EP0943032A1 - Systeme a composants multiples pour modifier, decomposer ou blanchir la lignine, des materiaux qui contiennent de la lignine ou des substances similaires, et son procede d'utilisation - Google Patents

Systeme a composants multiples pour modifier, decomposer ou blanchir la lignine, des materiaux qui contiennent de la lignine ou des substances similaires, et son procede d'utilisation

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Publication number
EP0943032A1
EP0943032A1 EP97952038A EP97952038A EP0943032A1 EP 0943032 A1 EP0943032 A1 EP 0943032A1 EP 97952038 A EP97952038 A EP 97952038A EP 97952038 A EP97952038 A EP 97952038A EP 0943032 A1 EP0943032 A1 EP 0943032A1
Authority
EP
European Patent Office
Prior art keywords
nitrosopyridine
hydroxy
lignin
dihydroxy
alkyl
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP97952038A
Other languages
German (de)
English (en)
Other versions
EP0943032B1 (fr
Inventor
Johannes Freudenreich
Jürgen STOHRER
Manfred Amann
Robert Müller
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Consortium fuer Elektrochemische Industrie GmbH
Original Assignee
Consortium fuer Elektrochemische Industrie GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Consortium fuer Elektrochemische Industrie GmbH filed Critical Consortium fuer Elektrochemische Industrie GmbH
Publication of EP0943032A1 publication Critical patent/EP0943032A1/fr
Application granted granted Critical
Publication of EP0943032B1 publication Critical patent/EP0943032B1/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21CPRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
    • D21C5/00Other processes for obtaining cellulose, e.g. cooking cotton linters ; Processes characterised by the choice of cellulose-containing starting materials
    • D21C5/005Treatment of cellulose-containing material with microorganisms or enzymes
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21CPRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
    • D21C9/00After-treatment of cellulose pulp, e.g. of wood pulp, or cotton linters ; Treatment of dilute or dewatered pulp or process improvement taking place after obtaining the raw cellulosic material and not provided for elsewhere
    • D21C9/10Bleaching ; Apparatus therefor
    • D21C9/1026Other features in bleaching processes
    • D21C9/1036Use of compounds accelerating or improving the efficiency of the processes

