about
A long Stokes shift red fluorescent Ca2+ indicator protein for two-photon and ratiometric imagingmMaple: a photoconvertible fluorescent protein for use in multiple imaging modalitiesEngineering Dark Chromoprotein Reporters for Photoacoustic Microscopy and FRET Imaging.The first structure of UDP-glucose dehydrogenase reveals the catalytic residues necessary for the two-fold oxidationAutofluorescent Proteins with Excitation in the Optical Window for Intravital Imaging in MammalsImproved monomeric red, orange and yellow fluorescent proteins derived from Discosoma sp. red fluorescent proteinA monomeric red fluorescent proteinRatiometric biosensors based on dimerization-dependent fluorescent protein exchangeHue-shifted monomeric variants of Clavularia cyan fluorescent protein: identification of the molecular determinants of color and applications in fluorescence imaging.An expanded palette of genetically encoded Ca²⁺ indicators.pHuji, a pH-sensitive red fluorescent protein for imaging of exo- and endocytosis.Directed evolution of a monomeric, bright and photostable version of Clavularia cyan fluorescent protein: structural characterization and applications in fluorescence imaging.Identification of sites within a monomeric red fluorescent protein that tolerate peptide insertion and testing of corresponding circular permutations.An engineered tryptophan zipper-type peptide as a molecular recognition scaffold.Excited-state structural dynamics of a dual-emission calmodulin-green fluorescent protein sensor for calcium ion imaging.All-optical electrophysiology in mammalian neurons using engineered microbial rhodopsinsBright and fast multicoloured voltage reporters via electrochromic FRETA bacteria colony-based screen for optimal linker combinations in genetically encoded biosensorsGenetically encoded biosensors based on engineered fluorescent proteins.Red fluorescent genetically encoded Ca2+ indicators for use in mitochondria and endoplasmic reticulumA Bright and Fast Red Fluorescent Protein Voltage Indicator That Reports Neuronal Activity in Organotypic Brain SlicesCreating new fluorescent probes for cell biology.Circular permutated red fluorescent proteins and calcium ion indicators based on mCherry.Engineering and characterizing monomeric fluorescent proteins for live-cell imaging applications.Microfluidic cell sorter-aided directed evolution of a protein-based calcium ion indicator with an inverted fluorescent response.Realization of beta-lactamase as a versatile fluorogenic reporter.Altered Escherichia coli membrane protein assembly machinery allows proper membrane assembly of eukaryotic protein vitamin K epoxide reductase.Designs and applications of fluorescent protein-based biosensors.Optogenetic reporters.Emerging fluorescent protein technologies.Pharmacological inhibition of lipid droplet formation enhances the effectiveness of curcumin in glioblastoma.Fluorescent biosensors illuminate calcium levels within defined beta-cell endosome subpopulations.Palmitoylation is the switch that assigns calnexin to quality control or ER Ca2+ signaling.Genetically encoded FRET-based biosensors for multiparameter fluorescence imaging.Optogenetic control with a photocleavable protein, PhoCl.Dimerization-dependent green and yellow fluorescent proteins.Validating tyrosinase homologue melA as a photoacoustic reporter gene for imaging Escherichia coli.Mutational analysis of a red fluorescent protein-based calcium ion indicator.A fluorogenic red fluorescent protein heterodimer.Red fluorescent proteins (RFPs) and RFP-based biosensors for neuronal imaging applications.
P50
Q27324528-6A8C1D37-59E3-4AEC-8E6D-49F281AD141FQ27331745-2E0E8912-B928-4843-BD28-63F51C639E85Q27339719-11EA8B9F-D20B-4873-A90E-B4596BEB47FBQ27622747-6BA96DBB-8B69-41C8-B0C3-B0D38A6AEEADQ27658351-645C145F-8562-49B2-B5A9-E5B5FB271F47Q27861056-B6CFBAEC-F120-4A36-B23B-F608895F1E13Q28131782-1D9D9A4E-A52C-4224-A20C-D8546838A65BQ28653243-78E0984F-D608-4CD7-8BA6-8949479CE23BQ30442918-06F36063-9775-4D8A-8F49-B157124AE179Q30533809-D7332E6F-F9C4-493B-BF11-C64583994E78Q30597260-D0A2D186-1940-43C9-A7F2-26838975232AQ33251343-BD5A038B-BD9D-4C22-8257-4C02323680FDQ33313184-25FC6CFC-A46E-4CDB-A55B-EA186B761136Q33474005-148613C8-7D08-46C5-9C38-67C954BE8090Q33925881-C73DFC95-D65F-42ED-9BB9-931D4BC97B82Q33983852-244B1F11-7E36-482B-9D4B-38D9186363A6Q34050118-ECAFE7C9-6BE8-448B-BBF1-EFDA75405E30Q34072280-0322F721-32A2-479D-AD95-B5B4C29BDB9CQ34398345-14723256-A18D-43AB-86C0-089B81058977Q34427238-819E0A1F-E69C-4021-945D-DA7850D108DAQ34515471-CA3E8C70-9266-4FF9-B6AD-6AD5C00E475FQ35014035-1B494906-2886-4F91-956C-D37DEA1E0965Q35024552-3B8B2CDF-3910-4D0F-B3BE-B4D187DD1D16Q35126438-F34A2E8A-2529-4B6F-93A7-2ED48D1417B4Q35170880-01106BDB-506A-485E-B841-C8CDAE1DE89CQ35756664-5F369600-3C4D-42C1-8791-651E0CF47CB4Q36371403-D776CB4B-149F-4CCC-BF72-A004DC34188FQ37632819-980E8BF2-5FDA-42B3-BF23-71E834EF1252Q38057763-F7D95AC6-74E1-414D-A64C-8840013E1470Q38515898-CD4C30AB-027E-4DEA-8953-20CDC5062F18Q38803938-4E4535A5-99E4-4B0D-916D-C09E24A41884Q38909612-3D8C66DD-8CA0-4EB6-BEC2-F0FD07BDEB30Q39127557-4C92C760-F7CC-4DD9-BEB2-AA3E199D06B7Q40001962-AF00D1DB-CD49-402D-B1F9-413431AAD6D7Q40294932-CF060BD8-0F59-4B2B-B0D9-F209529D80CEQ40698344-A0CCF126-548C-4D5A-B34A-4EDE3AA4B5C9Q40937025-68C59765-EDC2-4424-9BFF-A4ECB6E6D5F8Q41869367-BCED86AD-93DF-40D3-A59C-B6F43A2BD79FQ41983242-9D87D7AD-DB51-484B-9427-41C63ACE9793Q42077810-7F138799-5541-4016-9907-15895CBCC15A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Robert E Campbell
@nl
Robert E Campbell
@sl
Robert E. Campbell
@en
Robert E. Campbell
@es
type
label
Robert E Campbell
@nl
Robert E Campbell
@sl
Robert E. Campbell
@en
Robert E. Campbell
@es
altLabel
Campbell RE
@en
Robert Campbell
@en
prefLabel
Robert E Campbell
@nl
Robert E Campbell
@sl
Robert E. Campbell
@en
Robert E. Campbell
@es
P106
P1153
7402992465
P21
P31
P4012
P496
0000-0003-0604-092X