2022
Planning Is Overrated
Dovidio J. Planning Is Overrated. 2022, 266-273. DOI: 10.1017/9781009214315.031.Peer-Reviewed Original Research
2021
3D super-resolution deep-tissue imaging in living mice
Velasco MGM, Zhang M, Antonello J, Yuan P, Allgeyer ES, May D, M’Saad O, Kidd P, Barentine AES, Greco V, Grutzendler J, Booth MJ, Bewersdorf J. 3D super-resolution deep-tissue imaging in living mice. Optica 2021, 8: 442-450. PMID: 34239948, PMCID: PMC8243577, DOI: 10.1364/optica.416841.Peer-Reviewed Original ResearchWater-immersion objective lensTwo-photon excitationSuper-resolution imagingEmission depletion (STED) microscopyAdaptive opticsSTED systemObjective lensOptical aberrationsDepletion microscopyBiological tissuesNanoscale structuresLiving mouseOrganic dyesOpticsSTEDExcitationMouse brain tissueLiving cellsThree-dimensional visualizationMicroscopyLightUnique insightsImagingLens
2020
Molecular “omic” signatures in systemic sclerosis
Mehta BK, Department of Molecular and Systems Biology G, Espinoza M, Hinchcliff M, Whitfield M, Department of Rheumatology A, Department of Biomedical Data Science D. Molecular “omic” signatures in systemic sclerosis. European Journal Of Rheumatology 2020, 7: 173-180. PMID: 33164732, PMCID: PMC7647683, DOI: 10.5152/eurjrheum.2020.19192.Peer-Reviewed Original ResearchDeregulated molecular pathwaysEpigenomic dataExtracellular matrix abnormalitiesMolecular pathwaysTiming of activationDisease phenotypeObserved clinical heterogeneityOmicsSSc researchMatrix abnormalitiesTranscriptomicsUnique insightsPhenotypePathwayPrecision medicineImportant stepActivationClinical heterogeneityIdentificationStructural elucidation of the cis-prenyltransferase NgBR/DHDDS complex reveals insights in regulation of protein glycosylation
Edani BH, Grabińska KA, Zhang R, Park EJ, Siciliano B, Surmacz L, Ha Y, Sessa WC. Structural elucidation of the cis-prenyltransferase NgBR/DHDDS complex reveals insights in regulation of protein glycosylation. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 20794-20802. PMID: 32817466, PMCID: PMC7456142, DOI: 10.1073/pnas.2008381117.Peer-Reviewed Original ResearchConceptsActive site tunnelProtein glycosylationAtomic resolution structuresGlycosyl carrier lipidsΑ3 helixEnzyme active sitePTase activityResolution structureActive siteEndoplasmic reticulumHomodimeric formCarrier lipidRate-limiting stepGlycosylationCrystal structureDHDDSStructural elucidationPTaseIsoprene chainPrenyltransferaseUnique insightsComplexesUnfavorable stateNgBRHomodimericComparative Molecular Life History of Spontaneous Canine and Human Gliomas
Amin S, Anderson K, Boudreau C, Martinez-Ledesma E, Kocakavuk E, Johnson K, Barthel F, Varn F, Kassab C, Ling X, Kim H, Barter M, Lau C, Ngan C, Chapman M, Koehler J, Long J, Miller A, Miller C, Porter B, Rissi D, Mazcko C, LeBlanc A, Dickinson P, Packer R, Taylor A, Rossmeisl J, Woolard K, Heimberger A, Levine J, Verhaak R. Comparative Molecular Life History of Spontaneous Canine and Human Gliomas. Cancer Cell 2020, 37: 243-257.e7. PMID: 32049048, PMCID: PMC7132629, DOI: 10.1016/j.ccell.2020.01.004.Peer-Reviewed Original ResearchConceptsComparative genomic analysisDNA methylation patternsReceptor tyrosine kinasesCell cycle pathwayGenomic analysisMethylation sequencingLife historyMutational processesTyrosine kinaseHigh similarityHuman gliomasTumorigenic mechanismsHost environmentMutational rateSomatic alterationsSporadic gliomasIDH1 R132Canine gliomasMolecular profileGlioma etiologyHuman pediatricPediatric gliomasTranscriptomeKinaseUnique insights
2010
Have advanced research technologies made real impact on respiratory medicine?
Kjetil A, EICKELBERG O, GAULDIE J, KAMINSKI N, Martin K. Have advanced research technologies made real impact on respiratory medicine? Respirology 2010, 15: 876-880. PMID: 20646243, DOI: 10.1111/j.1440-1843.2010.01811.x.Peer-Reviewed Original ResearchConceptsGene array analysisGenetic manipulationGene expressionSystems biologyMolecular researchNovel pathwayArray analysisTremendous sophisticationDisease initiationPotential roleNovel toolAdvanced research technologiesLung diseaseRespiratory medicineHumans todayProteomicsUnique insightsGenesRNABiologyBioinformaticsProteinChronic lung diseaseTherapeutic interventionsPathway
2004
Visualization of plasma membrane compartmentalization with patterned lipid bilayers
Wu M, Holowka D, Craighead HG, Baird B. Visualization of plasma membrane compartmentalization with patterned lipid bilayers. Proceedings Of The National Academy Of Sciences Of The United States Of America 2004, 101: 13798-13803. PMID: 15356342, PMCID: PMC518836, DOI: 10.1073/pnas.0403835101.Peer-Reviewed Original ResearchConceptsLipid raftsLeaflet componentsPlasma membrane compartmentalizationReceptor clustersMembrane structural organizationLipid bilayersFcepsilon receptor ITyrosine phosphorylation activityMembrane compartmentalizationLyn kinaseInner leafletPhosphorylation activityActin polymerizationCellular componentsStructural organizationCell receptorRaftsCell activationReceptor IMast cell receptorsStructural reorganizationKinaseUnique insightsBilayersProtein
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