinia spp. rapidly produced larger conductance responses, due to a combined action of multiple forms of PG and PL. The responses of Erwinia spp. were initially associated with the accumulation of large amounts of monomers and saturated dimers to heptamers, due to PG activity. Subsequently, as well as monomers and saturated dimers, large amounts of unsaturated dimers were also detected, due to PL activity. The role of PG as an important conductimetric factor was also demonstrated for a pectinase preparation derived from Aspergillus niger . Besides detection, automated conductimetric assays in pectate media may also be useful for monitoring of pectolytic activity in pectinase preparations and for screening of pectolytic activity of micro-organisms under different media and growth conditions.     

Structure-activity relationship of alginate oligosaccharides in the induction of cytokine production from RAW264.7 cells

Guluronate and mannuronate oligomers with various degree of polymerization were prepared from polyguluronate (PG) and polymannuronate (PM) with an alginate lyase from a Pseudoalteromonas sp., and their activities to induce cytokine secretion from mouse macrophage cell line RAW264.7 cells were examined. Enzymatically depolymerized unsaturated alginate oligomers induced tumor necrosis factor (TNF)-alpha secretion from RAW264.7 cells in a structure-depending manner, while the activities of saturated alginate oligomers prepared by acid hydrolysis were fairly low or only trace levels. These results suggest that unsaturated end-structure of alginate oligomers was important for the TNF-alpha-inducing activity. Among the unsaturated guluronate (G3-G9) and mannuronate (M3-M9) oligomers, G8 and M7 showed the most potent activity, respectively. Bio-Plex assay revealed that interleukin (IL)-1alpha, IL-1beta, and IL-6 secretion from RAW264.7 cells were also induced by unsaturated alginate oligomers with similar structure-activity relationship profiles as seen in TNF-alpha, and the most potent activities were observed with G8 and M7. These results suggest that G8 and M7 may have the most suitable molecular size or entire structural conformation as stimulant for cytokine secretion. Since antibodies to Toll-like receptor (TLR)2 and TLR4 effectively inhibited the G8- and M7-induced production of TNF-alpha, these alginate oligomers may stimulate innate immunity through the pattern recognition receptors on macrophages similar to microbial products.     

Analysis of different de-esterification mechanisms for pectin by enzymatic fingerprinting using endopectin lyase and endopolygalacturonase II from A. niger

A series of pectins with different distribution patterns of methyl ester groups was produced by treatment with either plant (p-PME) or fungal pectin methyl esterases (f-PME) and compared with those obtained by base catalysed de-esterification. The products generated by digestion of these pectins with either endopectin lyase (PL) or endopolygalacturonase II (PG II) from Aspergillus niger were analysed using matrix assisted laser desorption ionisation mass spectrometry (MALDIMS) and high-performance anion-exchange chromatography with pulsed amperometric or UV detection (HPAEC-PAD/UV). Time course analysis using MALDIMS was used to identify the most preferred substrate for each enzyme. For PL, this was shown to be fully methyl esterified HG whereas for PG II, long regions of HG without any methyl esterification, as produced by p-PME was the optimal substrate. The blockwise de-esterification caused by p-PME treatment gave a decrease of partly methylated oligomers in PL fingerprints, which did not effect the relative composition of partly methylated oligomers. PG II fingerprints showed a constant increase of monomers and oligomers without any methyl ester groups with decreasing degree of esterification (DE), but almost no change in the concentration of partly methylated compounds. PL fingerprints of f-PME and chemically treated pectins showed decreasing amounts of partly methyl esterified oligomers with decreasing DE, together with a relative shift towards longer oligomers. PG II fingerprints were characterised by an increase of partly methylated and not methylated oligomers with decreasing DE. But differences were also seen between these two forms of homogenous de-esterification. Introduction of a certain pattern of methyl ester distribution caused by selective removal of certain methyl ester groups by f-PME is the most reasonable explanation for the detected differences.     

