Skip to main content Skip to footer
HomeHome
 
  • Startseite
  • Patentrecherche

    Patentwissen

    Unsere Patentdatenbanken und Recherchetools

    Zur Übersicht 

    • Übersicht
    • Technische Information
      • Übersicht
      • Espacenet - Patentsuche
      • Europäischer Publikationsserver
      • EP-Volltextrecherche
    • Rechtliche Information
      • Übersicht
      • Europäisches Patentregister
      • Europäisches Patentblatt
      • European Case Law Identifier Sitemap
      • Einwendungen Dritter
    • Geschäftsinformationen
      • Übersicht
      • PATSTAT
      • IPscore
      • Technologieanalyseberichte
    • Daten
      • Übersicht
      • Technology Intelligence Platform
      • Linked open EP data
      • Massendatensätze
      • Web-Dienste
      • Datenbestände, Codes und Statistiken
    • Technologieplattformen
      • Übersicht
      • Kunststoffe im Wandel
      • Innovationen im Wassersektor
      • Innovationen im Weltraumsektor
      • Technologien zur Bekämpfung von Krebs
      • Technologien zur Brandbekämpfung
      • Saubere Energietechnologien
      • Kampf gegen Corona
    • Nützliche Informationsquellen
      • Übersicht
      • Zum ersten Mal hier? Was ist Patentinformation?
      • Patentinformation aus Asien
      • Patentinformationszentren (PATLIB)
      • Patent Translate
      • Patent Knowledge News
      • Wirtschaft und Statistik
      • Patentinformationen rund um den einheitlichen Patentschutz
    Bild
    Plastics in Transition

    Technologieanalysebericht zur Plastikabfallwirtschaft

  • Anmelden eines Patents

    Anmelden eines Patents

    Praktische Informationen über Anmelde- und Erteilungsverfahren.

    Zur Übersicht 

    • Übersicht
    • Europäischer Weg
      • Übersicht
      • Leitfaden zum europäischen Patent
      • Einsprüche
      • Mündliche Verhandlung
      • Beschwerden
      • Einheitspatent & Einheitliches Patentgericht
      • Nationale Validierung
      • Antrag auf Erstreckung/Validierung
    • Internationaler Weg (PCT)
      • Übersicht
      • Euro-PCT-Leitfaden: PCT-Verfahren im EPA
      • Beschlüsse und Mitteilungen des EPA
      • PCT-Bestimmungen und Informationsquellen
      • Erstreckungs-/Validierungsantrag
      • Programm für verstärkte Partnerschaft
      • Beschleunigung Ihrer PCT-Anmeldung
      • Patent Prosecution Highway (PPH)
      • Schulungen und Veranstaltungen
    • Nationale Anmeldungen
    • Zugelassenen Vertreter suchen
    • MyEPO Services
      • Übersicht
      • Unsere Dienste verstehen
      • Zugriff erhalten
      • Bei uns einreichen
      • Akten interaktiv bearbeiten
      • Verfügbarkeit der Online-Dienste
    • Formblätter
      • Übersicht
      • Prüfungsantrag
    • Gebühren
      • Übersicht
      • Europäische Gebühren (EPÜ)
      • Internationale Gebühren (PCT)
      • Einheitspatentgebühren (UP)
      • Gebührenzahlung und Rückerstattung
      • Warnung

    UP

    Erfahren Sie, wie das Einheitspatent Ihre IP-Strategie verbessern kann

  • Recht & Praxis

    Recht & Praxis

    Europäisches Patentrecht, Amtsblatt und andere Rechtstexte

    Zur Übersicht 

    • Übersicht
    • Rechtstexte
      • Übersicht
      • Europäisches Patentübereinkommen
      • Amtsblatt
      • Richtlinien
      • Erstreckungs-/ Validierungssyste
      • Londoner Übereinkommen
      • Nationales Recht zum EPÜ
      • Système du brevet unitaire
      • Nationale Maßnahmen zum Einheitspatent
    • Gerichtspraxis
      • Übersicht
      • Symposium europäischer Patentrichter
    • Nutzerbefragungen
      • Übersicht
      • Laufende Befragungen
      • Abgeschlossene Befragungen
    • Harmonisierung des materiellen Patentrechts
      • Übersicht
      • The Tegernsee process
      • Gruppe B+
    • Konvergenz der Verfahren
    • Optionen für zugelassene Vertreter
    Bild
    Law and practice scales 720x237

    Informieren Sie sich über die wichtigsten Aspekte ausgewählter BK-Entscheidungen in unseren monatlichen „Abstracts of decisions“

  • Neues & Veranstaltungen

    Neues & Veranstaltungen

    Aktuelle Neuigkeiten, Podcasts und Veranstaltungen.

    Zur Übersicht 

     

    • Übersicht
    • News
    • Veranstaltungen
    • Europäischer Erfinderpreis
      • Übersicht
      • Die bedeutung von morgen
      • Über den Preis
      • Kategorien und Preise
      • Lernen Sie die Finalisten kennen
      • Nominierungen
      • European Inventor Network
      • Preisverleihung 2024
    • Young Inventor Prize
      • Übersicht
      • Über den Preis
      • Nominierungen
      • Die jury
      • Die Welt, neu gedacht
    • Pressezentrum
      • Übersicht
      • Patent Index und Statistiken
      • Pressezentrum durchsuchen
      • Hintergrundinformation
      • Copyright
      • Pressekontakt
      • Rückruf Formular
      • Presseinfos per Mail
    • Innovation und Patente im Blickpunkt
      • Übersicht
      • Water-related technologies
      • CodeFest
      • Green tech in focus
      • Forschungseinrichtungen
      • Women inventors
      • Lifestyle
      • Raumfahrt und Satelliten
      • Zukunft der Medizin
      • Werkstoffkunde
      • Mobile Kommunikation: Das große Geschäft mit kleinen Geräten
      • Biotechnologiepatente
      • Patentklassifikation
      • Digitale Technologien
      • Die Zukunft der Fertigung
      • Books by EPO experts
    • Podcast "Talk innovation"

    Podcast

    Von der Idee zur Erfindung: unser Podcast informiert Sie topaktuell in Sachen Technik und IP

  • Lernen

    Lernen

    Europäische Patentakademie – unser Kursportal für Ihre Fortbildung

    Zur Übersicht 

    • Übersicht
    • Schulungsaktivitäten und Lernpfade
      • Übersicht
      • Schulungsaktivitäten
      • Lernpfade
    • EEP und EPVZ
      • Übersicht
      • EEP – Europäische Eignungsprüfung
      • EPVZ – Europäisches Patentverwaltungszertifikat
      • CSP – Programm zur Unterstützung von Bewerbern
    • Lernmaterial nach Interesse
      • Übersicht
      • Patenterteilung
      • Technologietransfer und -verbreitung
      • Durchsetzung
    • Lernmaterial nach Profil
      • Übersicht
      • Geschäftswelt und IP
      • EEP und EPVZ Bewerber
      • Justiz
      • Nationale Ämter und IP-Behörden
      • Patentanwaltskanzleien
      • Lehre und Forschung
    Bild
    Patent Academy catalogue

    Werfen Sie einen Blick auf das umfangreiche Lernangebot im Schulungskatalog der Europäischen Patentakademie

  • Über uns

    Über uns

    Erfahren Sie mehr über Tätigkeit, Werte, Geschichte und Vision des EPA

    Zur Übersicht 

    • Übersicht
    • Das EPA auf einen Blick
    • 50 Jahre Europäisches Patentübereinkommen
      • Übersicht
      • Official celebrations
      • Member states’ video statements
      • 50 Leading Tech Voices
      • Athens Marathon
      • Kinderwettbewerb für kollektive Kunst
    • Rechtsgrundlagen und Mitgliedstaaten
      • Übersicht
      • Rechtsgrundlagen
      • Mitgliedstaaten der Europäischen Patentorganisation
      • Erstreckungsstaaten
      • Validierungsstaaten
    • Verwaltungsrat und nachgeordnete Organe
      • Übersicht
      • Kommuniqués
      • Kalender
      • Dokumente und Veröffentlichungen
      • Der Verwaltungsrat der Europäischen Patentorganisation
    • Unsere Grundsätze und Strategie
      • Übersicht
      • Auftrag, Vision und Werte
      • Strategischer Plan 2028
      • Auf dem Weg zu einer neuen Normalität
    • Führung und Management
      • Übersicht
      • Präsident António Campinos
      • Managementberatungsausschuss
    • Sustainability at the EPO
      • Übersicht
      • Environmental
      • Social
      • Governance and Financial sustainability
    • Dienste & Aktivitäten
      • Übersicht
      • Unsere Dienste & Struktur
      • Qualität
      • Nutzerkonsultation
      • Europäische und internationale Zusammenarbeit
      • Europäische Patentakademie
      • Chefökonom
      • Ombudsstelle
      • Meldung von Fehlverhalten
    • Beobachtungsstelle für Patente und Technologie
      • Übersicht
      • Akteure im Innovationsbereich
      • Politisches Umfeld und Finanzierung
      • Tools
      • Über die Beobachtungsstelle
    • Beschaffung
      • Übersicht
      • Beschaffungsprognose
      • Das EPA als Geschäftspartner
      • Beschaffungsverfahren
      • Nachhaltiger Beschaffungsstandard
      • Registrierung zum eTendering und elektronische Signaturen
      • Beschaffungsportal
      • Rechnungsstellung
      • Allgemeine Bedingungen
      • Archivierte Ausschreibungen
    • Transparenzportal
      • Übersicht
      • Allgemein
      • Humankapital
      • Umweltkapital
      • Organisationskapital
      • Sozial- und Beziehungskapital
      • Wirtschaftskapital
      • Governance
    • Statistics and trends
      • Übersicht
      • Statistics & Trends Centre
      • Patent Index 2024
      • EPO Data Hub
      • Clarification on data sources
    • Die Geschichte des EPA
      • Übersicht
      • 1970er-Jahre
      • 1980er-Jahre
      • 1990er-Jahre
      • 2000er-Jahre
      • 2010er-Jahre
      • 2020er Jahre
    • Die EPA Kunstsammlung
      • Übersicht
      • Die Sammlung
      • Let's talk about art
      • Künstler
      • Mediathek
      • What's on
      • Publikationen
      • Kontakt
      • Kulturraum A&T 5-10
      • "Lange Nacht"
    Bild
    Patent Index 2024 keyvisual showing brightly lit up data chip, tinted in purple, bright blue

