Publications in Blikstad Group

Flamholz AI, Dugan E, Blikstad C, Gleizer S, Ben‐Nissan R, Amram S, Antonovsky N, Ravishankar S, Noor E, Bar‐Even A, Milo R, Savage DF (2020) Functional reconstitution of a bacterial CO2 concentrating mechanism in E. coli, eLife 2020;9:e59882

Wigington CP, Roy J, Damle NP, Yadav VK, Blikstad C, Resch E, Wong CJ, Mackay DR, Wang JT, Krystkowiak I, Stearns T, Gingras A-C, Ullman KS, Ivarsson Y, Davey NE, Cyert MS (2019) Systematic discovery of Short Linear Motifs decodes calcineurin phosphatase signaling, Molecular Cell, 79, 342-358.e12

Blikstad C, Flamholz A, Oltrogge L and Savage D (2019) Learning to build a β-carboxysome, Biochemistry, 58, 2091-2092

Desmarais J, Flamholz A, Blikstad C, Dugan E, Laughlin T, Oltrogge L, Chen A, Wetmore K, Diamond S, Wang J and Savage D (2019) DABs are inorganic carbon pumps found throughout prokaryotic phyla, Nature Microbiology, 4, 2004-2215

Jespersen N, Estelle A, Waugh N, Davey N, Blikstad C, Resch E, Ammon Y, Akhmanova A, Ivarsson Y, Hendrix D. and Barbar E. (2019) Systematic identification of recognition motifs of the hub protein LC8, Life Science Alliance, 2, e201900366

Davey N, Seo M-H, Yadav VK, Jeon J, Nim S, Krystkowiak  I, Blikstad C, Dong D, Markova N, Kim PM and Ivarsson Y (2017) Discovery of short linear motif-mediated interactions through phage display of intrinsically disordered regions of the human proteome, The FEBS Journal, 284, 485–498

Blikstad C and Ivarsson Y (2015) High-throughput methods for identification of protein-protein interactions involving short linear motifs, Cell Communication and Signaling, 13, 38

Blikstad C, Dahlström K, Salminen T and Widersten M (2014) Substrate scope and selectivity in offspring to an enzyme subjected to directed evolution, FEBS Journal, 281, 2387-2398

Hamnevik E, Blikstad C, Norrehed S and Widersten M (2014) Kinetic characterization of Rhodococcus ruber DSM 44541 alcohol dehydrogenase A, Journal of Molecular Catalysis B, 99, 68-78

Blikstad C, Dahlström K, Salminen T and Widersten M (2013) Stereoselective oxidation of aryl-substituted vicinal diols into chiral α-hydroxy aldehydes by re-engineered propanediol oxidoreductase, ACS Catalysis, 3, 3016-3025

Valegård K, Iqbal A, Kershaw N, Ivison D, Genereux C, Dubus A, Blikstad C, Demetriades M, Hopkinson J, Lloyd A, Roper D, McDonough M, Andersson I  and Schofield C (2013) Structural and mechanistic studies on the orf12 gene product from the clavulanic acid biosynthesis pathway, Acta Crystallographica Section D, 69, 1567–1579

Lopes Pinto F, Erasmie S, Blikstad C, Lindblad P and Oliveira P (2011) FtsZ degradation in the cyanobacterium Anabaena sp. strain PCC 7120, Journal of Plant Physiology, 168, 1934-1942

Blikstad C and Widersten M (2010) Functional characterization of a stereospecific diol dehydrogenase, FucO, from Escherichia coli: substrate specificity, pH dependence, kinetic isotope effects and influence of solvent viscosity, Journal of Molecular Catalysis B, 66, 148-155

Blikstad C, Shokeer A, Kurtovic S and Mannervik B (2008) Emergence of a novel highly specific and catalytically efficient enzyme from a naturally promiscuous glutathione transferase, Biochimica et Biophysica Acta, 1780, 1458-1463

Last modified: 2021-06-08