Origin and evolution of transporter substrate specificity within the NPF family

TY - JOUR

T1 - Origin and evolution of transporter substrate specificity within the NPF family

AU - Jørgensen, Morten Egevang

AU - Xu, Deyang

AU - Crocoll, Christoph

AU - Ernst, Heidi Asschenfeldt

AU - Ramírez, David

AU - Motawie, Mohammed Saddik

AU - Olsen, Carl Erik

AU - Mirza, Osman Asghar

AU - Nour-Eldin, Hussam Hassan

AU - Halkier, Barbara Ann

PY - 2017/3/3

Y1 - 2017/3/3

N2 - Despite vast diversity in metabolites and the matching substrate specificity of their transporters, little is known about how evolution of transporter substrate specificities is linked to emergence of substrates via evolution of biosynthetic pathways. Transporter specificity towards the recently evolved glucosinolates characteristic of Brassicales is shown to evolve prior to emergence of glucosinolate biosynthesis. Furthermore, we show that glucosinolate transporters belonging to the ubiquitous NRT1/PTR FAMILY (NPF) likely evolved from transporters of the ancestral cyanogenic glucosides found across more than 2500 species outside of the Brassicales. Biochemical characterization of orthologs along the phylogenetic lineage from cassava to A. thaliana, suggests that alterations in the electrogenicity of the transporters accompanied changes in substrate specificity. Linking the evolutionary path of transporter substrate specificities to that of the biosynthetic pathways, exemplify how transporter substrate specificities originate and evolve as new biosynthesis pathways emerge.

AB - Despite vast diversity in metabolites and the matching substrate specificity of their transporters, little is known about how evolution of transporter substrate specificities is linked to emergence of substrates via evolution of biosynthetic pathways. Transporter specificity towards the recently evolved glucosinolates characteristic of Brassicales is shown to evolve prior to emergence of glucosinolate biosynthesis. Furthermore, we show that glucosinolate transporters belonging to the ubiquitous NRT1/PTR FAMILY (NPF) likely evolved from transporters of the ancestral cyanogenic glucosides found across more than 2500 species outside of the Brassicales. Biochemical characterization of orthologs along the phylogenetic lineage from cassava to A. thaliana, suggests that alterations in the electrogenicity of the transporters accompanied changes in substrate specificity. Linking the evolutionary path of transporter substrate specificities to that of the biosynthetic pathways, exemplify how transporter substrate specificities originate and evolve as new biosynthesis pathways emerge.

U2 - 10.7554/eLife.19466

DO - 10.7554/eLife.19466

M3 - Journal article

C2 - 28257001

SN - 2050-084X

VL - 6

JO - eLife

JF - eLife

M1 - e19466

ER -