Definitions

  • Multi-component system for changing, breaking down or bleaching lignin, lignin-containing materials or similar substances as well as processes for its use
  • the present invention relates to a multi-component system for changing, breaking down or bleaching lignin, lignin-containing materials or similar substances, and methods for its use.
  • the sulfate and sulfite processes are the main processes used today for pulp production. Both methods produce pulp under cooking and under pressure.
  • the sulfate process works with the addition of NaOH and Na 2 S, while Ca (HS ⁇ 3) 2 + S0 2 is used in the sulfite process.
  • the main aim of all processes is to remove the lignin from the plant material, wood or annual plants used.
  • the lignin which is the main constituent of the plant material (stem or stem) with cellulose and hemicellulose, must be removed, otherwise it will not be possible to produce non-yellowing and mechanically heavy-duty papers.
  • the wood-based production processes work with stone grinders (wood sanding) or with .Refiners (TMP), which defibrillate the wood after grinding (chemical, thermal or chemical-thermal).
  • stone grinders wood sanding
  • TMP .Refiners
  • Biopulping is the treatment of wood chips with living mushroom systems.
  • Another advantage is the mostly existing improvement in the mechanical properties of the fabric, a disadvantage the poorer final whiteness.
  • Biobleaching also works with in-vivo systems.
  • the boiled pulp (Softwood / Hardwood) is inoculated with the fungus before bleaching and treated for days to weeks. Only after this long treatment time does a significant decrease in kappa number and increase in whiteness become apparent, which makes the process uneconomical for an implementation in the usual
  • Another application which is usually carried out with immobilized fungal systems, is the treatment of pulp wastewater, in particular bleaching wastewater to decolorize it and reduce the AOX (reduction of chlorinated compounds in the wastewater that cause chlorine or chlorine dioxide bleaching stages).
  • chelating substances siderophores such as ammonium oxalate
  • biosurfactant are assumed to be the cofactor.
  • the application PCT / EP87 / 00635 describes a system for removing lignin from lignin-cellulose-containing material under simultaneous bleaching, which works with lignolytic enzymes from white rot fungi with the addition of reducing and oxidizing agents and phenolic compounds as mediators.
  • enhancer substances are organic chemicals which contain at least two aromatic rings, at least one of which is substituted with defined radicals.
  • WO 94/29510 describes a method for enzymatic delignification, in which enzymes are used together with mediators.
  • Compounds with the structure NO, NOH or HRNOH are generally disclosed as mediators.
  • HBT 1-Hydroxy-lH-benzotriazole
  • the present invention therefore relates to a multi-component system for changing, breaking down or bleaching lignin, lignin-containing materials or similar substances containing a. optionally at least one oxidation catalyst and b. at least one suitable oxidizing agent and c. at least one mediator, characterized in that the mediator is selected from the group hydroxypyridines, aminopyridines, hydroxyquinolines, aminoquinolines, hydroxyisoquinolines, aminoisoquinolines, with nitroso or mercapto substituents ortho or para to the hydroxyl or amino groups, tautomers of the compounds mentioned and their salts, ethers and esters.
  • Preferred mediators in the multicomponent system according to the invention are compounds of the general formula (I), (II) or (III)
  • R 1 which are ortho or para to one another are hydroxyl and nitroso or hydroxyl and mercapto or nitroso and amino and the rest R 1 radicals are the same or different and are selected from the group consisting of hydrogen, halogen, hydroxy, mercapto, formyl, cyano, carbamoyl, carboxy, ester and salt of carboxy, sulfono, ester and salt of sulfo norests, sulfamoyl, nitro, nitroso, amino, phenyl, aryl-C 1 -C 5 alkyl, C 1 -C 12 alkyl, C 1 -C 5 alkoxy, CLCL Q carbonyl -, Carbonyl-CL-Cg-alkyl, phospho-, phosphono-, phosphono-oxy, ester and salt of the rest R 1 radicals are the same or different and are selected from the group consisting of hydrogen, halogen, hydroxy, mercapto, formy
  • Particularly preferred mediators in the multicomponent system according to the invention are compounds of the general formula (I) or (II) and their tautomers, salts, ethers or esters, in the formulas (I) and (II) particularly preferably two radicals which are ortho-oriented to one another R 1 is hydroxy and nitroso or hydroxy and mercapto or nitroso and amino and the other R 1 are the same or different and are selected from the group consisting of hydrogen, hydroxy, mercapto, formyl, carbamoyl and carboxy, Esters and salt of carboxy, sulfono, esters and salt of sulfo, sulfamoyl, nitro, nitroso, amino, phenyl, aryl-C-
