Enzymatic encoding methods for efficient synthesis of large libraries

Assignee

• NUEVOLUTION A/S · DK

Inventors

• Thomas Franch · Copenhagen, DK
• Mikkel Dybro Lundorf · Middelfart, DK
• Søren Nyboe Jakobsen · Copenhagen, DK
• Eva Kampmann Olsen · Avenue Madeleine, DK
• Anne Lee Andersen · Ringsted, DK
• Anette Holtmann · Rang Taché Est, DK
• Anders Holm Hansen · København Huse, DK
• Anders Malling Sørensen · Älvsbyn, SE
• Anne Goldbech · København Huse, DK
• Daen de Leon · Nørresundby, DK
• Ditte Kievsmose Kaldor · Middelfart, DK
• Frank Abildgaard Sløk · Nørresundby, DK
• Gitte Nystrup Husemoen · Copenhagen, DK
• Johannes Dolberg · København Huse, DK
• Kim Birkebæk Jensen · Copenhagen, DK
• Lene Raunkjaer PETERSEN · Store Rørbæk, DK
• Mads Nørregaard-Madsen · Nørresundby, DK
• Michael Anders Godskesen
• Sanne Schrøder Glad · Rang Taché Est, DK
• Søren Neve · Avenue Madeleine, DK
• Thomas Thisted · New Market, US
• Tine Titilola Akinleminu Kronborg
• Christian Klarner Sams · Værløse, DK
• Jakob Felding · Copenhagen, DK
• Per-Ola Freskgard · Basel, CH
• Alex Haahr Gouliaev · Copenhagen, DK
• Henrik Pedersen · Avenue Madeleine, DK

Key dates

Classification

• Technology area (CPC C)Chemistry; Metallurgy
• CPC primaryC40B50/06
• WIPO fieldOrganic fine chemistry
• WIPO sectorChemistry

Abstract

Disclosed is a method for obtaining a bifunctional complex comprising a molecule linked to a single stranded identifier oligonucleotide, wherein a nascent bifunctional complex comprising a chemical reaction site and a priming site for enzymatic addition of a tag is a) reacted at the chemical reaction site with one or more reactants, and b) reacted enzymatically at the priming site with one or more tag(s) identifying the reactant(s).