The Forest Molecular Genetics (FMG) Programme focuses on the genetic control of growth and development in fast- growing plantation trees with a view to enhance biomass production and improve wood properties for timber, pulp, paper, and biomaterials production. Concomitant with this, we aim to understand molecular pest and disease resistance mechanisms in trees for yield protection and resilience. The programme is affiliated with the Forestry and Agricultural Biotechnology Institute (FABI), as well as the Genomics Research Institute (GRI) at UP. The FMG Leadership is also affiliated with the new Future Africa Institute at UP. We work in close collaboration with South African forestry companies through the FMG Consortium (FMGC) to develop capacity and resources for the application of tree biotechnology in operational tree improvement programmes.

 

FMG Magazine_August 2020

 

New Publications

Teshome DT, Zharare GE, Ployet R, Naidoo S. (2024) Molecular mechanisms underlying tree host-pathogen interactions under drought stress and subsequent rewatering in Eucalyptus grandis. Plant Stress 10.1016/j.stress.2024.100697
Solís M, Naidoo S, Wingfield MJ, Joubert J, Hammerbacher A. (2024) First line of defence: Eucalyptus leaf waxes influence infection by an aggressive fungal leaf pathogen. Plant Biology 10.1111/plb.13707
Backer R, Naidoo S, van den Berg N. (2023) The expression of the NPR1-dependent defense response pathway genes in Persea americana (Mill.) following infection with Phytophthora cinnamomi. BMC Plant Biology 23(1):548. 10.1186/s12870-023-04541-z PDF
Takawira LT, Mounet F, Mizrachi E, Myburg AA, Grima-Pettenati J, Rai A, Dupas A, Ladouce N, Christie N, San Clemente H, Thulloch J, Ployet R, Bachir H, Hussey SG. (2023) Functional investigation of five R2R3-MYB transcription factors associated with wood development in Eucalyptus using DAP-seq-ML. Plant Molecular Biology 113:33-57. 10.1007/s11103-023-01376-y
Anneri Lötter, Tuan A Duong, Julia Candotti, Eshschar Mizrachi, Jill L Wegrzyn, Alexander A Myburg. (2023) Haplogenome assembly reveals structural variation in Eucalyptus interspecific hybrids. GigaScience 12 10.1093/gigascience/giad064