  • Preferred mediators are 2,6-dihydroxy-3-nitrosopyridine, 2,6-diamino-3-nitrosopyridine,
  • the multicomponent system according to the invention contains mediators which are less expensive than the mediators known from the prior art, in particular less expensive than HBT.
  • the multicomponent system according to the invention preferably comprises at least one oxidation catalyst.
  • Enzymes are preferably used as oxidation catalysts in the multicomponent system according to the invention.
  • the term enzyme also encompasses enzymatically active proteins or peptides or prosthetic groups of enzymes.
  • Oxidoreductases of classes 1.1.1 to 1.97 according to the International Enzyme Nomenclature, Committee of the International Union of Biochemistry and Molecular Biology (Enzyme Nomenclature, Acade ic Press, Inc., 1992, pp. 24-154) can be used as the enzyme in the multicomponent system according to the invention become.
  • Enzymes of the classes mentioned below are preferably used:
  • Class 1.1 enzymes which comprise all dehydrogenases which act on primary, secondary alcohols and semiacetals, and which are accepted as NAD + or NADP + (subclass 1.1.1), cytochrome (1.1.2), oxygen (0 2 ) (1.1.3), disulfides (1.1.4), quinones (1.1.5) or the other acceptors (1.1.99).
  • the enzymes of class 1.1.5 with quinones as acceptors and the enzymes of class 1.1.3 with oxygen as acceptors are particularly preferred.
  • Cellobiose quinone-1-oxidoreductase (1.1.5.1) is particularly preferred in this class.
  • Enzymes of class 1.2 are also preferred. This class of enzymes includes those enzymes that oxidize aldehydes to the corresponding acids or oxo groups.
  • the acceptors can be NAD + , NADP + (1.2.1), cytochrome (1.2.2), oxygen (1.2.3), sulfides (1.2.4), iron-sulfur proteins (1.2.5) or other acceptors (1.2 .99).
  • the enzymes of group (1.2.3) with oxygen as the acceptor are particularly preferred here.
  • Enzymes of class 1.3 are also preferred. This class includes enzymes that act on the CH-CH groups of the donor.
  • acceptors are NAD + , NADP + (1.3.1), cytochroe (1.3.2), oxygen (1.3.3), quinones or related compounds (1.3.5), iron-sulfur proteins (1.3. 7) or other acceptors (1.3.99).
  • Bilirubin oxidase (1.3.3.5) is particularly preferred.
  • the enzymes of class (1.3.3) with oxygen as acceptor and (1.3.5) with quinones etc. as acceptor are also particularly preferred here.
  • class 1.4 enzymes which act on CH-NH 2 groups of the donor.
  • acceptors are NAD + , NADP + (1.4.1), cytochrome (1.4.2), oxygen (1.4.3), disulfides (1.4.4), iron-sulfur proteins (1.4.7) or others Acceptors (1.4.99).
  • Enzymes of class 1.4.3 with oxygen as the acceptor are also particularly preferred here.
  • class 1.5 enzymes which act on CH-NH groups of the donor.
  • the corresponding acceptors are NAD + , NADP + (1.5.1), oxygen (1.5.3), disulfides (1.5.4), quinones (1.5.5) or other acceptors (1.5.99).
  • Enzymes with oxygen (0 2 ) (1.5.3) and with quinones (1.5.5) as acceptors are also particularly preferred here.
  • Enzymes of class 1.6 which act on NADH or NADPH are also preferred.
  • the acceptors here are NADP + (1.6.1), heme proteins (1.6.2), disulfides (1.6.4), quinones (1.6.5), N0 2 groups (1.6.6), and a flavin (1.6.8 ) or some other acceptors (1.6.99).
  • Enzymes of class 1.6.5 with quinones as acceptors are particularly preferred here.
  • class 1.7 enzymes which act as donors on other N0 2 compounds and acceptors cytochrome (1.7.2), oxygen (0 2 ) (1.7.3), iron-sulfur proteins (1.7.7 ) or others (1.7.99).
  • class 1.8 enzymes which act as donors on sulfur groups and acceptors NAD + , NADP + (1.8.1), cytochromes (1.8.2), oxygen (0 2 ) (1.8.3), disulfides (1.8. 4), quinones (1.8.5), iron-sulfur proteins (1.8.7) or others (1.8.99).
  • class 1.9 enzymes which act as donors on heme groups and have oxygen (0 2 ) (1.9.3), NO 2 compounds (1.9.6) and others (1.9.99) as acceptors.
  • class 1.12 enzymes which act on hydrogen as a donor.
  • the acceptors are NAD + or NADP + (1.12.1) or others (1.12.99). Enzymes of class 1.13 and 1.14 (oxigenases) are also preferred.
  • Preferred enzymes are also those of class 1.15 which act as acceptors on superoxide radicals.
  • Superoxide dismutase (1.15.1.1) is particularly preferred here.
  • Enzymes of class 1.16 are also preferred.
  • Enzymes of class 1.16.3.1 (ferroxidase, e.g. ceruloplasmin) are particularly preferred here.