    Verfolgen Sie die neuesten Technologietrends mit unserem Patentindex

 
Website
cancel
en de fr
  • Language selection
  • English
  • Deutsch
  • Français
Main navigation
  • Homepage
    • Go back
    • Sind Patente Neuland für Sie?
  • Sind Patente Neuland für Sie?
    • Go back
    • Patente für Ihr Unternehmen?
    • Warum ein Patent?
    • Was ist Ihre zündende Idee?
    • Sind Sie bereit?
    • Darum geht es
    • Der Weg zum Patent
    • Ist es patentierbar?
    • Ist Ihnen jemand zuvorgekommen?
    • Patentquiz
    • Video zum Einheitspatent
  • Patentrecherche
    • Go back
    • Übersicht
    • Technische Information
      • Go back
      • Übersicht
      • Espacenet - Patentsuche
        • Go back
        • Übersicht
        • Datenbanken der nationalen Ämter
        • Global Patent Index (GPI)
        • Versionshinweise
      • Europäischer Publikationsserver
        • Go back
        • Übersicht
        • Versionshinweise
        • Konkordanzliste für Euro-PCT-Anmeldungen
        • EP-Normdatei
        • Hilfe
      • EP-Volltextrecherche
    • Rechtliche Information
      • Go back
      • Übersicht
      • Europäisches Patentregister
        • Go back
        • Übersicht
        • Versionshinweise: Archiv
        • Dokumentation zu Register
          • Go back
          • Übersicht
          • Datenverfügbarkeit für Deep Links
          • Vereinigtes Register
          • Ereignisse im Register
      • Europäisches Patentblatt
        • Go back
        • Übersicht
        • Patentblatt herunterladen
        • Recherche im Europäischen Patentblatt
        • Hilfe
      • European Case Law Identifier Sitemap
      • Einwendungen Dritter
    • Geschäftsinformationen
      • Go back
      • Übersicht
      • PATSTAT
      • IPscore
        • Go back
        • Versionshinweise
      • Technologieanalyseberichte
    • Daten
      • Go back
      • Übersicht
      • Technology Intelligence Platform
      • Linked open EP data
      • Massendatensätze
        • Go back
        • Übersicht
        • Manuals
        • Sequenzprotokolle
        • Nationale Volltextdaten
        • Daten des Europäischen Patentregisters
        • Weltweite bibliografische Daten des EPA (DOCDB)
        • EP-Volltextdaten
        • Weltweite Rechtsereignisdaten des EPA (INPADOC)
        • Bibliografische Daten von EP-Dokumenten (EBD)
        • Entscheidungen der Beschwerdekammern des EPA
      • Web-Dienste
        • Go back
        • Übersicht
        • Open Patent Services (OPS)
        • Europäischer Publikationsserver (Web-Dienst)
      • Datenbestände, Codes und Statistiken
        • Go back
        • Wöchentliche Aktualisierungen
        • Regelmäßige Aktualisierungen
    • Technologieplattformen
      • Go back
      • Kunststoffe im Wandel
        • Go back
        • Overview
        • Verwertung von Plastikabfällen
        • Recycling von Plastikabfällen
        • Alternative Kunststoffe
      • Übersicht
      • Innovative Wassertechnologien
        • Go back
        • Overview
        • Sauberes Wasser
        • Schutz vor Wasser
      • Innovationen im Weltraumsektor
        • Go back
        • Übersicht
        • Kosmonautik
        • Weltraumbeobachtung
      • Technologien zur Bekämpfung von Krebs
        • Go back
        • Übersicht
        • Prävention und Früherkennung
        • Diagnostik
        • Therapien
        • Wohlergehen und Nachsorge
      • Technologien zur Brandbekämpfung
        • Go back
        • Übersicht
        • Branderkennung und -verhütung
        • Feuerlöschen
        • Schutzausrüstung
        • Technologien für die Sanierung nach Bränden
      • Saubere Energietechnologien
        • Go back
        • Übersicht
        • Erneuerbare Energien
        • CO2-intensive Industrien
        • Energiespeicherung und andere Enabling-Technologien
      • Kampf gegen Corona
        • Go back
        • Übersicht
        • Impfstoffe und Therapeutika
          • Go back
          • Übersicht
          • Impfstoffe
          • Übersicht über Therapieansätze für COVID-19
          • Kandidaten für antivirale Therapeutika
          • Nukleinsäuren zur Behandlung von Coronavirus-Infektionen
        • Diagnose und Analyse
          • Go back
          • Übersicht
          • Protein-und Nukleinsäure-Nachweis
          • Analyseprotokolle
        • Informatik
          • Go back
          • Übersicht
          • Bioinformatik
          • Medizinische Informatik
        • Technologien für die neue Normalität
          • Go back
          • Übersicht
          • Geräte, Materialien und Ausrüstung
          • Verfahren, Maßnahmen und Aktivitäten
          • Digitale Technologien
        • Erfinderinnen und Erfinder gegen das Coronavirus
    • Nützliche Informationsquellen
      • Go back
      • Übersicht
      • Zum ersten Mal hier? Was ist Patentinformation?
        • Go back
        • Übersicht
        • Grundlegende Definitionen
        • Patentklassifikation
          • Go back
          • Übersicht
          • Gemeinsame Patentklassifikation
        • Patentfamilien
          • Go back
          • Übersicht
          • Einfache DOCDB Patentfamilie
          • Erweiterte INPADOC Patentfamilie
        • Daten zu Rechtsstandsereignissen
          • Go back
          • Übersicht
          • INPADOC-Klassifikationssystem
      • Patentinformation aus Asien
        • Go back
        • Übersicht
        • China (CN)
          • Go back
          • Übersicht
          • Facts and figures
          • Grant procedure
          • Numbering system
          • Useful terms
          • Searching in databases
        • Chinesisch-Taipei (TW)
          • Go back
          • Übersicht
          • Grant procedure
          • Numbering system
          • Useful terms
          • Searching in databases
        • Indien (IN)
          • Go back
          • Übersicht
          • Facts and figures
          • Grant procedure
          • Numbering system
        • Japan (JP)
          • Go back
          • Übersicht
          • Facts and figures
          • Grant procedure
          • Numbering system
          • Useful terms
          • Searching in databases
        • Korea (KR)
          • Go back
          • Übersicht
          • Facts and figures
          • Grant procedure
          • Numbering system
          • Useful terms
          • Searching in databases
        • Russische Föderation (RU)
          • Go back
          • Übersicht
          • Facts and figures
          • Numbering system
          • Searching in databases
        • Useful links
      • Patentinformationszentren (PATLIB)
      • Patent Translate
      • Patent Knowledge News
      • Wirtschaft und Statistik
      • Patentinformationen rund um den einheitlichen Patentschutz
  • Anmelden eines Patents
    • Go back
    • Übersicht
    • Europäischer Weg
      • Go back
      • Übersicht
      • Leitfaden zum europäischen Patent
      • Einsprüche
      • Mündliche Verhandlung
        • Go back
        • Kalender der mündlichen Verhandlungen
          • Go back
          • Kalender der mündlichen Verhandlungen
          • Technische Richtlinien
          • Zugang für die Öffentlichkeit zum Beschwerdeverfahren
          • Zugang für die Öffentlichkeit zum Einspruchsverfahren
      • Beschwerden
      • Einheitspatent & Einheitliches Patentgericht
        • Go back
        • Einheitspatent
          • Go back
          • Übersicht
          • Rechtlicher Rahmen
          • Wesentliche Merkmale
          • Beantragung eines Einheitspatents
          • Kosten eines Einheitspatents
          • Übersetzungsregelungen und Kompensationssystem
          • Starttermin
          • Introductory brochures
        • Übersicht
        • Einheitliches Patentgericht
      • Nationale Validierung
      • Erstreckungs- /Validierungsantrag
    • Internationaler Weg
      • Go back
      • Übersicht
      • Euro-PCT-Leitfaden
      • Eintritt in die europäische Phase
      • Beschlüsse und Mitteilungen
      • PCT-Bestimmungen und Informationsquellen
      • Erstreckungs-/Validierungsantrag
      • Programm für verstärkte Partnerschaft
      • Beschleunigung Ihrer PCT-Anmeldung
      • Patent Prosecution Highway (PPH)
        • Go back
        • Programm "Patent Prosecution Highway" (PPH) - Übersicht
      • PCT: Schulungen und Veranstaltungen
    • Nationaler Weg
    • MyEPO Services
      • Go back
      • Übersicht
      • Unsere Dienste verstehen
        • Go back
        • Übersicht
        • Exchange data with us using an API
          • Go back
          • Versionshinweise
      • Zugriff erhalten
        • Go back
        • Übersicht
        • Versionshinweise
      • Bei uns einreichen
        • Go back
        • Bei uns einreichen
        • Wenn unsere Dienste für die Online-Einreichung ausfallen
        • Versionshinweise
      • Akten interaktiv bearbeiten
        • Go back
        • Versionshinweise
      • Verfügbarkeit der Online-Dienste
    • Gebühren
      • Go back
      • Übersicht
      • Europäische Gebühren (EPÜ)
        • Go back
        • Übersicht
        • Beschlüsse und Mitteilungen
      • Internationale Gebühren (PCT)
        • Go back
        • Ermäßigung der Gebühren
        • Gebühren für internationale Anmeldungen
        • Beschlüsse und Mitteilungen
        • Übersicht
      • Einheitspatentgebühren (UP)
        • Go back
        • Übersicht
        • Beschlüsse und Mitteilungen
      • Gebührenzahlung und Rückerstattung
        • Go back
        • Übersicht
        • Zahlungsarten
        • Erste Schritte
        • FAQs und sonstige Anleitungen
        • Technische Informationen für Sammelzahlungen
        • Beschlüsse und Mitteilungen
        • Versionshinweise
      • Warnung
    • Formblätter
      • Go back
      • Prüfungsantrag
      • Übersicht
    • Zugelassenen Vertreter suchen
  • Recht & Praxis
    • Go back
    • Übersicht
    • Rechtstexte
      • Go back
      • Übersicht
      • Europäisches Patentübereinkommen
        • Go back
        • Übersicht
        • Archiv
          • Go back
          • Übersicht
          • Dokumentation zur EPÜ-Revision 2000
            • Go back
            • Übersicht
            • Diplomatische Konferenz für die Revision des EPÜ
            • "Travaux préparatoires" (Vorarbeiten)
            • Neufassung