Alginate lyase from Pseudomonas aeruginosa CF1/M1 prefers the hexameric oligomannuronate as substrate

In order to investigate the catalytic properties of alginate lyase from Pseudomonas aeruginosa CF1/M1, a clinical isolate, regarding the capability to perform β-elimination on oligomannuronates of defined length (2–9), the alginate lyase was purified from periplasmic extracts. A purification method for unsaturated and saturated oligomannuronates applying anionic exchange chromatography on a FPLC apparatus was established. The alginate lyase showed the highest activity, when hexamers were provided as substrate. This indicated that the alginate lyase best accommodates a chain of six alginate residues in the active center. As a minimum chain length, the pentameric oligomannuronate was still accepted as substrate. Mannuronate oligomers shorter than the pentamer were not accepted as substrate for alginate lyase. Furthermore, oligomer pattern analysis of polymannuronate which was subjected to β-elimination by alginate lyase revealed that the trimer is the most abundant oligomer. These data indicated that β-elimination and cleavage occurred at mannuronic acid residue no. 3 of the accommodated hexameric alginate chain.     

Development and analysis of pectic screening media for use in the detection of pectinase mutants

Summary Two solid pectic media were devised for mutually exclusive detection of extracellular polygalacturonase and pectin lyase produced by fungi including the vascular parasite of tomato Verticillium albo-atrum. These media allowed detection of pectinase-defective mutants. Polygalacturonase detection medium contains non-methylated polygalacturonan (sodium polypectate) is buffered at pH 5.0 (Na citrate, 0.05 M) and is calcium-free. In contrast pectin lyase medium contains polymethylgalacturonan (pectin), is buffered at pH 8.0 (HEPES, 0.05 M) and contains calciumrich agar. When glucose was added to the media for selection of catabolite-resistant mutants, enzyme synthesis was still evident, whereas in comparable conditions in liquid culture production was almost completely repressed. This apparent discrepancy is discussed in terms of the influence of basal synthesis, colony biomass and accumulation of oligouronides which repress induced synthesis and activity.Abbreviations CR catabolite repression - CTAB cetyltrimethyl ammoniumbromide - GALA galacturonic acid - NAPP sodium polypectate - PG polygalacturonase - PL pectin lyase - TBA thiobarbituric acid - UGALA unsaturated galacturonic acid     

An isoelectric focusing study of the effect of methyl-esterified pectic substances on the production of extracellular pectin isoenzymes by soft rot Erwinia spp.

The production of extracellular pectic isoenzymes by seven strains of soft rot bacteria, Erwinia carotovora subsp. carotovora, E.c. atroseptica and E. chrysanthemi , when grown in media containing four different pectic substances with different degrees of methylation or with potato tuber cell-wall extract was examined by isoelectric focusing activity staining. In addition to the isoenzymes of pectate lyase, polygalacturonase and pectin methyl esterase produced constitutively or following induction by polygalacturonic acid (PGA) and coded by known genes, between two and seven novel isoenzymes of the three enzymes with a wider pI range were apparently induced by the pectins and cell-wall extract. Pectin lyase, which is induced in vitro by DNA-damaging agents, was not produced in the absence of mitomycin C in a medium containing PGA but up to two isoenzymes were found with pectin or cell-wall extract. In contrast, cellulase isoenzyme production was not affected by pectin or cell-wall extract. A greater number of novel isoenzymes of all pectic enzymes except pectin lyase tended to be produced in media containing Link pectin, which is PGA methylated to 98%, than the other pectic substances and cell-wall extract. Pectate lyase and polygalacturonase were induced by pectin lyase-degraded products of highly methylated pectin but not by PGA in an E. chrysanthemi strain with all its known pei and peh genes mutated. The results suggest that the production of novel pectic isoenzymes could be related to the presence of CH⁺₃ groups and that their induction differs from that for isomers induced by PGA-degraded products and DNA-damaging agents or produced constitutively.     