  • Further preferred enzymes are those from group 1.17 (action on CH 2 groups which are oxidized to -CHOH-), 1.18 (action on reduced ferredoxin as donor), 1.19
  • the enzymes of group 1.11 are also particularly preferred. which act on a peroxide as an acceptor.
  • This only subclass (1.11.1) contains the peroxidases.
  • the cytochrome C peroxidases (1.11.1.5), catalase (1.11.1.6), the peroxidase (1.11.1.6), the iodide peroxidase (1.11.1.8) and the glutathione peroxidase (1.11.1.9) are particularly preferred here.
  • Enzymes of class 1.10 which act on biphenols and related compounds are very particularly preferred. They catalyze the oxidation of biphenols and ascorbates. NAD + , NADP + (1.10.1), cytochrome (1.10.2), oxygen (1.10.3) or others (1.10.99) act as acceptors.
  • class 1.10.3 enzymes with oxygen (0 2 ) as the acceptor are particularly preferred.
  • the enzymes in this class are catechol oxidase (tyrosinase) (1.10.3.1)., L-ascorbate oxidase (1.10.3.3), o-aminophenol oxidase (1.10.3.4) and laccase (benzenediol: oxigen oxidoreductase) (1.10. 3.2) is preferred, the laccases (benzene diol: oxigen oxidoreductase) (1.10.3.2) being particularly preferred.
  • the enzymes mentioned are commercially available or can be obtained by standard methods. Plants, animal cells, bacteria and fungi, for example, come into consideration as organisms for the production of the enzymes. In principle, both naturally occurring and genetically modified organisms can be enzyme producers. Parts of unicellular or multicellular organisms are also conceivable as enzyme producers, especially cell cultures.
  • white rot fungi such as pleurus, phlebia and trametes are used, for example.
  • the multi-component system according to the invention comprises at least one oxidation agent.
  • oxidizing agents that can be used are air, oxygen, ozone, H 2 0 2 , organic peroxides, peracids such as peracetic acid, performic acid, persulfuric acid, persitric acid, metachloroperoxibenzoic acid, perchloric acid, perborates, peracetates, persulfates, peroxides or oxygen species and their radicals such as OH, OOH, singlet oxygen, superoxide (0 2 " ), ozonide, dioxygenyl cation (0 2 + ), dioxirane, dioxetane or fremy radicals can be used.
  • Oxidizing agents are preferably used which can either be generated by the corresponding oxidoreductases, for example dioxiranes from laccases plus carbonyls, or which can chemically regenerate the mediator or can implement it directly.
  • the invention also relates to the use of substances which, according to the invention, are suitable as mediators for changing, breaking down or bleaching lignin, lignin-containing materials or similar substances.
  • the Mg ions can be used, for example, as a salt, such as MgSO 4 .
  • the concentration is in the range of 0.1-2 mg / g of material containing lignin, preferably 0.2-0.6 mg / g.
  • a further increase in the effectiveness of the multicomponent system according to the invention can be achieved in that the multicomponent system in addition to the Mg ions also complexing agents such as e.g. Contains ethylenediaminetetraacetic acid (EDTA), diethylenetriaminepentaacetic acid (DTPA), hydroxyethylenediaminetriacetic acid (HEDTA), diethylenetriaminepentamethylenephosphonic acid (DTMPA), nitrilotriacetic acid (NTA), polyphosphoric acid (PPA) etc.
  • the concentration is in the range of 0.2-5 mg / g of lignin-containing material, preferably 1-3 mg.
  • a process using the multicomponent system according to the invention is preferably carried out in the presence of oxygen or air at atmospheric pressure up to 10 bar and in a pH range from 2 to 11, at a temperature from 20 to 95 ° C., preferably 40-95 ° C. and a consistency of 0.5 to 40%.
  • a finding that is unusual and surprising for the use of enzymes in pulp bleaching is that when the multicomponent system according to the invention is used, increasing the consistency enables a significant increase in the kappa reduction.
  • a process according to the invention is preferably carried out at consistencies of 8 to 35%, particularly preferably 9 to 15%.
  • the substances used for this purpose are used as chelating agents in the Q stage. They are preferably used in concentrations of 0.1% to 1% (w / w based on dry cellulose), particularly preferably 0.1% to 0.5% (w / w based on dry cellulose).
  • preferably 0.01 to 100,000 IU enzyme per g lignin-containing material are used.
  • 0.1 to 100 IU of enzyme per g of lignin-containing material are particularly preferably used (1 U corresponds to the conversion of 1 ⁇ mol
  • ABTS 2,2'-Azino-bis (3-ethyl-benzothiazoline-6-sulfonic acid diammonium salt)
  • ABTS 2,2'-Azino-bis (3-ethyl-benzothiazoline-6-sulfonic acid diammonium salt)