            • Übergangsbestimmungen
            • Ausführungsordnung zum EPÜ 2000
            • Gebührenordnung
            • Ratifikationen und Beitritte
          • Travaux Préparatoires EPÜ 1973
      • Amtsblatt
      • Richtlinien
        • Go back
        • Übersicht
        • EPÜ Richtlinien
        • PCT-EPA Richtlinien
        • Richtlinien für das Einheitspatent
        • Überarbeitung der Richtlinien
        • Ergebnisse der Konsultation
        • Zusammenfassung der Nutzerbeiträge
        • Archiv
      • Erstreckungs-/Validierungssystem
      • Londoner Übereinkommen
      • Nationales Recht zum EPÜ
        • Go back
        • Übersicht
        • Archiv
      • Einheitspatentsystem
        • Go back
        • Travaux préparatoires to UP and UPC
      • Nationale Maßnahmen zum Einheitspatent
    • Gerichtspraxis
      • Go back
      • Übersicht
      • Symposium europäischer Patentrichter
    • Nutzerbefragungen
      • Go back
      • Übersicht
      • Laufende Befragungen
      • Abgeschlossene Befragungen
    • Harmonisierung des materiellen Patentrechts
      • Go back
      • Übersicht
      • The Tegernsee process
      • Gruppe B+
    • Konvergenz der Verfahren
    • Optionen für zugelassene Vertreter
  • Neues & Veranstaltungen
    • Go back
    • Übersicht
    • News
    • Veranstaltungen
    • Europäischer Erfinderpreis
      • Go back
      • The meaning of tomorrow
      • Übersicht
      • Über den Preis
      • Kategorien und Preise
      • Lernen Sie die Erfinder kennen
      • Nominierungen
      • European Inventor Network
        • Go back
        • 2024 activities
        • 2025 activities
        • Rules and criteria
        • FAQ
      • Preisverleihung 2024
    • Young Inventors Prize
      • Go back
      • Übersicht
      • Über den Preis
      • Nominierungen
      • Die Jury
      • Die Welt, neu gedacht
      • Preisverleihung 2025
    • Pressezentrum
      • Go back
      • Übersicht
      • Patent Index und Statistiken
      • Pressezentrum durchsuchen
      • Hintergrundinformation
        • Go back
        • Übersicht
        • Europäisches Patentamt
        • Fragen und Antworten zu Patenten im Zusammenhang mit dem Coronavirus
        • Fragen und Antworten zu Pflanzenpatenten
      • Copyright
      • Pressekontakt
      • Rückruf Formular
      • Presseinfos per Mail
    • Im Blickpunkt
      • Go back
      • Übersicht
      • Wasserbezogene Technologien
      • CodeFest
        • Go back
        • CodeFest Spring 2025 on classifying patent data for sustainable development
        • Übersicht
        • CodeFest 2024 zu generativer KI
        • Codefest 2023 zu grünen Kunststoffen
      • Green tech in focus
        • Go back
        • Übersicht
        • About green tech
        • Renewable energies
        • Energy transition technologies
        • Building a greener future
      • Forschungseinrichtungen
      • Women inventors
      • Lifestyle
      • Raumfahrt und Satelliten
        • Go back
        • Weltraumtechnologie und Patente
        • Übersicht
      • Gesundheit
        • Go back
        • Übersicht
        • Medizintechnik und Krebs
        • Personalised medicine
      • Werkstoffkunde
        • Go back
        • Übersicht
        • Nanotechnologie
      • Mobile Kommunikation
      • Biotechnologie
        • Go back
        • Rot, weiß oder grün
        • Übersicht
        • Die Rolle des EPA
        • Was ist patentierbar?
        • Biotechnologische Erfindungen und ihre Erfinder
      • Patentklassifikation
        • Go back
        • Übersicht
        • Nanotechnology
        • Climate change mitigation technologies
          • Go back
          • Übersicht
          • External partners
          • Updates on Y02 and Y04S
      • Digitale Technologien
        • Go back
        • Übersicht
        • Über IKT
        • Hardware und Software
        • Künstliche Intelligenz
        • Vierte Industrielle Revolution
      • Additive Fertigung
        • Go back
        • Übersicht
        • Die additive Fertigung
        • Innovation durch AM
      • Books by EPO experts
    • Podcast
  • Lernen
    • Go back
    • Übersicht
    • Schulungsaktivitäten und Lernpfade
      • Go back
      • Übersicht
      • Schulungsaktivitäten: Arten und Formate
      • Lernpfade
    • EEP und EPVZ
      • Go back
      • Übersicht
      • EEP – Europäische Eignungsprüfung
        • Go back
        • Übersicht
        • Compendium
          • Go back
          • Übersicht
          • Aufgabe F
          • Aufgabe A
          • Aufgabe B
          • Aufgabe C
          • Aufgabe D
          • Vorprüfung
        • Erfolgreiche Bewerber
        • Archiv
      • EPVZ – Europäisches Patentverwaltungszertifikat
      • CSP – Programm zur Unterstützung von Bewerbern
    • Angebot für bestimmte Interessengebiete
      • Go back
      • Übersicht
      • Patenterteilung
      • Technologietransfer und -verbreitung
      • Patentdurchsetzung und Streitregelung
    • Angebot für bestimmte Zielgruppen
      • Go back
      • Übersicht
      • Geschäftswelt und IP
        • Go back
        • Übersicht
        • Innovation case studies
          • Go back
          • Overview
          • SME case studies
          • Fallstudien zum Technologietransfer
          • Fallstudien zu wachstumsstarken Technologien
        • Inventor's handbook
          • Go back
          • Übersicht
          • Introduction
          • Disclosure and confidentiality
          • Novelty and prior art
          • Competition and market potential
          • Assessing the risk ahead
          • Proving the invention
          • Protecting your idea
          • Building a team and seeking funding
          • Business planning
          • Finding and approaching companies
          • Dealing with companies
        • Best of search matters
          • Go back
          • Übersicht
          • Tools and databases
          • EPO procedures and initiatives
          • Search strategies
          • Challenges and specific topics
        • Support for high-growth technology businesses
          • Go back
          • Übersicht
          • Business decision-makers
          • IP professionals
          • Stakeholders of the Innovation Ecosystem
      • EEP und EPVZ Bewerber
        • Go back
        • Übersicht
        • Denkaufgaben zu Aufgabe F
        • Tägliche Fragen zur Aufgabe D
        • Europäische Eignungsprüfung - Leitfaden zur Vorbereitung
        • EPVZ
      • Richter, Anwälte und Staatsanwälte
        • Go back
        • Übersicht
        • Compulsory licensing in Europe
        • Die Zuständigkeit europäischer Gerichte bei Patentstreitigkeiten
      • Nationale Ämter und IP-Behörden
        • Go back
        • Übersicht
        • Lernpfad für Patentprüfer der nationalen Ämter
        • Lernpfad für Formalsachbearbeiter und Paralegals
      • Patentanwaltskanzleien
      • Hochschulen, Forschungseinrichtungen und Technologietransferstellen
        • Go back
        • Übersicht
        • Modularer IP-Ausbildungsrahmen (MIPEF)
        • Programm "Pan-European-Seal für junge Fachkräfte"
          • Go back
          • Übersicht
          • Für Studierende
          • Für Hochschulen
            • Go back
            • Übersicht
            • IP-Schulungsressourcen
            • Hochschulmitgliedschaften
          • Unsere jungen Fachkräfte
          • Beruflicher Entwicklungsplan
        • Akademisches Forschungsprogramm (ARP)
          • Go back
          • Übersicht
          • Abgeschlossene Forschungsprojekte
          • Laufende Forschungsprojekte
        • IP Teaching Kit
          • Go back
          • Übersicht
          • Download modules
        • Handbuch für die Gestaltung von IP-Kursen
        • PATLIB Wissenstransfer nach Afrika
          • Go back
          • Die PATLIB-Initiative "Wissenstransfer nach Afrika" (KT2A)
          • KT2A-Kernaktivitäten
          • Erfolgsgeschichte einer KT2A-Partnerschaft: PATLIB Birmingham und Malawi University of Science and Technology
  • Über uns
    • Go back
    • Übersicht
    • Das EPA auf einen Blick
    • 50 Jahre EPÜ
      • Go back
      • Official celebrations
      • Übersicht
      • Member states’ video statements
        • Go back
        • Albania
        • Austria
        • Belgium
        • Bulgaria
        • Croatia
        • Cyprus
        • Czech Republic
        • Denmark
        • Estonia
        • Finland
        • France
        • Germany
        • Greece
        • Hungary
        • Iceland
        • Ireland
        • Italy
        • Latvia
        • Liechtenstein
        • Lithuania
        • Luxembourg
        • Malta
        • Monaco
        • Montenegro
        • Netherlands
        • North Macedonia
        • Norway
        • Poland
        • Portugal
        • Romania
        • San Marino
        • Serbia
        • Slovakia
        • Slovenia
        • Spain
        • Sweden
        • Switzerland
        • Türkiye
        • United Kingdom
      • 50 Leading Tech Voices
      • Athens Marathon
      • Kinderwettbewerb für kollektive Kunst
    • Rechtsgrundlagen und Mitgliedstaaten
      • Go back
      • Übersicht
      • Rechtsgrundlagen
      • Mitgliedstaaten
        • Go back
        • Übersicht
        • Mitgliedstaaten sortiert nach Beitrittsdatum
      • Erstreckungsstaaten
      • Validierungsstaaten
    • Verwaltungsrat und nachgeordnete Organe
      • Go back
      • Übersicht
      • Kommuniqués
        • Go back
        • 2024
        • Übersicht
        • 2023
        • 2022
        • 2021
        • 2020
        • 2019
        • 2018
        • 2017
        • 2016
        • 2015
        • 2014
        • 2013
      • Kalender
      • Dokumente und Veröffentlichungen
        • Go back
        • Übersicht
        • Dokumente des Engeren Ausschusses
      • Verwaltungsrat
        • Go back
        • Übersicht
        • Zusammensetzung
        • Vertreter
        • Geschäftsordnung
        • Kollegium der Rechnungsprüfer
        • Sekretariat
        • Nachgeordnete Organe
    • Grundsätze
      • Go back
      • Übersicht
      • Auftrag, Vision und Werte
      • Strategieplan 2028
        • Go back
        • Treiber 1: Personal
        • Treiber 2: Technologien
        • Treiber 3: Qualitativ hochwertige Produkte und Dienstleistungen
