Forskningsprojekt Genome evolution in parasitic plants Start/Forskning/Forskningskatalog/Forskningsprojekt Du kan läsa mer om forskningsprojektet på engelska. Projektmedlemmar ProjektansvarigaGitte Petersen Publikationer Petersen, G., Rao, R.S.P., Anderson, B., Zervas, A., Seberg, O., Rasmusson, A.G., Møller, I.A. - 2022 [online 2021]. Genes from oxidative phosphorylation complexes II-V and two dual-function subunits of complex I are transcribed in Viscum album despite absence of the entire mitochondrial holo-complex I. – Mitochondrion 62: 1–12.Anderson, B.M., Krause, K., Petersen, G. 2021. - Mitochondrial genomes of two parasitic Cuscuta species lacks clear evidence of horizontal gene transfer and retain unusually fragmented ccmFC genes. – BMC Genomics 22:816.Petersen, G., Anderson, B., Braun, H.-P., Meyer, E.H., Møller, I.M. 2020. - Mitochondria in parasitic plants. – Mitochondrion 52: 173–182.Zervas, A., Petersen, G., Seberg, O. 2019. - Mitochondrial genome evolution in parasitic plants. – BMC Evolutionary Biology BMC Evolutionary Biology 19:87.Petersen, G., Darby, H., Lam, V.K.Y., Pedersen, H. Æ., Merckx, V.S.F.T., Zervas, A., Seberg, O., - Graham, S.W. 2019. Mycoheterotrophic Epirixanthes (Polygalaceae) has a typical angiosperm mitogenome but unorthodox plastid genomes. – Annals of Botany 124: 791–807.Petersen, G., Zervas, A., Pedersen, H.Æ. & Seberg, O. 2018. - Contracted genes and dwarfed plastome in mycoheterotrophic Sciaphila thaidanica (Triuridaceae, Pandanales). – Genome Biology and Evolution 10: 976-981.Petersen, G., Cuenca, A., Møller, I.M. & Seberg, O. 2015. - Massive gene loss in mistletoe (Viscum, Viscaceae) mitochondria. – Scientific Reports 5:17588.Petersen, G., Cuenca, A. & Seberg, O. 2015. - Plastome evolution in hemiparasitic Mistletoes. – Genome Biology and Evolution 7: 2520-2532.