  • ABTS 2,2'-Azino-bis (3-ethyl-benzothiazoline-6-sulfonic acid diammonium salt)
  • 0.5 to 80 mg of mediator per g of lignin-containing material is preferably used.
  • 0.5 to 40 mg of mediator per g of lignin-containing material is particularly preferably used.
  • reducing agents can be added which, together with the oxidizing agents present, serve to set a certain redox potential.
  • Sodium bisulfite, sodium dithionite, ascorbic acid, thio compounds, mercapto compounds or glutathione etc. can be used as reducing agents.
  • the reaction takes place with air or oxygen supply or oxygen or air overpressure, with the peroxidases (e.g. lignin peroxidases, manganese peroxidases) with hydrogen peroxide.
  • the peroxidases e.g. lignin peroxidases, manganese peroxidases
  • the oxygen can also be generated in situ by hydrogen peroxide + catalase and hydrogen peroxide by glucose + GOD or other systems.
  • radical formers or radical scavengers can be added to the system. These can improve the interaction within the Red / Ox and radical mediators.
  • the salts form cations in the reaction solution.
  • Such ions include Fe, Fe 3+ 'Mn 2+ , Mn 3+ , Mn 4+ , Cu 2+ , Ca 2+ , Ti 3+ , Cer 4+ , Al 3+ .
  • the chelates present in the solution can also serve as mimic substances for the enzymes, for example for the laccases (copper complexes) or for the lignin or manganese peroxidases (ham complexes).
  • Mimic substances are substances that simulate the prosthetic groups of (here) oxidoreductases and can, for example, catalyze oxidation reactions.
  • NaOCl can also be added to the reaction mixture. In combination with hydrogen peroxide, this compound can form singlet oxygen.
  • Non-ionic, anionic, cationic and amphoteric surfactants are suitable as such.
  • the detergents can improve the penetration of the enzymes and mediators into the fiber.
  • Glucans, mannans, dextrans, levans, pectins, alginates or plant gums and / or proprietary polysaccharides formed by the fungi or produced in the mixed culture with yeasts are to be mentioned here in particular as polysaccharides and gelatin and albumin as proteins.
  • proteases such as pepsin, bromelin, papain, etc. These can include serve to achieve better access to lignin by breaking down the extensin C present in the wood, a protein rich in hydroxyproline.
  • protective colloids are amino acids, simple sugar, oligomer sugar, and PEG types of the most varied Molecular weights, polyethylene oxides, polyethyleneimines and polydimethylsiloxanes in question.
  • the method according to the invention can be used not only in the delignification (bleaching) of sulfate, sulfite, organosol, etc.
  • Cellulose and wood pulp are used, but also in the production of cellulose in general, whether from wood or annual plants, if defibrillation by the usual cooking methods (possibly connected with mechanical processes or pressure) i.e. a very gentle cooking up to kappa numbers, which can be in the range of approx. 50 - 120 kappa, is guaranteed.
  • the treatment can be repeated several times, either after washing and extraction of the treated material with NaOH or without these intermediate steps. This leads to kappa values which can be reduced still further and to substantial increases in whiteness.
  • a 0 2 stage can be used before the enzyme / mediator treatment or, as already mentioned, a clean wash or Q stage (chelate stage) can be carried out.
  • Solutions A and B are added together and made up to 33 ml. After adding the pulp, mix with a dough kneader for 2 min.
  • the substance is then placed in a reaction bomb preheated to 45 ° C. and incubated under 1-10 bar oxygen pressure for 1-4 hours.
  • the material is then washed over a nylon sieve (30 ⁇ m) and extracted for 1 hour at 60 ° C., 2% consistency and 8% NaOH per g of pulp.
  • the material is then washed over a nylon sieve (30 ⁇ m) and extracted for 1 hour at 60 ° C., 2% consistency and 8% NaOH per g of pulp.
  • Solutions A and B are added together and made up to 33 ml. After adding the pulp, mix with a dough kneader for 2 min.
  • the material is then washed over a nylon sieve (30 ⁇ m) and extracted for 1 hour at 60 ° C., 2% consistency and 8% NaOH per g of pulp.
  • Solutions A and B are added together and made up to 33 ml. After adding the pulp, mix with a dough kneader for 2 min. The substance is then placed in a reaction bomb preheated to 45 ° C. and incubated under 1-10 bar oxygen pressure for 1-4 hours.
  • the material is then washed over a nylon sieve (30 ⁇ m) and extracted for 1 hour at 60 ° C., 2% consistency and 8% NaOH per g of pulp.
  • Results Examples 1 to 7 Enzyme dosage in each case 15 U / g of pulp, incubation time in each case 2 h.