        • Treiber 4: Partnerschaften
        • Treiber 5: Finanzielle Nachhaltigkeit
      • Auf dem Weg zu einer neuen Normalität
      • Datenschutzerklärung
    • Führung und Management
      • Go back
      • Übersicht
      • Über den Präsidenten
      • Managementberatungsausschuss
    • Nachhaltigkeit beim EPA
      • Go back
      • Overview
      • Umwelt
        • Go back
        • Overview
        • Inspirierende Erfindungen für die Umwelt
      • Soziales
        • Go back
        • Overview
        • Inspirierende soziale Erfindungen
      • Governance und finanzielle Nachhaltigkeit
    • Beschaffung
      • Go back
      • Übersicht
      • Beschaffungsprognose
      • Das EPA als Geschäftspartner
      • Beschaffungsverfahren
      • Veröffentlichungen des Dynamischen Beschaffungssystems
      • Nachhaltiger Beschaffungsstandard
      • Über eTendering
      • Rechnungsstellung
      • Beschaffungsportal
        • Go back
        • Übersicht
        • Elektronische Signatur von Verträgen
      • Allgemeine Bedingungen
      • Archivierte Ausschreibungen
    • Dienste & Aktivitäten
      • Go back
      • Übersicht
      • Unsere Dienste & Struktur
      • Qualität
        • Go back
        • Übersicht
        • Grundlagen
          • Go back
          • Übersicht
          • Europäisches Patentübereinkommen
          • Richtlinien für die Prüfung
          • Unsere Bediensteten
        • Qualität ermöglichen
          • Go back
          • Übersicht
          • Stand der Technik
          • Klassifikationssystem
          • Tools
          • Qualitätssicherung
        • Produkte & Dienstleistungen
          • Go back
          • Übersicht
          • Recherche
          • Prüfung
          • Einspruch
          • Fortlaufende Verbesserung
        • Qualität durch Netzwerke
          • Go back
          • Übersicht
          • Nutzerengagement
          • Zusammenarbeit
          • Befragung zur Nutzerzufriedenheit
          • Stakeholder-Qualitätssicherungspanels
        • Charta für Patentqualität
        • Qualitätsaktionsplan
        • Qualitäts-Dashboard
        • Statistik
          • Go back
          • Übersicht
          • Recherche
          • Prüfung
          • Einspruch
        • Integriertes Management beim EPA
      • Charta unserer Kundenbetreuung
      • Nutzerkonsultation
        • Go back
        • Übersicht
        • Ständiger Beratender Ausschuss beim EPA
          • Go back
          • Übersicht
          • Ziele
          • Der SACEPO und seine Arbeitsgruppen
          • Sitzungen
          • Bereich für Delegierte
        • Befragungen
          • Go back
          • Übersicht
          • Methodik
          • Recherche
          • Sachprüfung, abschließende Aktionen und Veröffentlichung
          • Einspruch
          • Formalprüfung
          • Kundenbetreuung
          • Einreichung
          • Key Account Management (KAM)
          • EPA-Website
          • Archiv
      • Europäische und internationale Zusammenarbeit
        • Go back
        • Übersicht
        • Zusammenarbeit mit den Mitgliedstaaten
          • Go back
          • Übersicht
        • Bilaterale Zusammenarbeit mit Nichtmitgliedstaaten
          • Go back
          • Übersicht
          • Validierungssystem
          • Programm für verstärkte Partnerschaft
        • Internationale Organisationen, Trilaterale und IP5
        • Zusammenarbeit mit internationalen Organisationen außerhalb des IP-Systems
      • Europäische Patentakademie
        • Go back
        • Übersicht
        • Partner
      • Chefökonom
        • Go back
        • Übersicht
        • Wirtschaftliche Studien
      • Ombudsstelle
      • Meldung von Fehlverhalten
    • Beobachtungsstelle für Patente und Technologie
      • Go back
      • Übersicht
      • Innovation gegen Krebs
      • Akteure im Innovationsbereich
        • Go back
        • Übersicht
        • Start-ups und KMU
      • Politisches Umfeld und Finanzierung
        • Go back
        • Übersicht
        • Programm zur Innovationsfinanzierung
          • Go back
          • Übersicht
          • Unsere Studien zur Innovationsfinanzierung
          • EPA-Initiativen für Patentanmelder/innen
          • Programm zur Innovationsfinanzierung
        • Patente und Normen
          • Go back
          • Übersicht
          • Publikationen
          • Patent standards explorer
      • Tools
        • Go back
        • Übersicht
        • Deep Tech Finder
      • Über die Beobachtungsstelle
        • Go back
        • Übersicht
        • Arbeitsplan
    • Transparency portal
      • Go back
      • Übersicht
      • Allgemein
        • Go back
        • Übersicht
        • Annual Review 2023
          • Go back
          • Overview
          • Foreword
          • Executive summary
          • 50 years of the EPC
          • Strategic key performance indicators
          • Goal 1: Engaged and empowered
          • Goal 2: Digital transformation
          • Goal 3: Master quality
          • Goal 4: Partner for positive impact
          • Goal 5: Secure sustainability
        • Annual Review 2022
          • Go back
          • Übersicht
          • Foreword
          • Executive summary
          • Goal 1: Engaged and empowered
          • Goal 2: Digital transformation
          • Goal 3: Master quality
          • Goal 4: Partner for positive impact
          • Goal 5: Secure sustainability
      • Humankapital
      • Umweltkapital
      • Organisationskapital
      • Sozial- und Beziehungskapital
      • Wirtschaftskapital
      • Governance
    • Statistics and trends
      • Go back
      • Übersicht
      • Statistics & Trends Centre
      • Patent Index 2024
        • Go back
        • Insight into computer technology and AI
        • Insight into clean energy technologies
        • Statistics and indicators
          • Go back
          • European patent applications
            • Go back
            • Key trend
            • Origin
            • Top 10 technical fields
              • Go back
              • Computer technology
              • Electrical machinery, apparatus, energy
              • Digital communication
              • Medical technology
              • Transport
              • Measurement
              • Biotechnology
              • Pharmaceuticals
              • Other special machines
              • Organic fine chemistry
            • All technical fields
          • Applicants
            • Go back
            • Top 50
            • Categories
            • Women inventors
          • Granted patents
            • Go back
            • Key trend
            • Origin
            • Designations
      • Data to download
      • EPO Data Hub
      • Clarification on data sources
    • Geschichte
      • Go back
      • Übersicht
      • 1970er-Jahre
      • 1980er-Jahre
      • 1990er-Jahre
      • 2000er-Jahre
      • 2010er-Jahre
      • 2020er Jahre
    • Kunstsammlung
      • Go back
      • Übersicht
      • Die Sammlung
      • Let's talk about art
      • Künstler
      • Mediathek
      • What's on
      • Publikationen
      • Kontakt
      • Kulturraum A&T 5-10
        • Go back
        • Catalyst lab & Deep vision
          • Go back
          • Irene Sauter (DE)
          • AVPD (DK)
          • Jan Robert Leegte (NL)
          • Jānis Dzirnieks (LV) #1
          • Jānis Dzirnieks (LV) #2
          • Péter Szalay (HU)
          • Thomas Feuerstein (AT)
          • Tom Burr (US)
          • Wolfgang Tillmans (DE)
          • TerraPort
          • Unfinished Sculpture - Captives #1
          • Deep vision – immersive exhibition
          • Frühere Ausstellungen
        • The European Patent Journey
        • Sustaining life. Art in the climate emergency
        • Next generation statements
        • Open storage
        • Cosmic bar
      • "Lange Nacht"
  • Beschwerdekammern
    • Go back
    • Übersicht
    • Entscheidungen der Beschwerdekammern
      • Go back
      • Neue Entscheidungen
      • Übersicht
      • Ausgewählte Entscheidungen
    • Mitteilungen der Beschwerdekammern
    • Verfahren
    • Mündliche Verhandlungen
    • Über die Beschwerdekammern
      • Go back
      • Übersicht
      • Präsident der Beschwerdekammern
      • Große Beschwerdekammer
        • Go back
        • Übersicht
        • Pending referrals (Art. 112 EPC)
        • Decisions sorted by number (Art. 112 EPC)
        • Pending petitions for review (Art. 112a EPC)
        • Decisions on petitions for review (Art. 112a EPC)
      • Technische Beschwerdekammern
      • Juristische Beschwerdekammer
      • Beschwerdekammer in Disziplinarangelegenheiten
      • Präsidium
        • Go back
        • Übersicht
    • Verhaltenskodex
    • Geschäftsverteilungsplan
      • Go back
      • Übersicht
      • Technical boards of appeal by IPC in 2025
      • Archiv
    • Jährliche Liste der Verfahren
    • Mitteilungen
    • Jahresberichte
      • Go back
      • Übersicht
    • Veröffentlichungen
      • Go back
      • Abstracts of decisions
    • Rechtsprechung der Beschwerdekammern
      • Go back
      • Übersicht
      • Archiv
  • Service & Unterstützung
    • Go back
    • Übersicht
    • Aktualisierungen der Website
    • Verfügbarkeit der Online-Dienste
      • Go back
      • Übersicht
    • FAQ
      • Go back
      • Übersicht
    • Veröffentlichungen
    • Bestellung
      • Go back
      • Patentwissen – Produkte und Dienste
      • Übersicht
      • Allgemeine Geschäftsbedingungen
        • Go back
        • Übersicht
        • Patentinformationsprodukte
        • Massendatensätze
        • Open Patent Services (OPS)
        • Leitfaden zur fairen Nutzung
    • Verfahrensbezogene Mitteilungen
    • Nützliche Links
      • Go back
      • Übersicht
      • Patentämter der Mitgliedstaaten
      • Weitere Patentämter
      • Verzeichnisse von Patentvertretern
      • Patentdatenbanken, Register und Patentblätter
      • Haftungsausschluss
    • Aboverwaltung
      • Go back
      • Übersicht
      • Anmelden
      • Einstellungen verwalten
      • Abmelden
    • Veröffentlichungen
      • Go back
      • Übersicht
      • Möglichkeiten der Einreichung
      • Standorte
    • Offizielle Feiertage
    • Glossar
    • RSS-Feeds
Board of Appeals
Decisions

