about
Human perforin employs different avenues to damage membranesStructures of Lysenin Reveal a Shared Evolutionary Origin for Pore-Forming Proteins And Its Mode of Sphingomyelin Recognition6-Arylpyrido[2,3-d]pyrimidines as novel ATP-competitive inhibitors of bacterial D-alanine:D-alanine ligasepH dependence of listeriolysin O aggregation and pore-forming abilityFlexibility of the PDZ-binding motif in the micelle-bound form of Jagged-1 cytoplasmic tailMembrane damage by an α-helical pore-forming protein, Equinatoxin II, proceeds through a succession of ordered stepsA global benchmark study using affinity-based biosensors.Structure and activity of the N-terminal region of the eukaryotic cytolysin equinatoxin II.Interaction between oligomers of stefin B and amyloid-beta in vitro and in cells.Membrane pores: from structure and assembly, to medicine and technologyPerforin rapidly induces plasma membrane phospholipid flip-flopCytolytic peptide and protein toxins from sea anemones (Anthozoa: Actiniaria).Effects of MACPF/CDC proteins on lipid membranes.Effect of pH on the pore forming activity and conformational stability of ostreolysin, a lipid raft-binding protein from the edible mushroom Pleurotus ostreatus.Interactions of archaeal chromatin proteins Alba1 and Alba2 with nucleic acidsDisparate proteins use similar architectures to damage membranes.Novel toll-like receptor 4 (TLR4) antagonists identified by structure- and ligand-based virtual screening.Peeking into a secret world of pore-forming toxins: membrane binding processes studied by surface plasmon resonance.Perforin activity at membranes leads to invaginations and vesicle formation.DNA-guided assembly of biosynthetic pathways promotes improved catalytic efficiencyStructural insight into LexA-RecA* interaction.Molecular mechanism of pore formation by actinoporins.Sea anemone cytolysins as toxic components of immunotoxins.Pore formation by human stefin B in its native and oligomeric states and the consequent amyloid induced toxicity.What planar lipid membranes tell us about the pore-forming activity of cholesterol-dependent cytolysins.Cytolytic proteins from cnidarians - an overview.Molecular mechanism of pore formation by aerolysin-like proteins.Oligomerization and pore formation by equinatoxin II inhibit endocytosis and lead to plasma membrane reorganization.Equinatoxin II potentiates temozolomide- and etoposide-induced glioblastoma cell death.Ammodytoxin, a secretory phospholipase A2, inhibits G2 cell-cycle arrest in the yeast Saccharomyces cerevisiae.Equinatoxin II permeabilizing activity depends on the presence of sphingomyelin and lipid phase coexistenceRepetitive domain of Clostridium difficile toxin B exhibits cytotoxic effects on human intestinal epithelial cells and decreases epithelial barrier function.Inhibition of MAPK/ERK, PKC and CaMKII signaling blocks cytolysin-induced human glioma cell death.Sphingomyelin-rich domains are sites of lysenin oligomerization: implications for raft studies.Regulation of cathepsin B activity by 2A2 monoclonal antibody.Probing HIV-1 membrane liquid order by Laurdan staining reveals producer cell-dependent differences.Potentiation of anticancer-drug cytotoxicity by sea anemone pore-forming proteins in human glioblastoma cells.Effects of the eukaryotic pore-forming cytolysin Equinatoxin II on lipid membranes and the role of sphingomyelin.Cytotoxic activity of a tumor protease-activated pore-forming toxin.An optimized protocol for expression and purification of murine perforin in insect cells.
