2019
Introducing Genes into Cultured Mammalian Cells
Kumar P, Nagarajan A, Uchil PD. Introducing Genes into Cultured Mammalian Cells. Cold Spring Harbor Protocols 2019, 2019: pdb.top095406. PMID: 31285274, DOI: 10.1101/pdb.top095406.Peer-Reviewed Original Research
2018
Optical Transfection.
Kumar P, Nagarajan A, Uchil PD. Optical Transfection. Cold Spring Harbor Protocols 2018, 2018: pdb.top096222. PMID: 30510131, DOI: 10.1101/pdb.top096222.Peer-Reviewed Original ResearchDEAE-Dextran Transfection.
Kumar P, Nagarajan A, Uchil PD. DEAE-Dextran Transfection. Cold Spring Harbor Protocols 2018, 2018: pdb.top096263. PMID: 29967279, DOI: 10.1101/pdb.top096263.Peer-Reviewed Original Research
2000
Structural proteomics of an archaeon
Christendat D, Yee A, Dharamsi A, Kluger Y, Savchenko A, Cort J, Booth V, Mackereth C, Saridakis V, Ekiel I, Kozlov G, Maxwell K, Wu N, McIntosh L, Gehring K, Kennedy M, Davidson A, Pai E, Gerstein M, Edwards A, Arrowsmith C. Structural proteomics of an archaeon. Nature Structural & Molecular Biology 2000, 7: 903-909. PMID: 11017201, DOI: 10.1038/82823.Peer-Reviewed Original ResearchConceptsStructural proteomicsHigh-throughput strategyFunctional genomicsNonmembrane proteinsPutative functionsBiochemical functionsSequence analysisMethanobacterium thermoautotrophicumProtein propertiesThroughput strategyX-ray crystallographicBiochemical methodsProteomicsStructural studiesCentral roleProteinStructural targetsNMR spectroscopic analysisProteomeArchaeonGenomicsThermoautotrophicumSequenceFunctionSpectroscopic analysisBiophysical Characterization of gp41 Aggregates Suggests a Model for the Molecular Mechanism of HIV-associated Neurological Damage and Dementia*
Caffrey M, Braddock D, Louis J, Abu-Asab M, Kingma D, Liotta L, Tsokos M, Tresser N, Pannell L, Watts N, Steven A, Simon M, Stahl S, Wingfield P, Clore G. Biophysical Characterization of gp41 Aggregates Suggests a Model for the Molecular Mechanism of HIV-associated Neurological Damage and Dementia*. Journal Of Biological Chemistry 2000, 275: 19877-19882. PMID: 10747981, DOI: 10.1074/jbc.m001036200.Peer-Reviewed Original ResearchMeSH KeywordsAIDS Dementia ComplexBrainBrain DiseasesChromatography, GelEndopeptidasesExtracellular SpaceHIV Envelope Protein gp41HIV SeropositivityHumansHydrogen-Ion ConcentrationImmunohistochemistryMembrane GlycoproteinsMicroscopy, ElectronProtein BindingProtein Structure, TertiaryRetroviridae ProteinsConceptsNeurological damageBrains of HIVHuman immunodeficiency virusImmunodeficiency virusEnvelope protein gp41HIVBrain tissueDementiaHigh molecular weight formExtracellular aggregatesMolecular weight formsSimian immunodeficiency virus gp41Gp41Molecular mechanismsWeight formsHIV gp41HIV envelope protein gp41Extracellular ectodomainBiochemical methodsDamagePatientsImmunohistochemistryHigh molecular weight aggregatesBrain
1988
Biology of Leishmania and Leishmaniasis
Furtado T, Goihman-Yahr M, Marghescu S, Grimaldi G, David J, McMahon-Pratt D, Rothenberg A, Rosquete R, Avila-Millán E, Istúriz G, Viloria N, de Borges N, Carrasquero M, de Fernández B, Tapia F, de Albornoz M, Bretaña A, de Brito I, Urquiola G, Pereira J, Martín B, de Gómez M, de Román A, Lugo A, Convit J, Padilha-Gonçalves A, Vale E, Araújo M. Biology of Leishmania and Leishmaniasis. 1988, 782-800. DOI: 10.1007/978-3-642-83360-1_87.Commentaries, Editorials and LettersDifferent clinical manifestationsImmunological characterizationCulture of parasitesBiology of LeishmaniaClinical manifestationsReference centerInternational Reference CentreL. tropicaMonoclonal antibodiesParasite strainsElectron microscopic morphologyNew World LeishmaniaLeishmaniaIsoenzyme patternsBraziliensisDonovaniBiochemical methodsParasitesLeishmaniasisDisease
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