Recent decisions

Übersicht
  • 2025 decisions
  • 2024 decisions
  • 2023 decisions
  1. Startseite
  2. Node
  3. T 0875/02 (Microbial phytase/BASF) 07-12-2004
Facebook X Linkedin Email

T 0875/02 (Microbial phytase/BASF) 07-12-2004

Europäischer Rechtsprechungsidentifikator
ECLI:EP:BA:2004:T087502.20041207
Datum der Entscheidung:
07 December 2004
Aktenzeichen
T 0875/02
Antrag auf Überprüfung von
-
Anmeldenummer
90202565.9
IPC-Klasse
C12N 15/55
Verfahrenssprache
EN
Verteilung
DISTRIBUTED TO BOARD CHAIRMEN (C)

Download und weitere Informationen:

Entscheidung in EN 60.35 KB
Alle Dokumente zum Beschwerdeverfahren finden Sie im Europäisches Patentregister
Bibliografische Daten verfügbar in:
EN
Fassungen
Nicht veröffentlicht
Bezeichnung der Anmeldung

Cloning and expression of microbial phytase

Name des Anmelders
BASF AKTIENGESELLSCHAFT
Name des Einsprechenden

(01) F. HOFFMANN-LA ROCHE & CO. Aktiengesellschaft

(02) NOVOZYMES A/S

(03) AB Enzymes GmbH

(04) DANISCO A/S

(05) Aventis Animal Nutrition S.A.

Kammer
3.3.08
Leitsatz
-
Relevante Rechtsnormen
European Patent Convention Art 56 1973
Schlagwörter
Main request, auxiliary requests I to XI - inventive step (no)
Orientierungssatz
-
Angeführte Entscheidungen
T 0207/94
Anführungen in anderen Entscheidungen
T 1644/08

Summary of Facts and Submissions

I. European patent No. 0 420 358 with the title "Cloning and expression of microbial phytase" was granted with 17. claims in two versions (one for all the designated Contracting States except GR and ES, the other for GR and ES) based on European patent application No. 90. 202 565.9. Five notices of opposition were filed on the grounds of Articles 100(a),(b) and (c) EPC. Opponents 01 and 02 withdrew their opposition when the case was still pending before the opposition division.

II. The patent was revoked by the opposition division for lack of inventive step of the main request (claims as granted) and of auxiliary requests I to XI. The opposition division further found that claims 1(a) and 2 of the main request did not fulfil the requirements of Article 123(2) EPC, whereas claim 1(c) of that request did not meet the requirements of Article 83 EPC.

III. An appeal against the decision of the opposition division was lodged by the patentee (appellant). The main request and auxiliary requests I to XI before the opposition division were filed again with the statement of grounds of appeal on 30 October 2002.

IV. Opponents 03, 04 and 05 (respondents I, II and III, respectively) filed observations on the appellant's statement of grounds of appeal.

V. The parties were summoned to oral proceedings and, in a communication pursuant to Article 11(1) of the Rules of Procedure of the Boards of Appeal, they were informed of the board's preliminary opinion on the case.

VI. Oral proceedings took place on 7 December 2004.

VII. Claim 1 of the main request (claims as granted) for all designated Contracting States except GR and ES read as follows:

"1. A DNA sequence encoding a fungal phytase which catalyses the liberation of at least one inorganic phosphate from a myoinositol phosphate, said DNA sequence being selected from the group consisting of

(a) DNA sequences comprising a nucleotide sequence encoding the amino acid sequence as depicted in Figure 8. from position -23 to 444, or from position +1 to 444;

(b) DNA sequences comprising the nucleotide sequence as depicted in Figure 6 or Figure 8; and

(c) DNA sequences hybridizing at low stringency conditions (6 x SSC; 50° C; overnight; washing in 6 x SSC at room temperature) with a DNA fragment corresponding to a cDNA of the nucleotide sequence depicted in Figure 6 from position 210 to 1129."

VIII. Claim 1 for the designated Contracting States GR and ES was directed to a process for the preparation of a DNA sequence as defined in claim 1 above, wherein said process further comprised:

"(d) isolating RNA from suitable source, preparing the corresponding mRNA, constructing a cDNA library; or

(e) isolating genomic DNA from a suitable source, constructing a genomic DNA library; and

(f) screening for and isolating the desired DNA."

IX. Claim 1 of all auxiliary requests in the two versions was similarly formulated by reference to the specific sequence as depicted in Figure 8.

X. The following documents are referred to in the present decision:

D4: A.H.J. Ullah and D.M. Gibson, Preparative Biochemistry, 1987, Vol. 17(1), pages 63 to 91;

D8: A.H.J. Ullah, Preparative Biochemistry, 1988, Vol. 18(4), pages 459 to 471;

D9: D.M. Gibson et al., Proceedings UJNR Protein Resources Panel 16th Annual Meeting, Tsukuba, Japan, October 13 to 17, 1987, pages 27 to 39;

D10: Affidavit of R.M. Berka and S.A. Thompson, 6. September 1994;

D12: J. Sambrook et al., "Molecular Cloning. A Laboratory Manual", 2nd Edition, 1989, Cold Spring Harbor Laboratory Press, Section 11;

D14: C.S. Piddington et al., Gene, 1993, Vol. 133, pages 55 to 62;

D26: Affidavit of Dr J. Rambosek, 18 November 1999;

D28: EP-A-0 215 594 (publication date 25 March 1987);

D34: E.J. Mullaney et al., Appl. Microbiol. Biotechnol., 1991, Vol. 35, pages 611 to 614;

D48: Affidavit of Dr G.C.M. Selten, 28 August 1997;

D49: WO-A-94/03612 (publication date 17 February 1994);

D68: W.I. Wood, Methods in Enzymology, 1987, Vol. 152, pages 443 to 447;

D81: I.E. Mattern et al., Fungal Genetics Newsletter, 1988, Vol. 35, page 25.

XI. The arguments of the appellant in writing and during oral proceedings, insofar as they are relevant to the present decision, may be summarized as follows:

Article 56 EPC

Document D9, the closest prior art, referred to the purification and characterization of a phytase derived from Aspergillus ficuum. The document disclosed the amino acid composition of this phytase - based on about 600 residues - as well as the amino acid sequence of the N-terminal peptide and of three internal peptides obtained by cyanogen bromide (CNBr) cleavage. A first approach for cloning the phytase gene based on antibody probes and immunoscreeening of an expression genomic library was said to have failed. Presumptive positive clones were reported for a second cloning approach using an oligonucleotide probe most probably based on peptide II (lowest degree of degeneracy). However, a second independent tool - the antibody probes - was still necessary for selecting the positive clones.

Starting from this closest prior art, the technical problem underlying the patent in suit was seen as the provision of a nucleic acid sequence encoding the phytase from Aspergillus ficuum.

