about
All-d-Enantiomer of β-Amyloid Peptide Forms Ion Channels in Lipid Bilayers.β-Barrel topology of Alzheimer's β-amyloid ion channels.A semi-synthetic ion channel platform for detection of phosphatase and protease activity.Truncated beta-amyloid peptide channels provide an alternative mechanism for Alzheimer's Disease and Down syndromeAmyloid-beta-induced ion flux in artificial lipid bilayers and neuronal cells: resolving a controversyAntimicrobial protegrin-1 forms ion channels: molecular dynamic simulation, atomic force microscopy, and electrical conductance studiesTreponema denticola PrcB is required for expression and activity of the PrcA-PrtP (dentilisin) complex.Structural convergence among diverse, toxic beta-sheet ion channels.Active mutants of the human p38alpha mitogen-activated protein kinase.Hyperactive variants of p38alpha induce, whereas hyperactive variants of p38gamma suppress, activating protein 1-mediated transcription.Antimicrobial protegrin-1 forms amyloid-like fibrils with rapid kinetics suggesting a functional link.Atomic force microscopy and MD simulations reveal pore-like structures of all-D-enantiomer of Alzheimer's β-amyloid peptide: relevance to the ion channel mechanism of AD pathology.Probing structural features of Alzheimer's amyloid-β pores in bilayers using site-specific amino acid substitutions.Antimicrobial properties of amyloid peptides.Mutant SOD1 forms ion channel: implications for ALS pathophysiology.Films of agarose enable rapid formation of giant liposomes in solutions of physiologic ionic strength.K3 fragment of amyloidogenic beta(2)-microglobulin forms ion channels: implication for dialysis related amyloidosis.Misfolded amyloid ion channels present mobile beta-sheet subunits in contrast to conventional ion channelsSmall molecule NPT-440-1 inhibits ionic flux through Aβ1-42 pores: Implications for Alzheimer's disease therapeutics.Chemically reactive derivatives of gramicidin A for developing ion channel-based nanoprobes.Rapid transmission of oxidative and nitrosative stress signals from roots to shoots in Arabidopsis.Designing nanosensors based on charged derivatives of gramicidin A.Characterization of Treponema denticola pyrF encoding orotidine-5'-monophosphate decarboxylase.
P50
Q30155354-C3B5BE2C-D11D-465D-B909-D6FD9E77E28FQ30155984-0326148C-82CF-4FF2-9883-D64820B4D866Q33585705-852CB139-1537-42B5-A995-BD448EDFE55DQ33778899-6DFB2103-3EE9-4F95-9048-A8619819E1D1Q33827991-0FA5011D-4D25-4FAD-AAEA-C1BE65E5FECBQ33880330-6206E3A6-A64B-46B0-AFFE-8E5E71FD2277Q33964212-FFE35ED3-8297-463B-8261-61EEE5E120C3Q34013023-D370267D-C6D0-445F-B66A-8178CD1B276FQ34337334-65147CCC-43A3-4C0C-A54D-0848B3990DADQ34579680-8D8B6A51-76C0-41C4-A287-F12EAFA0C5E4Q34771853-4E01783E-6330-47E9-B579-2D8DA3AD1605Q35125266-25C1F58B-68C2-4BB3-A2ED-521E99D68164Q35691850-F326CF79-01A1-4301-B288-3A44D285A655Q35815389-FAE8400A-573D-4506-B4E2-FDF27ED77959Q36062875-4AAE9968-6DB0-4CA1-868E-11BC3A360648Q37376847-86CFB7E0-20F7-4197-969A-62EF7E4C37E2Q37435767-29284C78-0EC2-4CEB-9079-4AD0FBE44024Q37443832-58544355-9E98-4547-BDEB-9CF59D130756Q42756593-EA34AEA7-53F0-4898-9568-030138F7848CQ46041783-208195C4-8476-4B7A-8E42-DD34A780B7D7Q47360508-63DDBBE1-389D-4680-AE1D-F81BD08D48DFQ50957282-36BBB2C1-CD1F-437A-B903-063C2AA890B8Q51091654-B917FD8A-C1F4-401C-BC77-5DABD380D0CE
P50
description
biochemist
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ricardo Capone
@ast
Ricardo Capone
@en
Ricardo Capone
@es
Ricardo Capone
@nl
Ricardo Capone
@sl
type
label
Ricardo Capone
@ast
Ricardo Capone
@en
Ricardo Capone
@es
Ricardo Capone
@nl
Ricardo Capone
@sl
prefLabel
Ricardo Capone
@ast
Ricardo Capone
@en
Ricardo Capone
@es
Ricardo Capone
@nl
Ricardo Capone
@sl
P108
P106
P21
P31
P496
0000-0002-7327-9837