Immunocytochemical distribution of polygalacturonase and pectins in styles of distylous and homostylous Turneraceae

Distyly is a plant breeding system in which two self-incompatible, but cross-compatible, floral morphs occur within populations. The morphs differ in having a reciprocal arrangement of styles and anthers. Little or nothing is known of the proteins involved in self-incompatibility for any distylous species. Here we show that a 35 kDa putative polygalacturonase is specific to the transmitting tissue of short-styled plants of five species in series Turnera. The polygalacturonase was not detected in styles of long-styled plants, or in styles of five homostylous self-compatible species in this series of the genus. It is also absent from two X-ray generated mutants and a spontaneous somatic homostylous mutant that arose on a short-styled plant and whose style does possess this polygalacturonase. Three more distantly related species in the Turneraceae were investigated. Turnera weddelliana (series Salicifoliae) does possess the polygalacturonase; however, T. diffusa (series Microphyllae), and Piriqueta caroliniana, showed no evidence of possessing this polygalacturonase using immunocytochemistry. Polygalacturonase assays revealed activity in styles of long- and short-styled plants, but showed no activity of the 35 kDa style polygalacturonase. The distribution of pectins in styles and pollen tubes revealed no difference between the long- and short-styled morphs. Methyl-esterified pectins occur throughout the style tissues, except in the transmitting tissue. The transmitting tissue possesses unesterified pectins that could provide a substrate for polygalacturonase activity. We propose that the style polygalacturonase might act in a complementary manner, allowing pollen of long-styled plants to grow through short styles or, alternatively, oligogalacturonide products of polygalacturonase activity might play a role in signalling compatible responses.     

Unsaturated oligogalacturonic acids are generated by in vitro treatment of pectin with human faecal flora.

Pectins with a degree of esterification (DE) of 95, 66, 34 and 0%, respectively, were incubated in vitro with human faecal flora (pH 7.8). The concentration and composition of oligogalacturonic acids (oligoGalA) generated were determined using high-performance thin-layer chromatography (HPTLC) with UV and colorimetric detection. In the first period of the anaerobic degradation, the pectin macromolecules were fragmented into unsaturated oligoGalA as intermediate products by the action of bacterial pectate lyases. Depending on the incubation time and the DE of pectin, the amount of unsaturated oligoGalA having different degrees of polymerization changed continuously. These oligoGalA were present in the cultures for some hours. Mixtures of unsaturated di-, tri- and tetraGalA were the end products of a pectate lyase action. Later, the oligoGalA disappear as a result of their further fermentation by the gastrointestinal microflora under formation of short-chain fatty acids (SCFA). Low-esterified pectins were depolymerized and fermented faster than the highly esterified by the human faecal flora in vitro. Furthermore, a mixture of unsaturated oligoGalA prepared from pectic acid by the action of pectate lyase from Erwinia carotovora was completely fermented by human faecal flora.     

Detection and identification of rhamnogalacturonan lyase activity in intercellular spaces of expanding cotton cotyledons

Rhamnogalacturonan lyase (RG lyase) activity has been detected and its relative activity measured in vivo during the expansion of cotton (Gossypium hirsutum L.) cotyledons. Rhamnogalacturonan (RG) oligomers labeled with a fluorescent tag were injected into the intercellular spaces of cotton cotyledons and, after incubation, the digested substrate was rinsed out. Enzyme digestion products were detected and identified by capillary zone electrophoresis. Rhamnogalacturonan lyase products were identified as such by co-migration with the digestion products of linear RG oligomers when the oligomers were treated with fungal RG lyase but not when treated with fungal RG hydrolase. In addition, reaction of plant RG lyase digestion products of RG oligomers with I(2)/KI, which selectively removes unsaturated galactopyranosyluronic acid (GaLap) residues formed at the non-reducing end of the oligomer, converted the plant digestion products into RG oligomers that co-migrated with fungal RG hydrolase products. The activity of the enzyme in the intercellular spaces of cotton cotyledons is very low and could be detected most easily when not >0.03 nmol of substrate was injected in a approximately 0.7-cm(2) area and incubated in vivo for 2-6 h. Rhamnogalacturonan lyase activity was the highest in rapidly expanding 3- to 4-day-old cotyledons and gradually decreased during the slow-down in expansion over the next 2-3 days. The RG lyase activity was also detected when the APTS (8-aminopyrene-1,3,6-trisulfonic acid, trisodium salt)-labeled substrates were introduced into intercellular spaces by infiltration instead of injection, indicating that the activity was not induced by wounding or released into the apoplast by cell damage. An exo-RG galacturonohydrolase activity was also found, but RG hydrolase and exo-RG rhamnohydrolase were not detected.     

