2023
Bridging the Coordination Chemistry of Small Compounds and Metalloproteins Using Machine Learning
Kapuścińska K, Dukała Z, Doha M, Ansari E, Wang J, Brudvig G, Brooks B, Amin M. Bridging the Coordination Chemistry of Small Compounds and Metalloproteins Using Machine Learning. Journal Of Chemical Information And Modeling 2023, 64: 2586-2593. PMID: 38054243, DOI: 10.1021/acs.jcim.3c01564.Peer-Reviewed Original ResearchOxidation stateMetal ionsActive siteCambridge Crystallographic Data CentreMetal oxidation stateElectron transfer reactionsStandard reduction potentialLower oxidation statesX-ray crystallographyCoordination chemistryCryogenic electron microscopyMetal clustersTransfer reactionsReaction mechanismReduction potentialXFEL crystallographyMetalloproteinsAppropriate experimental conditionsSmall moleculesCrystallographySmall compoundsSpecific reactionElectron microscopyRemarkable efficiencyMetals
2021
Identification of Mg2+ ions next to nucleotides in cryo‐EM maps using electrostatic potential maps
Wang J, Natchiar SK, Moore PB, Klaholz BP. Identification of Mg2+ ions next to nucleotides in cryo‐EM maps using electrostatic potential maps. Acta Crystallographica Section D, Structural Biology 2021, 77: 534-539. PMID: 33825713, PMCID: PMC8025889, DOI: 10.1107/s2059798321001893.Peer-Reviewed Original Research
2018
Identification of ions in experimental electrostatic potential maps
Wang J, Liu Z, Frank J, Moore PB. Identification of ions in experimental electrostatic potential maps. IUCrJ 2018, 5: 375-381. PMID: 30002838, PMCID: PMC6038950, DOI: 10.1107/s2052252518006292.Peer-Reviewed Original ResearchElectrostatic potentialElectrostatic potential mapsCation-anion pairsX-ray crystallographyCation peaksIonic pairsAtomic chargesAnion peaksIdentification of ionsIsolated ionsAnionsCationsIonsESP valuesAtomsCryo-electron microscopyPotential mapsHigh scattering anglesElectron distributionMacromoleculesChargeUncharged atomsCryo-EM mapsCrystallography
2009
Combining electron crystallography and X-ray crystallography to study the MlotiK1 cyclic nucleotide-regulated potassium channel
Clayton GM, Aller SG, Wang J, Unger V, Morais-Cabral JH. Combining electron crystallography and X-ray crystallography to study the MlotiK1 cyclic nucleotide-regulated potassium channel. Journal Of Structural Biology 2009, 167: 220-226. PMID: 19545635, PMCID: PMC2922748, DOI: 10.1016/j.jsb.2009.06.012.Peer-Reviewed Original ResearchConceptsS1-S4 domainMembrane protein structure determinationTetrameric cation channelsX-ray crystallographyProtein structure determinationPotassium channelsElectron crystallographyMlotiK1Cation channelsX-ray structureNew insightsProjection mapStructure determinationCrystallographyCombined applicationDomainUseful strategyQuality crystals
1998
Crystal Structure Determination ofEscherichia coliClpP Starting from an EM-Derived Mask
Wang J, Hartling J, Flanagan J. Crystal Structure Determination ofEscherichia coliClpP Starting from an EM-Derived Mask. Journal Of Structural Biology 1998, 124: 151-163. PMID: 10049803, DOI: 10.1006/jsbi.1998.4058.Peer-Reviewed Original ResearchConceptsATP-dependent proteolytic complexEscherichia coli ClpPATP-dependent proteaseProteolytic active sitesEvolutionary convergenceClpP structureHeptameric ringsProteolytic complexIntracellular proteolysisProteolytic componentBiophysical techniquesClpPSmall-angle X-rayX-ray crystallographyX-ray crystal structureStriking exampleMatrix refinementActive siteProteaseStructure determinationHslVOverall architectureProteasomeStructural levelElectron microscopy