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  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Biochemistry (AREA)
  • Microbiology (AREA)
  • Engineering & Computer Science (AREA)
  • Wood Science & Technology (AREA)
  • Paper (AREA)
  • Detergent Compositions (AREA)
  • Compounds Of Unknown Constitution (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)
EP97952038A 1996-12-09 1997-12-05 Systeme a composants multiples pour modifier, decomposer ou blanchir la lignine ou des materiaux qui contiennent de la lignine, et son procede d'utilisation Expired - Lifetime EP0943032B1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE19651099 1996-12-09
DE19651099A DE19651099A1 (de) 1996-12-09 1996-12-09 Mehrkomponentensystem zum Verändern, Abbau oder Bleichen von Lignin, ligninhaltigen Materialien oder ähnlichen Stoffen sowie Verfahren zu seiner Anwendung
PCT/EP1997/006802 WO1998026127A1 (fr) 1996-12-09 1997-12-05 Systeme a composants multiples pour modifier, decomposer ou blanchir la lignine, des materiaux qui contiennent de la lignine ou des substances similaires, et son procede d'utilisation

Publications (2)

Publication Number Publication Date
EP0943032A1 true EP0943032A1 (fr) 1999-09-22
EP0943032B1 EP0943032B1 (fr) 2000-09-13

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ID=7814116

Family Applications (1)

Application Number Title Priority Date Filing Date
EP97952038A Expired - Lifetime EP0943032B1 (fr) 1996-12-09 1997-12-05 Systeme a composants multiples pour modifier, decomposer ou blanchir la lignine ou des materiaux qui contiennent de la lignine, et son procede d'utilisation

Country Status (12)

Country Link
EP (1) EP0943032B1 (fr)
JP (1) JP2000505844A (fr)
CN (1) CN1240008A (fr)
AT (1) ATE196331T1 (fr)
AU (1) AU719140B2 (fr)
BR (1) BR9714387A (fr)
CA (1) CA2271937A1 (fr)
DE (2) DE19651099A1 (fr)
ES (1) ES2150797T3 (fr)
PT (1) PT943032E (fr)
RU (1) RU2154704C1 (fr)
WO (1) WO1998026127A1 (fr)

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PT943032E (pt) 2000-12-29
DE19651099A1 (de) 1998-06-10
JP2000505844A (ja) 2000-05-16
EP0943032B1 (fr) 2000-09-13
RU2154704C1 (ru) 2000-08-20
WO1998026127A1 (fr) 1998-06-18
CN1240008A (zh) 1999-12-29
BR9714387A (pt) 2000-05-16
CA2271937A1 (fr) 1998-06-18
ES2150797T3 (es) 2000-12-01
ATE196331T1 (de) 2000-09-15
AU719140B2 (en) 2000-05-04
AU5560398A (en) 1998-07-03
DE59702358D1 (de) 2000-10-19

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