Similarities in the Action Patterns of Exopolygalacturonate Lyase and Pectinesterase from Clostridium multifermentans

Exopolygalacturonate lyase and pectinesterase from Clostridium multifermentans were assayed simultaneously in the same reaction mixture which contained a highly esterified pectin, polymethyl polygalacturonic acid methyl glycoside. Lyase is specific for unesterified galacturonide residues and cannot degrade this substrate in the absence of the esterase. The rate for esterase was twice the rate for lyase throughout the entire course of the combined reaction. Thus, the molar ratio of the two enzyme activities was the same since the product of the lyase is an unsaturated digalacturonic acid containing two free carboxyl groups. Since clostridial exopolygalacturonate lyase is known to degrade polygalacturonate in a linear manner beginning from the reducing ends of polygalacturonate chains, it was apparent that clostridial pectinesterase must hydrolyze methyl groups in highly esterified pectins with an action pattern similar to that of the lyase. Otherwise it would be impossible for the two enzyme rates to have corresponded on the basis of a 2:1 ratio.     

Cell Wall Metabolism in Ripening Fruit (VII. Biologically Active Pectin Oligomers in Ripening Tomato (Lycopersicon esculentum Mill.) Fruits)

A water-soluble, ethanol-insoluble extract of autolytically inactive tomato (Lycopersicon esculentum Mill.) pericarp tissue contains a series of galacturonic acid-containing (pectic) oligosaccharides that will elicit a transient increase in ethylene biosynthesis when applied to pericarp discs cut from mature green fruit. The concentration of these oligosaccharides in extracts (2.2 [mu]g/g fresh weight) is in excess of that required to promote ethylene synthesis. Oligomers in extracts of ripening fruits were partially purified by preparative high-performance liquid chromatography, and their compositions are described. Pectins were extracted from cell walls prepared from mature green fruit using chelator and Na2CO3 solutions. These pectins are not active in eliciting ethylene synthesis. However, treatment of the Na2CO3-soluble, but not the chelator-soluble, pectin with pure tomato polygalacturonase 1 generates oligomers that are similar to those extracted from ripening fruit (according to high-performance liquid chromatography analysis) and are active as elicitors. The possibility that pectin-derived oligomers are endogenous regulators of ripening is discussed.     

Pectinase treatments on technical fibres of flax: Effects on water sorption and mechanical properties

This study is focused on enzymatically upgrading the functional properties of flax fibres. Green flax fibres were treated with a polygalacturonase and a pectate lyase (PaL) and their properties were compared with dew-retted fibres. Morphological observations, vapour-sorption analyses and mechanical measurements showed that PaL-treatment was able not only to mime retting in terms of bundle division, but also to improve the mechanical properties of technical fibres. Conversely, these properties were shifted down after the polygalacturonase treatment, mainly due to the presence of contaminating glycanases. At the level of the elementary fibres, nanoindentation data indicated the highest stiffness of the secondary wall for PaL-treated fibres. The tensile properties exhibited equal, but moderate values of the Young's modulus (∼37 ± 14 GPa) and breaking strength (∼650 ± 300 MPa) for retted and PaL-treated fibres; we hypothesize an impact of the growth conditions on the fibre chemical structure with an excess of matrix pectins compared to the amount of glucomannan coating the cellulose microfibrils.     

