Horizontal gene transfer and gene dosage drives adaptation to wood colonization in a tree pathogen

Publication date

2015-03-17

Authors

Dhillon, Braham
Feau, Nicolas
Aerts, Andrea L.
Beauseigle, Stéphanie
Bernier, Louis
Copeland, Alex
Foster, Adam
Gill, Navdeep
Henrissat, Bernard
Herath, Padmini

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

taverne

Abstract

Some of the most damaging tree pathogens can attack woody stems, causing lesions (cankers) that may be lethal. To identify the genomic determinants of wood colonization leading to canker formation, we sequenced the genomes of the poplar canker pathogen, Mycosphaerella populorum, and the closely related poplar leaf pathogen, M. populicola. A secondary metabolite cluster unique to M. populorum is fully activated following induction by poplar wood and leaves. In addition, genes encoding hemicellulosedegrading enzymes, peptidases, and metabolite transporters were more abundant and were up-regulated in M. populorum growing on poplar wood-chip medium compared with M. populicola. The secondary gene cluster and several of the carbohydrate degradation genes have the signature of horizontal transfer from ascomycete fungi associated with wood decay and fromprokaryotes. Acquisition andmaintenance of the gene battery necessary for growth in woody tissues and gene dosage resulting in gene expression reconfiguration appear to be responsible for the adaptation of M. populorum to infect, colonize, and cause mortality on poplar woody stems.

Keywords

Fungal genomics, Poplar pathogen, Septoria canker, Tree disease, Taverne, General

Citation

Dhillon, B, Feau, N, Aerts, A L, Beauseigle, S, Bernier, L, Copeland, A, Foster, A, Gill, N, Henrissat, B, Herath, P, LaButti, K M, Levasseur, A, Lindquistb, E A, Majoor, E, Ohm, R A, Pangilinan, J L, Pribowo, A, Saddler, J N, Sakalidis, M L, De Vries, R P, Grigoriev, I V, Goodwin, S B, Tanguay, P & Hamelin, R C 2015, 'Horizontal gene transfer and gene dosage drives adaptation to wood colonization in a tree pathogen', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 11, pp. 3451-3456. https://doi.org/10.1073/pnas.1424293112