The use of a single oligonucleotide probe was not selective enough for a successful isolation of positive phytase clones as shown by the affidavit of Dr Selten (document D48). There was no evidence for the presence of a single band in Southern blot and, since the target sequence was unknown, the relevance of such a band could only be assessed with hindsight. As stated in document D9, a second independent tool was required. However, the second tool proposed in document D9 - the antibody probes - failed in the first cloning approach and the said probes were useless in the second strategy since they were polyclonal antibodies raised against a mixture of proteins and not against homogeneous phytase. The production of specific anti-phytase antibody probes required first to set up a new purification method for isolating homogeneous phytase as done in the patent in suit. Thus, as a second independent tool for cloning the phytase gene, a second independent, non-overlapping oligonucleotide probe was necessary. The two-probe approach was taught in the most up-to-date laboratory handbook (document D12) and corroborated by several declarations on file. This was in fact the cloning approach that would have been taken by the skilled person as defined in the case law (a cautions bench molecular biologist). However, oligonucleotide probes based on peptides III and IV of document D9 (the only ones available since the N-terminal was said not to be useful for generating a probe) were bound to fail since both peptides were contaminants not derived from phytase. Document D14 as well as the affidavit of Dr. Rambosek (document D26) relied on a single probe approach for cloning the phytase gene but they were contradictory in the probe used (17-mer or 29-mer) and dubious when looked at in the light of the later document D49 from the same authors that used a completely different (nested-PCR) cloning approach. Similarly, the affidavit of R.M. Berka and S.A. Thompson (document D10) did not provide any valid experimental evidence. All relevant evidence relied on the nucleic and amino acid sequences disclosed in the patent in suit and thus, they could not avoid hindsight. In contrast, the patent in suit disclosed and used three different probes for screening the genomic library as well as a monoclonal antibody specific for the A. ficuum phytase enzyme. These tools were not available to the authors of document D9 and they were missing in the prior art.

Even if, for the sake of argument, positive clones were to be identified, the criteria for selecting and isolating those positive clones - the criteria for success - were completely misleading and wrong. As shown for the soybean phytase in document D9, once positive clones were identified, they were sized and sequenced. However, for the phytase gene derived from A. ficuum, the size of the gene would have been wrongly expected to correspond to a gene encoding a protein of about 600 residues. The nucleic acid inserts of positive clones would also have been wrongly expected to encode a protein with phytase activity comprising all four peptides disclosed in document D9, including the contaminant peptides III and IV. Thus, clones fulfilling the expected criteria for success could never be isolated.

Document D9 did not disclose a host system suitable for expression of the phytase gene. In fact, the skilled person would not have used an expression system for verifying the cloning of the phytase gene. Firstly, clones tested in such expression systems had to be first sized and sequenced (restriction mapping, sequence analysis, length of open-reading frame, etc.) since expression analysis was only feasible if the complete coding sequence and adjacent regulatory sequences were available. Secondly, Escherichia coli was not a useful expression system since it was not capable of glycosylating proteins (necessary for phytase activity) and recognizing fungal regulatory sequences (promoter, introns). Thirdly, most fungal organisms suitable for expression analysis, such as the ones indicated in document D9, contained endogenous phytase. Thus, they were not suitable for detecting the activity of a recombinant phytase since several uncertainties could arise (upregulation or activation of endogenous gene, integration into the genome and strong expression variability, etc.) and there was no tool (eg. specific monoclonal antibodies) available to distinguish the endogenous phytase from the recombinant one. There was no reference in document D9 to suitable expression systems for overcoming these uncertainties, such as Aspergillus host cells deficient in phytase activity, or to the cloning of fragments to be tested with a promoter regulated in a different way than the native phytase promoter. The analysis for phytase activity was not a quick-and-easy method but a laborious, time-consuming approach the outcome of which was uncertain and which involved a lot of risks and difficulties.

The authors of document D9 had not been able to obtain the phytase gene from the "presumptive positive clones" referred to in that document given the fact that document D34, from the same authors and published four years later, described the isolation of a clone containing only part of the phytase gene (expected to encode a protein of about 600 residues) and using an antibody screening approach similar to the first cloning approach said to have failed in document D9. There was no publication showing the sequence of the "presumptive positive clones" identified by the second cloning strategy of document D9.

XII. The respondents' arguments in writing and during oral proceedings, insofar as they are relevant to the present decision, may be summarized as follows:

Article 56 EPC

Document D9, the closest prior art, identified the source of the phytase gene, Aspergillus ficuum NRRL 3135, and referred to the purification, structural properties and enzymatic activity of the phytase enzyme. The amino acid composition of this enzyme and the partial amino acid sequences of peptides I to IV were disclosed. Document D9 referred to two strategies for cloning the phytase gene. A first cloning strategy based on antibody probes and immunoscreening, which was said to have failed, and a second cloning strategy based on the use of an oligonucleotide probe for screening. Presumptive positive results were reported for this second strategy.

Hence, the technical problem underlying the patent in suit was seen as the provision of the full-length nucleic acid sequence encoding the phytase derived from A. ficuum, i.e. the phytase gene.

At the priority date, the preferred method for isolating and cloning a gene encoding a purified protein was the use of an oligonucleotide probe, usually about 15 to 20 nucleotides long. As shown in handbooks on file (inter alia document D12), the second-probe approach was advantageously used only for genomic libraries of great size (such as mammalian) but not necessarily for fungi libraries. Two steps were, however, critical: (i) the quality of the probe for screening the library and identifying the positive clones, and (ii) the selection or validation of the positive clones, which could be difficult and complex if the properties of the gene were unknown.

Document D9 referred to a single band in Southern blot demonstrating that the probe used was specific. The document further referred to presumptive positive clones obtained after several screenings. Thus, there was no need to use a second oligonucleotide probe. Due to the exceptionally low degeneracy of peptide II, this peptide was the most suitable candidate for synthesizing a probe. There was evidence on file showing that the one-probe approach was successfully applied with both 17-mer and 29-mer probes derived from peptide II, inter alia document D14 and the affidavits of R.M. Berka and S.A. Thompson and of Dr Rambosek (documents D10 and D26, respectively). The results shown in the affidavit of Dr Selten (document D48) were not reliable since the experiment was intended to fail. Moreover, the results shown in Figure 1 (17-mer probe based on peptide II) and Figure 3 (probe comprising the complete phytase gene) were inconsistent.

Document D9 referred to the possible selection of the identified presumptive positive clones by antibody probes, such as the ones successfully used in document D34. This selection step was different from the screening step used in the first cloning strategy and therefore, the negative results obtained in the first strategy were not relevant for the selection step in the second cloning strategy. In fact, the said antibody probes were not even necessary since the positive clones could be sized and sequenced, or alternatively, used in a straightforward manner in expression system assays and known activity tests.

As regards the criteria for success, the length of the expected coding region (about 600 residues) was not a reliable criterion for the size of possible positive clones since the true molecular weight of glycosylated proteins was known not to be simple to assess with accuracy. Moreover, genes from genomic libraries were also expected to comprise non-coding regions such as introns. The absence of peptides III and IV in the deduced amino acid sequence was irrelevant once the complete sequence and the open reading frame of the phytase gene were determined and known. In fact, due to the evident low quality of these two peptides III and IV, the presence of the N-terminal peptide and peptide II in the complete sequence of the phytase gene were the most reliable criteria.

It was also known (cf. inter alia document D12) that for an enzyme the most reliable identification was the presence of its enzymatic activity. Thus, it was obvious for the skilled person to express the positive clones. There was no reason to expect any problems when expressing the phytase gene in eukaryotic cells and, more particularly, when using Aspergillus cells as host cells (so as to obtain an advantageous glycosylation, recognition of fungi promoter, etc.), as also proposed in document D9 and shown in document D10.

The reasons for failing to report the nucleic acid sequences of the "presumptive positive clones" of document D9 were unknown and only speculations could be made about it. Therefore, this failure could not be taken into account when assessing the inventive step in the light of document D9.

XIII. The appellant (patentee) requested that the decision under appeal be set aside and that the patent be maintained as granted or, in the alternative, on the basis of one of the Auxiliary requests I to XI filed with the statement of grounds of appeal on 30 October 2002, all in two versions for all the designated Contracting States except ES and GR, and for ES and GR.

XIV. The respondents (opponents) requested that the appeal be dismissed.

Reasons for the Decision

Procedural matters

1. Common to all requests on file are claims centred on DNA sequences comprising a specific nucleotide sequence depicted in Figure 8 or a nucleotide sequence encoding the specific amino acid sequence depicted in Figure 8. In view of this, the board found it expedient to deal with the key question whether said specific sequences involve an inventive step in the light of the prior art, and to leave aside the issue of compliance of the requests with Articles 123 and 83 EPC.

Inventive step - Article 56 EPC

Closest prior art

2. Document D9, considered to be the closest prior art, discloses an Aspergillus isolate, namely A. ficuum NRRL 1335, which is a high producer of the phytase enzyme - 10. times greater levels of activity than other isolates (cf. page 29, last full paragraph). Three different chromatographic columns are used for purifying the phytase enzyme, which shows two broadly diffused bands of 85 KDa and 100 kDa on SDS-PAGE. The purified phytase is a glycoprotein, which, upon partial deglycosylation, has a molecular weight of about 76 kDa (cf. page 30). The amino acid composition of the purified enzyme (cf. page 37) and the amino acid sequences of four peptides - the N-terminal peptide (peptide I) and three internal peptides (peptides II, III and IV) - are also disclosed (cf. page 38). The document further refers to the kinetic characterization of the purified phytase (cf. page 30, last two paragraphs and paragraph bridging pages 30 to 31).

3. Two cloning strategies for the fungal phytase are outlined in document D9. A first strategy is based on the immunoscreening of a genomic library, whereas the second strategy is based on an oligonucleotide probe for screening. For the immunoscreening, polyclonal antibodies are first produced and shown to react with all forms - native and deglycosylated - of the phytase enzyme. These polyclonal antibodies are purified, so as to remove any possible immunological reactivity with E. coli, and used to screen a lambda gt11 genomic library. The average size of the A. ficuum DNA insert is 7 Kb and, if in proper reading frame, the insert ultimately produces a fusion protein with the beta-galactosidase encoded by the E. coli lacZ gene present in the lambda gt11 library. Document D9 states that "although multiple attempts have been made to use the antibody probes to pull out the phytase gene, we have been unsuccessful at the present time" and that "another strategy for making antibodies is in progress". In this context, reference is made to the growth of Aspergillus in presence of glycosylation inhibitors and production of antibodies against deglycosylated and denaturated phytase (cf. paragraph bridging pages 31 to 32).