Production of extracellular pectinase enzymes by a mutant (Pol6) of Penicillium occitanis

Summary Penicillium occitanis strain Pol6, a mutant developed for hyperproduction of cellulase and pectinase enzymes was used for the study of extracellular pectinase production when pectins from different sources (apple and citrus) and with varying degree of esterification (DE) were used as inducers. Highly esterified citrus pectins were found to be suitable substrates for polygalacturonase, pectinase and pectin methyl esterase production, while low esterified citrus pectin favoured pectin lyase (PL) production. Apple pectins induced other hydrolytic enzymes (e.g., -1,3-glucanase, -glucosidase, -galactosidase), in addition to pectolytic enzymes. Moreover, the combination of high and low esterified citrus pectins induced the production of a complete pectinase complex. The extent of degradation of the substrate and the affinity for PL decreased with decreasing DE irrespective of the source. There was no evidence of PL activity in this strain. No significant effect of cations (Ca⁺⁺, Mn⁺⁺, Na⁺) on PL activity was observed. However, EDTA (100 mm) inhibited 50% of the activity, when tested on highly esterified (rapid set citrus) pectin. Offprint requests to: S. Jain     

Hydration of vinyl ether groups by unsaturated glycoside hydrolases and their role in bacterial pathogenesis.

Many pathogenic microorganisms invade mammalian and/or plant cells by producing polysaccharide-degrading enzymes (lyases and hydrolases). Mammalian glycosaminoglycans and plant pectins that form part of the cell surface matrix are typical targets for these microbial enzymes. Unsaturated glycoside hydrolase catalyzes the hydrolytic release of an unsaturated uronic acid from oligosaccharides, which are produced through the reaction of matrix-degrading polysaccharide lyase. This enzymatic ability suggests that unsaturated glycoside hydrolases function as virulence factors in microbial infection. This review focuses on the molecular identification, bacterial distribution, and structure/function relationships of these enzymes. In contrast to general glycoside hydrolases, in which the catalytic mechanism involves the retention or inversion of an anomeric configuration, unsaturated glycoside hydrolases uniquely trigger the hydrolysis of vinyl ether groups in unsaturated saccharides but not of their glycosidic bonds.     

Purified tomato polygalacturonase activity during thermal and high-pressure treatment

Extracted tomato polygalacturonase was purified by cation-exchange chromatography (and gel filtration) and characterized for molar mass, isoelectric point, as well as optimal pH for polygalacturonase activity. The enzymatic reaction of purified tomato polygalacturonase on polygalacturonic acid as substrate was investigated during a combined high-pressure/temperature treatment in a temperature range of 25 degrees to 80 degrees C and in a pressure range of 0.1 to 500 MPa at pH 4.4 (the pH of tomato-based products). The optimal temperature for initial tomato polygalacturonase activity in the presence of polygalacturonic acid at atmospheric pressure is about 55 degrees to 60 degrees C. The optimal temperature for initial tomato polygalacturonase activity during processing shifted to lower values at elevated pressure as compared with atmospheric pressure, and the catalytic activity of pure tomato polygalacturonase decreased with increasing pressure, which was mostly pronounced at higher temperatures. The elution profiles of the degradation products on high-performance anion-exchange chromatography indicated that for both thermal and high-pressure treatment all oligomers were present in very small amounts in the initial stage of polygalacturonase activity. The amounts of monomer and small oligomers increased with increasing incubation times, whereas the amount of larger oligomers decreased due to further degradation.     

