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Helge André Erikstad's picture

Helge André Erikstad

PhD Candidate
Faculty of Mathematics and Natural Sciences
  • E-mailhelge.erikstad@uib.no
  • Visitor Address
    Allégaten 41
    Realfagbygget
    5007 Bergen
  • Postal Address
    Postboks 7803
    5020 Bergen
Academic article
  • Show author(s) (2023). Methylacidiphilum kamchatkense gen. nov., sp. nov., an extremely acidophilic and moderately thermophilic methanotroph belonging to the phylum Verrucomicrobiota. International Journal of Systematic and Evolutionary Microbiology.
  • Show author(s) (2019). Global Biogeographic Distribution Patterns of Thermoacidophilic Verrucomicrobia Methanotrophs Suggest Allopatric Evolution. Frontiers in Microbiology. 1-11.
  • Show author(s) (2019). Complete genome sequence analysis of the thermoacidophilic verrucomicrobial methanotroph “Candidatus Methylacidiphilum kamchatkense” strain Kam1 and comparison with its closest relatives. BMC Genomics. 1-15.
  • Show author(s) (2012). Differential expression of particulate methane monooxygenase genes in the verrucomicrobial methanotroph 'Methylacidiphilum kamchatkense' Kam1. Extremophiles. 405-409.
Lecture
  • Show author(s) (2015). Methane oxidation by extremophilic verrucomicrobia.
Academic lecture
  • Show author(s) (2017). Molecular and genomic analysis of thermoacidophilic methanotrophic verrucomicrobia .
Short communication
  • Show author(s) (2015). Draft genome sequence of "Candidatus Methylacidiphilum kamchatkense" strain Kam1, a thermoacidophilic methanotrophic verrucomicrobium. Microbiology Resource Announcements (MRA). 1-2.
Masters thesis
  • Show author(s) (2014). Phylogeny and diversity of new isolates of aerobic thermoacidophilic methane oxidizing Verrucomicrobia.
Poster
  • Show author(s) (2018). Genomics of the thermoachidophilic methane oxidising bacterium "Methylacidiphilum kamchatkense Kam1T.
  • Show author(s) (2018). Genome analysis of the thermoacidophilic methane oxidizer, Methylacidiphilum kamchatkense Kam1.
  • Show author(s) (2014). Do methanotrophic and thermoacidophilic Verrucomicrobia possess biogeographic structure?
  • Show author(s) (2014). Do methanotrophic and thermoacidophilic Verrucomicrobia possess a biogeographic structure?
  • Show author(s) (2013). Methane oxidation under extreme conditions by Verrucomicrobia methanotrophs.
  • Show author(s) (2012). Methane oxidation by thermoacidophilic Verrucomicrobia methanotrophs.
  • Show author(s) (2011). Is methane oxidation by methanotrophic Verrucomicrobia copper-independent?

More information in national current research information system (CRIStin)