Evolution of gene regulatory networks in trees
We aim to understand the process of wood formation in angiosperm and gymnosperm tree species by modelling the regulatory networks orchestrating the differentiation of stem cells into woody tissues. To this end, we are integrating multi-omics data to infer regulatory networks for each species and comparing these networks across species to identify regulatory mechanisms explaining the evolution of trees.
PI: Hvidsten. Funding to Hvidsten: Research Council of Norway (FRIPRO) and Swedish Research Council (VR).
Regulatory evolution after whole genome duplication in salmonids
We aim to understand how gene regulation evolves after whole genome duplication and to reveal whether whole genome duplicaitons spark new regulatory innovations. We are also developing phylogenetic methods for comparative transcriptomics in multiple species.
To understand the regulatory mechansims underlying change in gene regulation after whole genome duplication, we are also integrating multi-omics data to regulatory annotate Atlantic salmon.
PIs: Sandve. Hvidsten. Funding to Hvidsten: Research Council of Norway (WP in DigiSal) and NMBU (PhD student).
Comparative transcriptomics in temperate grass
We are developing methods for comparative transcriptomics to sheed light on the evolution of traits characteristic to the temperate grass subfamily Pooideae - such as cold tolerance.
PIs: Fjellheim, Hvidsten. Funding to Hvidsten: NMBU (Tverrforsk and PhD student).
Host-microbial interactions and holo-genomics
We are developing network-based methods for unraveling the genetic interactions between hosts and their microbial communities (holo-genomics) ... in fish, cow and more.
PIs: Pope, Sandve, Hvidsten. Funding to Hvidsten: NMBU (postdoc) and Research Council of Norway/EU (WPs in ImprovAFish, 3D-omics and HoloRuminant).
With Odd-Arne Olsen we are investigating the developmental transitions modulated by membrane-anchored calpain DEFECTIVE KERNEL 1 in Physcomitrella patens.
With Rishikesh Bhalerao (Umeå University) we are investigating the regulatory control of seasonal growth in trees.
With Bartosz Wilczyński (University of Warsaw) we are developing methods for regulatory network inference using multi-omics data.