Featured Publications
Phosphorylated WNK kinase networks in recoded bacteria recapitulate physiological function
Schiapparelli P, Pirman NL, Mohler K, Miranda-Herrera PA, Zarco N, Kilic O, Miller C, Shah SR, Rogulina S, Hungerford W, Abriola L, Hoyer D, Turk BE, Guerrero-Cázares H, Isaacs FJ, Quiñones-Hinojosa A, Levchenko A, Rinehart J. Phosphorylated WNK kinase networks in recoded bacteria recapitulate physiological function. Cell Reports 2021, 36: 109416. PMID: 34289367, PMCID: PMC8379681, DOI: 10.1016/j.celrep.2021.109416.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsCell Line, TumorCell MovementCell ProliferationEscherichia coliFemaleGlioblastomaHEK293 CellsHumansMaleMice, NudeMiddle AgedPhosphorylationPhosphoserineProtein Serine-Threonine KinasesRecombinant ProteinsSignal TransductionSmall Molecule LibrariesSubstrate SpecificityWNK Lysine-Deficient Protein Kinase 1ConceptsKinase networkAuthentic post-translational modificationsGenetic code expansionPost-translational modificationsProduction of proteinsSmall molecule kinase inhibitorsKinase inhibitorsGenetic codePhosphorylated proteinsCode expansionKinase proteinWNK kinasesPhysiological functionsWNK4 kinaseBiochemical propertiesGlioblastoma cellsKinaseBacterial strainsProteinDistinct sitesPhosphoserineSPAKBacteriaCellular systemsCells
2023
SPAK-dependent cotransporter activity mediates capillary adhesion and pressure during glioblastoma migration in confined spaces.
Lee S, Yousafzai M, Mohler K, Yadav V, Amiri S, Szuszkiewicz J, Levchenko A, Rinehart J, Murrell M. SPAK-dependent cotransporter activity mediates capillary adhesion and pressure during glioblastoma migration in confined spaces. Molecular Biology Of The Cell 2023, 34: ar122. PMID: 37672340, PMCID: PMC10846615, DOI: 10.1091/mbc.e23-03-0103.Peer-Reviewed Original Research