P50
Q24301586-47B7FAEB-8C7C-4E0E-BAC3-F25628E58E34Q27670847-1D908094-E591-4440-B0AE-0DBCCACB9B21Q28481777-94BFE283-45DA-4709-911C-5253DF7BD6EEQ28485623-E150277A-CA58-4495-BA3B-968C58D6D1A5Q28910409-527A2AC5-900F-4FC4-A32B-3E75435443FDQ30155072-5E907015-EEAA-4924-99C5-0928B63A9F8AQ30448396-24C3AFAA-8876-48AA-8B69-4F51F13E56E1Q31031851-8EAB1C6F-CDB3-4492-A1DC-C0C54320143AQ33661328-841E3E81-91AE-4515-8467-CF88F8B02FD4Q33831588-3F1C83D5-2B60-4518-8753-B52FF36060C8Q34023350-97DC6385-EE5A-4B6E-8826-00B4C9F43D6EQ34100019-2589AD55-3521-414C-889A-AAE333CFE8DCQ34300045-1A591041-181A-424A-BF1E-3DA64737E20EQ34443071-33084FFD-4207-4EE7-9588-9CF488559D52Q34612887-534D5CEB-3E95-438B-864F-481D1672077CQ34823481-031379DD-CD5D-482E-AA82-698AAD792458Q35029848-682FE6CC-C5EA-478B-81EA-8347B6ACFB23Q35559641-195042FF-DA48-48FF-8F37-4BB67222F49DQ35641456-C3002D72-CB4F-417C-B607-80E75DC94635Q35780138-9B33C561-1621-46EA-BB75-A4B91BB3A0B8Q37327601-614E8E18-17AF-4CF0-B861-81D23DD60C0CQ37408594-6B5FE2E8-245E-40DE-9577-FC7E9A640EDEQ37408601-EC0E452A-72B5-408E-BEA1-1472641B172BQ38033158-42C91899-A35F-4A85-AB35-66AE7BD53FBCQ38123284-DA8069FA-5E50-45A6-9967-68861CA42742Q38141686-2857C11C-26EA-4856-8291-663A05E2E24FQ38669155-7ADA91ED-11B9-4AC2-B674-7378A401BB0FQ38796009-8979AE8D-9191-4A2C-987E-0C701354BDFEQ39241757-B41B2DF5-3C78-42AA-88C2-EDDEE44C652FQ39498470-9D5B3BB3-E3C6-493C-BC80-0BD0288E5BB5Q39595002-0326A2C7-B59B-4CFA-AFBC-49D19239F2ACQ39682044-26EF1EAD-5482-4A41-B08E-78FF8D5BAD18Q39695952-209B4E5E-607B-4AEA-9939-DB5199B7830DQ39762039-7D12D845-D6D5-4BF4-9B5E-EF5CE27E1331Q39816609-DD59A454-37A7-4087-84B0-A8E9EB2CC853Q39833520-692F3753-75D8-45C1-B706-85FBB6D097FBQ39991160-146ACC6A-960E-408C-A99C-37D9463099F5Q40233583-A9ED28AA-F7B1-419F-A132-622ABA17C01AQ40446528-E1E8DAA0-66EA-4979-BBC2-3AD016973D36Q41098191-C6920CB7-CDC8-48B8-8EF8-DD2209669838
P50
description
Joegoslavisch onderzoeker (1969-)
@nl
Slovene biologist
@en
bitheolaí Slóivéanach
@ga
biólogo esloveno
@es
biólogu eslovenu
@ast
slovenski biolog
@sl
name
Gregor Anderluh
@ast
Gregor Anderluh
@de
Gregor Anderluh
@en
Gregor Anderluh
@es
Gregor Anderluh
@fr
Gregor Anderluh
@ga
Gregor Anderluh
@nl
Gregor Anderluh
@sl
type
label
Gregor Anderluh
@ast
Gregor Anderluh
@de
Gregor Anderluh
@en
Gregor Anderluh
@es
Gregor Anderluh
@fr
Gregor Anderluh
@ga
Gregor Anderluh
@nl
Gregor Anderluh
@sl
prefLabel
Gregor Anderluh
@ast
Gregor Anderluh
@de
Gregor Anderluh
@en
Gregor Anderluh
@es
Gregor Anderluh
@fr
Gregor Anderluh
@ga
Gregor Anderluh
@nl
Gregor Anderluh
@sl
P1006
P1015
P214
P227
P244
P269
P1006
P1015
P1053
C-6905-2014
P106
P1153
6701778710
P1207
n2013192109