identifier	taxonID	publicationType	full_reference	primaryTitle	title	pages	pageStart	pageEnd	journal	volume	publisher	authorList	editorList	created	language	uri	doi
3018404A9E07FFBB806DFF6240B8E832.ref	3018404A9E07FFBB806DFF6240B8E832.taxon	journal article	Tropper, Marina, H, Stephanie, ohn, Wolf, Laura-Sophie, Fritsch, Julia, Kastner-Detter, Nina, Rieck, Christoph, Munkert, Jennifer, Meitinger, Nadine, Lanig, Harald, Kreis, Wolfgang (2021): 21 - Hydroxypregnane 21 - O-malonylation, a crucial step in cardenolide biosynthesis, can be achieved by substrate-promiscuous BAHD-type phenolic glucoside malonyltransferases from Arabidopsis thaliana and homolog proteins from Digitalis lanata. Phytochemistry (112710) 187, 1-10: 6-6, DOI:10.1016/j.phytochem.2021.112710, URL:http://dx.doi.org/10.1016/j.phytochem.2021.112710	21 - Hydroxypregnane 21 - O-malonylation, a crucial step in cardenolide biosynthesis, can be achieved by substrate-promiscuous BAHD-type phenolic glucoside malonyltransferases from Arabidopsis thaliana and homolog proteins from Digitalis lanata			6	6	Phytochemistry (112710)	187		Tropper, Marina;H, Stephanie;ohn;Wolf, Laura-Sophie;Fritsch, Julia;Kastner-Detter, Nina;Rieck, Christoph;Munkert, Jennifer;Meitinger, Nadine;Lanig, Harald;Kreis, Wolfgang		2021	en		https://doi.org/10.1016/j.phytochem.2021.112710
3018404A9E05FFB9806DFA264710EFF1.ref	3018404A9E05FFB9806DFA264710EFF1.taxon	journal article	Tropper, Marina, H, Stephanie, ohn, Wolf, Laura-Sophie, Fritsch, Julia, Kastner-Detter, Nina, Rieck, Christoph, Munkert, Jennifer, Meitinger, Nadine, Lanig, Harald, Kreis, Wolfgang (2021): 21 - Hydroxypregnane 21 - O-malonylation, a crucial step in cardenolide biosynthesis, can be achieved by substrate-promiscuous BAHD-type phenolic glucoside malonyltransferases from Arabidopsis thaliana and homolog proteins from Digitalis lanata. Phytochemistry (112710) 187, 1-10: 8-8, DOI:10.1016/j.phytochem.2021.112710, URL:http://dx.doi.org/10.1016/j.phytochem.2021.112710	21 - Hydroxypregnane 21 - O-malonylation, a crucial step in cardenolide biosynthesis, can be achieved by substrate-promiscuous BAHD-type phenolic glucoside malonyltransferases from Arabidopsis thaliana and homolog proteins from Digitalis lanata			8	8	Phytochemistry (112710)	187		Tropper, Marina;H, Stephanie;ohn;Wolf, Laura-Sophie;Fritsch, Julia;Kastner-Detter, Nina;Rieck, Christoph;Munkert, Jennifer;Meitinger, Nadine;Lanig, Harald;Kreis, Wolfgang		2021	en		https://doi.org/10.1016/j.phytochem.2021.112710