4. With regard to the second cloning strategy, the N-terminal peptide (peptide I) is said not to be useful for generating an oligonucleotide probe. One of the other three internal peptides is identified as having a useful amino acid sequence for generating a probe. Neither the peptide nor the probe derived therefrom are specified in terms of the structure (cf. however point 8 infra). Preliminary results using the said probe show that it binds to a restriction fragment from genomic DNA on Southern blots and that "presumptive positive clones have been selected following several screenings" of a lambda EMBL4 library with this radiolabelled probe. Document D9 states that "the antibody probes will be used to select from these positive clones. Using both the antibody and the oligonucleotide probes, we should be able to unequivocally identify the phytase gene from Aspergillus ficuum" (cf. page 32, first two paragraphs). Reference is also made to transformation systems for Aspergillus ficuum so as to "achieve enhanced secretion of phytase" as well as to the cotransformation of A. ficuum, wherein "the second gene ... in our case will be phytase ... after we have verified the cloning of this gene" (cf. page 33, last full paragraph).

Technical problem underlying the patent in suit

5. Starting from the closest prior art, the technical problem to be solved is regarded as being the provision of the complete genomic nucleotide sequence encoding the phytase enzyme derived from Aspergillus ficuum NRRL 31335, i.e. the phytase gene. The solution is provided by the specific nucleotide sequence depicted in Figure 6, with the coding sequence and derived amino acid sequence shown in Figure 8, of the patent in suit, these sequences being the term of reference used in claim 1 of all requests in order to define the invention (cf. Sections VII to IX supra).

6. In the board's view, it would have been obvious for the skilled person to try to follow the teachings of document D9 in order to solve said problem, attain similar positive clones and select the ones comprising the phytase gene. In doing so, no particular problems would have been expected and, in the light of document D9 alone, a reasonable expectation of success was fully justified. The appellant, however, has referred to several difficulties and problems, which, allegedly, would have been encountered by the skilled person when attempting to follow the teachings of document D9 and which would have prevented him or her from obtaining the phytase gene. Those problems are examined hereinafter in order to establish whether they would have indeed had an impact on the expectation of success by the skilled person (cf. T 207/94, OJ EPO 1999, 273).

Alleged technical difficulties

The selection of the oligonucleotide probe: one-probe or two-probe cloning approach?

7. The appellant submits that, starting from document D9 and in the light of common general knowledge, the skilled person would not have considered the one-probe cloning approach since the two-probe cloning approach was generally seen as being more advantageous for screening genomic libraries. However, in their view, for the construction of a second probe, there was not enough reliable information available in document D9 (cf. Section XI supra).

8. According to document D9, the amino acid sequence of the N-terminal peptide is not useful for generating a probe, whereas "one peptide was identified as having a useful amino acid sequence for generating an oligonucleotide probe" (cf. page 32, first full paragraph). Although the "one" peptide is not expressly identified in structural terms, it is beyond dispute that this peptide is peptide II, which, due to its exceptionally low degeneracy, has been described by all parties as a "molecular biologist's dream".

9. The length of the probe, however, is not disclosed in document D9. From the prior art on file, which reflects the common general knowledge at the time of the invention (cf. inter alia documents D12 and D68), short probes are typically 11-20 nucleotides in length (pools of 8-32 or more degenerate sequences). Probes of 17 nucleotides or longer are used to screen high-complexity (mammalian) genomic libraries. For longer probes, beyond 20 and up to 30 bases (the shortest length for a long probe), the degeneracy of the pool must be as low as possible so as to avoid unspecific hybridization (cf. pages 11.7 and 11.8, document D12 and page 443, document D68). The stretch of amino acid residues of peptide II having an exceptionally low degeneracy extends to the first 9-10 residues. Only an Ala residue at position 6 has a high degeneracy. Other neighbouring residues are not to be considered since their degeneracy is too high. Thus, the length for a probe based on peptide II varies from a short 17-mer (pool of 8 degenerate sequences), based on the first 5-6 residues without the Ala at position 6, to a long 29-mer based on the complete stretch of 9-10 residues. For this longer probe, following the recommendations of the prior art, the high degeneracy of the Ala residue might be reduced by using a neutral base such as inosine (pool of 64 degenerate sequences) (cf. document D12, page 11.17). The provision of probes within this specific length range does not require any inventive ingenuity due to the exceptional properties - low degeneracy - of peptide II disclosed in document D9.

10. In principle, the number of unspecific hybridizations increases with the complexity of the targeted library and, the longer a probe the more likely it is to be unique among all the sequences present in a targeted genome library. Thus, when possible, it is useful to determine first the specificity of the probe by using, for example, the probe in a Southern blot. In document D9 such a determination results in the probe binding to "a restriction fragment from genomic DNA on Southern blots", i.e. to a single genomic fragment. This shows that the probe is specific. In fact, Southern blots might be performed under several stringency conditions so as to select those probes that are specific under high stringency conditions. This allows the use of these stringency conditions in the screening of the genomic library and the achievement of a higher specificity (cf. page 446, last paragraph, document D68).

11. There is evidence on file showing that a 17-mer (PHY-1) used to probe a genomic DNA from Aspergillus under high stringency conditions results indeed in a unique band (cf. inter alia page 56, right-hand column, first full paragraph and Figure 1 of document D14, cited as expert opinion). Similar results are also disclosed for longer probes, in particular a 29-mer (PHY-2) probe (cf. points 3.1 and 3.2 of the affidavit of Dr J. Rambosek, document D26, cited as expert opinion). Thus, in the board's judgment, following the teachings of document D9 in combination with the common general knowledge, no particular skill is considered to be required for selecting an oligonucleotide probe (based on peptide II) with a suitable length - within the range indicated above (cf. point 9 supra) - for achieving a high specificity under high stringency conditions.

12. It might well be, as argued by the appellant (cf. point XI supra), that under certain conditions the use of a two-probe cloning strategy is more advantageous. However, in the light of the unique properties - low degeneracy and high specificity - of the probe referred to in document D9, this strategy does not necessarily come into consideration in the present case. There is no indication in document D9 as to the need for a second probe and thus, the only cloning strategy considered is the one-probe cloning strategy.

Aspergillus genomic library and screening of this library

13. The appellant submits, based in particular on the affidavit of Dr G.C.M. Selten (document D48), that the use of only one-probe would not have been selective enough for screening a genomic library of Aspergillus with success (cf. Section XI supra).

14. Document D9 refers to the construction of a lambda EMBL4 genomic library of Aspergillus ficuum which is screened with the radiolabelled oligonucleotide probe and it further states that "presumptive positive clones have been selected following several screenings", i.e. the lambda EMBL4 genomic library is screened several times with the specific oligonucleotide probe so as to eliminate unspecific hybridizations and identify the positive clones. There is also evidence on file showing that, in a single screening step, few positive clones are identified using a 17-mer (PHY-1) probe (cf. point 2 of the affidavit of R.M. Berka and S.A. Thompson, document D10 and paragraph bridging pages 56 to 57, document D14) or a 29-mer (PHY-2) probe (cf. point 3.3 of the affidavit of Dr J. Rambosek, document D26) (both documents cited as expert opinions).

15. Different results are, however, disclosed in the affidavit of Dr G.C.M. Selten (document D48, relied upon by the appellant as expert opinion), which, repeating the conditions indicated in the affidavit of R.M. Berka and S.A. Thompson (document D10) and using a 17-mer probe 100% complementary to the phytase gene or a pool of 8 degenerate 17-mer probes, shows a high background and a low resolution in a (single) screening of an A. ficuum genomic library. Nevertheless, the conditions used therein are said to be of "very low hybridization stringency". In the board's view, similar poor results obtained in an initial Southern blot (cf. point 10 supra) would have prompted the skilled person to use higher stringency conditions and/or a longer oligonucleotide (29-mer) probe so as to perform the "several screenings" indicated in document D9. Thus, the skilled person could easily overcome the alleged technical problem indicated in the affidavit of Dr G.C.M. Selten (document D48) using only common general knowledge. Therefore, this alleged technical problem is not considered to be relevant.

Selection of the identified "presumptive positive clones"

16. The appellant submits that, as shown for the first cloning approach disclosed in document D9, the antibody probes would not have been useful in the second cloning approach. The production of useful antibody probes required first to set up a new purification method for isolating homogenous phytase (cf. Section XI supra).

17. Document D9 indicates that "the antibody probes will be used to select from these positive clones" (cf. page 32, second full paragraph). Thus, although antibody probes are said to have failed in the first cloning strategy based on immunoscreening, they are, however, expected by the authors to be useful in the second cloning strategy for further selecting (not screening) the "presumptive positive clones" identified by "several screenings" with the oligonucleotide probe. The positive expectations expressed can possibly be explained by the fact that the skilled person based on common general knowledge foresaw some benefits resulting from the elimination of other genes coding for cross-reactive proteins (such as phosphatases), from an improved titre of the polyclonal antiserum, from a lower contamination by neighbouring phage particles, etc.

18. Moreover, whereas the lambda EMBL4 library has some disadvantages in comparison to the lambda gt11 library (such as the absence of a promoter specific for expression in E. coli), it has, however, other important advantages. In particular, it is known that the average insert size in this lambda EMBL4 library is about 9-20 kb (cf. point 2 of the affidavit of R.M. Berka and S.A. Thompson, document D10), which is higher than the one in the expression lambda gt11 library (7 kb) (cf. page 31, second full paragraph, document D9). Thus, the lambda EMBL4 genomic library has a higher probability of having an insert which comprises the complete phytase gene, including the target sequence to be hybridized with the oligonucleotide probe, i.e. it has a higher probability of cloning the complete gene with associated regulatory sequences which (if functional in E. coli) results in the expression of all protein epitopes. Furthermore, proteins expressed from this lambda EMBL4 library are not fused with an E. coli protein (beta-galactosidase) that may in certain cases destabilize and modify native epitopes. All these considerations justify the positive expectations conferred by document D9.