Chondroitin C lyase [4.2.2.] is unable to cleave fructosylated sequences inside the partially fructosylated <Emphasis Type="Italic">Escherichia coli</Emphasis> K4 polymer

Chondroitin C lyase was demonstrated to be unable to act on fructosylated sequences inside a partially fructosylated polysaccharide having the chondroitin backbone structure, the Escherichia coli K4 polymer, using different analytical approaches. Chondroitin C lyase produced various unsaturated oligosaccharides by acting on an approximately 27%-fructosylated K4 polymer. The online HPLC-ESI-MS approach showed the disaccharide nature of the main species produced by chondroitinase C as DeltaHexA-GalNAc. Furthermore, the non-digested sequences inside the K4 polymer were demonstrated to be oligosaccharides bearing a fructose for each glucuronic acid unit. In fact, unsaturated fully fructosylated oligomers, from tetrasaccharide to decasaccharide (DeltaHexA(Fru)-GalNAc-[GlcA(Fru)-GalNAc](n) with n between 1 and 4), at decreasing percentages, were produced by the enzyme. These results clearly indicate that chondroitinase C cleaved the innermost glucuronic acid-N-acetylgalactosamine linkage without affecting the 1,4 glycosidic linkage between fructosylated glucuronic acid and N-acetylgalactosamine residues, confirming that the 3-O-fructosylation of the GlcA residue renders the polysaccharide resistant to the enzyme action. This novel specific activity of chondroitinase C was also useful for the production of discrete microgram amounts of fully fructosylated oligomers, from 4- to 10-mers, from E. coli K4 for possible further studies and applications.     

Continuous-flow enrichment of a strain ofErwinia carotovora having specificity for highly methylated pectin

A pectinolytic bacterium was isolated from a mixed microbial population by means of a chemostat enrichment procedure. The bacterium, which was identified asErwinia carotovora, grew only on highly methylated pectin and produced a pectin lysase which released unsaturated monomer and dimer from 71% esterified citrus pectin. The pectin lyase was inducible only by pectins having a high methyl content and in pectin-limited chemostats its synthesis passed through a maximum at a dilution rate close to 0.04h^-1.     

A novel oligoalginate lyase from abalone, Haliotis discus hannai, that releases disaccharide from alginate polymer in an exolytic manner

We previously reported the isolation and cDNA cloning of an endolytic alginate lyase, HdAly, from abalone Haliotis discus hannai [Carbohydr. Res.2003, 338, 2841-2852]. Although HdAly preferentially degraded mannuronate-rich substrates, it was incapable of degrading unsaturated oligomannuronates smaller than tetrasaccharide. In the present study, we used conventional chromatographic techniques to isolate a novel unsaturated-trisaccharide-degrading enzyme, named HdAlex, from the digestive fluid of the abalone. The HdAlex showed a molecular weight of 32,000 on SDS-PAGE and could degrade not only unsaturated trisaccharide but also alginate and mannuronate-rich polymers at an optimal pH and temperature of 7.1 and 42 degrees C, respectively. Upon digestion of alginate polymer, HdAlex decreased the viscosity of the alginate at a slower rate than did HdAly, producing only unsaturated disaccharide without any intermediate oligosaccharides. These results indicate that HdAlex degrades the alginate polymer in an exolytic manner. Because HdAlex split saturated trisaccharide producing unsaturated disaccharide, we considered that this enzyme cleaved the alginate at the second glycoside linkage from the reducing terminus. The primary structure of HdAlex was deduced with cDNAs amplified from an abalone hepatopancreas cDNA library by the polymerase chain reaction. The translational region of 822 bp in the total 887-bp sequence of HdAlex cDNA encoded an amino-acid sequence of 273 residues. The N-terminal sequence of 16 residues, excluding the initiation methionine, was regarded as the signal peptide of this enzyme. The amino-acid sequence of the remaining 256 residues shared 62-67% identities with those of the polysaccharide lyase family-14 (PL14) enzymes such as HdAly and turban-shell alginate lyase SP2. To our knowledge, HdAlex is the first exolytic oligoalginate lyase belonging to PL14.