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Marlene Resch
Marlene Resch
Medical University of Vienna
Diamine oxidase
Heparin
Chemistry
Biochemistry
Internalization
4
Papers
2
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0
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Author response: Heparin-binding motif mutations of human diamine oxidase allow the development of a first-in-class histamine-degrading biopharmaceutical
2021
eLife
Elisabeth Gludovacz
Kornelia Schuetzenberger
Marlene Resch
Katharina Tillmann
Karin Petroczi
Markus Schosserer
Sigrid Vondra
Serhii Vakal
Gerald Klanert
Jürgen Pollheimer
Tiina A. Salminen
Bernd Jilma
Nicole Borth
Thomas Boehm
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Heparin-binding motif mutations of human diamine oxidase allow the development of a first-in-class histamine-degrading biopharmaceutical.
2021
eLife
Elisabeth Gludovacz
Kornelia Schuetzenberger
Marlene Resch
Katharina Tillmann
Karin Petroczi
Markus Schosserer
Sigrid Vondra
Serhii Vakal
Gerald Klanert
Jürgen Pollheimer
Tiina A. Salminen
Bernd Jilma
Nicole Borth
Thomas Boehm
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Human diamine oxidase cellular binding and internalization in vitro and rapid clearance in vivo are not mediated by N-glycans but by heparan sulfate proteoglycan interactions.
2020
Glycobiology
Elisabeth Gludovacz
Kornelia Schuetzenberger
Marlene Resch
Katharina Tillmann
Karin Petroczi
Sigrid Vondra
Serhii Vakal
Markus Schosserer
Nikolaus Virgolini
Jürgen Pollheimer
Tiina A. Salminen
Bernd Jilma
Nicole Borth
Thomas Boehm
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Simple, sensitive and specific quantification of diamine oxidase activity in complex matrices using newly discovered fluorophores derived from natural substrates.
2020
Inflammation Research
Thomas Boehm
Matthias Karer
Elisabeth Gludovacz
Karin Petroczi
Marlene Resch
Kornelia Schuetzenberger
Kristaps Klavins
Nicole Borth
Bernd Jilma
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