19. Document D34 (cited as expert opinion) also confirms that the polyclonal antibody probes raised against the purified phytase - following the same purification method as in document D9 - and isolated as described in document D9 (cf. document D34 from page 611, right-hand column, last full paragraph to page 612, left-hand column, first full paragraph and page 612, left-hand column, fourth full paragraph), are specific enough to detect the phytase (as expected by the skilled person when reading document D9), if expression of the phytase gene actually occurs.

20. In spite of all these positive considerations, the skilled person is well aware that the promoter of the phytase gene might not be functional in E. coli and that problems associated with the processing of fungi introns in E. coli might also arise (a drawback shared by both lambda gt11 and EMBL4 genomic libraries). Thus, the skilled person knows that the possible absence of positive results in the selection of clones by antibody probes (as proposed in document D9) does not directly indicate the absence of clones comprising the phytase gene. In that case, a straightforward selection of the identified positive clones by expression of the phytase gene in fungal host cells constitutes an obvious consideration for the skilled person as in fact such fungal expression systems are explicitly referred to in document D9 itself (cf. pages 32 and 33, document D9).

Expression of the phytase gene in fungi host cells

21. The appellant submits that no suitable host systems were known to the skilled person since Escherichia coli was fully inappropriate and fungal organisms contained endogenous phytase, which was not to be distinguished from the recombinant phytase. Thus, for a suitable expression system, it was necessary first to obtain Aspergillus host cells deficient in phytase activity (cf. Section XI supra).

22. Document D9 refers to the development of two selectable (gene) marker systems for transformation of A. ficuum which allow the cotransformation with a second plasmid comprising a second gene, such as the phytase gene (cf. pages 32 to 33, document D9). References to appropriate fungal plasmids, which allow the introduction of (large) nucleotide inserts, are on file (cf. inter alia documents D28 and D81) and, if necessary, methods for sizing the cloning insert were also known in the prior art (cf. points 26 to 27 infra).

23. As suggested in document D9, the advantages of (over)expressing the phytase gene in fungal host cells, particularly in A. ficuum NRRL 3135 the source of the phytase gene (functional promoter, properly processed introns and secretion, etc.), compensate for the possible hypothetical problems referred to by the appellant, in particular the inability to distinguish the recombinant phytase from the endogenous one (cf. Section XI supra). Moreover, whereas A. ficuum NRRL 3135 is known to be a high phytase producer (cf. point 2 supra) and the development of phytase-deficient fungi might well be advantageous, other available taxonomically related fungi (A. niger) with lower phytase production and known transformation systems, would have been taken into consideration by the skilled person as suitable host cells too.

24. The board further notes, that none of the hypothetical problems referred to by the appellant has actually been found in the patent in suit, which also exemplifies the straightforward overexpression of the phytase gene in A. ficumm host cells (cf. Table 4, phytase production of untransformed and transformed A. ficuum NRRL 3135).

Sizing and sequencing of positive clones

25. The appellant submits that the criteria to be used, when sizing and sequencing positive clones, for identifying those inserts comprising the phytase gene, were misleading. In particular, the appellant refers to the expectation of a larger molecular weight for the phytase and to the absence of peptides III and IV in the sequence of the phytase enzyme. These difficulties, in its view, lower the expectations of the skilled person and support an inventive step. Moreover, the fact that the authors of document D9 never arrived at the complete sequence of the phytase gene by following the allegedly promising second cloning approach discussed in document D9 but by other routes, shows, in the appellant's view, that the said strategy was not feasible and could not give raise to any positive expectations (cf. Section XI supra).

26. In principle, the selection of positive clones by expression of the phytase gene in fungi hosts (cf. points 22 to 24 supra) does not necessarily require the sizing and sequencing of the cloning inserts, since vectors accepting large inserts - the minimal average size of lambda EMBL4 inserts - are available in the art (cf. point 22 supra). Large size inserts are also usually preferred due to the possible presence of introns and the advantageous presence of regulatory regions in the lambda EMBL4 genomic library of Aspergillus. If desired, however, sizing by digestion of cloning inserts by restriction endonucleases and probing of the fragments with the oligonucleotide probe specific for the phytase gene are both known routine steps (cf. point 10 supra).

27. The sizing and sequencing of the cloning inserts may be carried out either directly on the positive clones identified in the initial screening with the specific oligonucleotide probe (cf. point 14 supra), as shown in document D9 for the soybean phytase, or else after the selection of positive clones by immunoscreening or expression in fungi host cells. As stated above, however, the digestion with restriction endonucleases, probing with the specific oligonucleotide probe, subcloning and determination of the nucleotide sequence, identification of introns, etc. although laborious and time-consuming, are all known routine steps.

28. With regard to the appellant's first argument, the difficulties to assess appropriately, in a reliable and accurate manner, the molecular weight of glycosylated proteins are well-known in the prior art. Document D9 refers to diffused SDS-PAGE bands (poorly focused banding pattern) of 85 and 100 kDa for the glycosylated phytase, whereas a molecular weight of 76 kDa is indicated for a partially deglycosylated enzyme (cf. page 30, fourth full paragraph). A much lower molecular weight - of about 61.7 kDa - is disclosed for an unglycosylated enzyme in document D8 (cf. page 463, Table II). In view of this variability in particular in case of glycosylated molecules, molecular weight values are to be considered cautiously and they certainly cannot be relied on as a strong criterion of success. In other words, in the present case the skilled person, in the board's view, is open-minded as to the actual value of the molecular weight of the phytase enzyme. Thus, contrary to appellant's allegation, molecular weight considerations do not have an influence on the skilled person's expectations, when applying the second cloning strategy indicated in document D9.

29. With regard to appellant's second argument, although document D9 states that the phytase is purified to homogeneity, the presence of other possible protein contaminants is not excluded by the skilled person. In fact, document D9 relies on the method of purification disclosed in document D4, which shows that further purification of the phytase enzyme by an additional chromatographic step is still possible (cf. page 74, last paragraph, document D4). Figure 1C of this document also shows that the 4-step purified enzyme is obtained from overlapping protein peaks (cf. page 73) and thus, the presence of protein contaminants is not excluded. Actually, judging from the length of the peptides disclosed in document D9 and the number of gaps present in their sequences, the N-terminal peptide I (16 residues) and the peptide II (19 residues) are for the skilled person the most relevant peptides. As stated above, the skilled person would put into practice the second cloning strategy in document D9 essentially based on peptide II with a reasonable expectation of success. Peptides III and IV would not have any particular influence on his or her expectations. The absence of these sequence stretches in the then deduced amino acid sequence of the phytase enzyme would in any case be noticed only after achieving the result and would easily be attributed to the presumed presence of contaminants in the phytase preparation of document D9.

30. With regard to appellant's third argument, it is true that there is no evidence on file showing that the second cloning approach described in document D9 was successfully pursued by the authors. Indeed, document D34 (cited as expert technical opinion), a publication of the authors of document D9 disclosing only a partial phytase sequence from A. ficuum NRRL 3135, is based on the first (failed) cloning approach of document D9, and in document D49 (cited as expert technical opinion), the authors of document D9 followed a different (nested-PCR) cloning strategy for arriving at the phytase gene. The reasons for this are unknown and it can only be speculated about. In any case, inventive step is to be judged based on the actual technical evidence on file and on its substantive merits independently from any possible speculations about a given occurrence. Thus, the appellant's argument in this respect is irrelevant.

Conclusion

31. In view of the above considerations, it is concluded that the manifest high quality and specificity of the oligonucleotide probe which the skilled person would have readily derived from the peptide II disclosed in document D9, the optimistic view expressed in the latter document as regards the possibility of identifying the phytase gene from Aspergillus ficum and the apparent absence of a priori obstacles and/or difficulties would have induced the skilled person to try to pursue the cloning path indicated in document D9 with a reasonable expectation of success. In the board's judgment, by following it the skilled person would have arrived by use of routine measures and without undue difficulties and burden at a DNA sequence encoding phytase falling under the terms of claim 1 of all requests. The fact that "in real life" cloning was then achieved by following different (or partly different) routes is immaterial as long as no valid evidence is put forward that the obvious theoretical protocol derivable from document D9 on the basis of common general knowledge is either unreasonable, given the circumstances, or bound to fail, due to excessive difficulties or burden. This is not the case here.

32. Thus, the subject-matter of claim 1 of all requests in the two versions for all designated Contracting States except GR and ES and for GR and ES lacks an inventive step and thus fails to meet the requirements of Article 56 EPC.

Entscheidungsformel

ORDER

For these reasons it is decided that:

The appeal is dismissed.

Footer - Service & support
  • Unterstützung
    • Aktualisierungen der Website
    • Verfügbarkeit der Online-Dienste
    • FAQ
    • Veröffentlichungen
    • Verfahrensbezogene Mitteilungen
    • Kontakt
    • Aboverwaltung
    • Offizielle Feiertage
    • Glossar
Footer - More links
  • Jobs & Karriere
  • Pressezentrum
  • Single Access Portal
  • Beschaffung
  • Beschwerdekammern
Facebook
European Patent Office
EPO Jobs
Instagram
EuropeanPatentOffice
Linkedin
European Patent Office
EPO Jobs
EPO Procurement
X (formerly Twitter)
EPOorg
EPOjobs
Youtube
TheEPO
Footer
  • Impressum
  • Nutzungsbedingungen
  • Datenschutz
  • Barrierefreiheit