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Solution structure of Pisum sativum defensin 1 by high resolution NMR: plant defensins, identical backbone with different mechanisms of actionStructural and Functional Study of Yer067w, a New Protein Involved in Yeast Metabolism Control and Drug ResistanceHigh hydrostatic pressure activates gene expression through Msn2/4 stress transcription factors which are involved in the acquired tolerance by mild pressure precondition in Saccharomyces cerevisiae.Production of the active antifungal Pisum sativum defensin 1 (Psd1) in Pichia pastoris: overcoming the inefficiency of the STE13 protease.Antifungal Pisum sativum defensin 1 interacts with Neurospora crassa cyclin F related to the cell cycle.High Intensity Interval Training (HIIT) Induces Specific Changes in Respiration and Electron Leakage in the Mitochondria of Different Rat Skeletal Muscles.P2×7 purinergic signaling in dilated cardiomyopathy induced by auto-immunity against muscarinic M2 receptors: autoantibody levels, heart functionality and cytokine expression.The P2X7 Receptor Contributes to the Development of the Exacerbated Inflammatory Response Associated with Sepsis.Evaluation of the membrane lipid selectivity of the pea defensin Psd1.Arrest of oogenesis in the bug Rhodnius prolixus challenged with the fungus Aspergillus niger is mediated by immune response-derived PGE2.cDNA cloning and heterologous expression of functional cysteine-rich antifungal protein Psd1 in the yeast Pichia pastoris.Evolutionary relationship between defensins in the Poaceae family strengthened by the characterization of new sugarcane defensins.Human chagasic IgGs bind to cardiac muscarinic receptors and impair L-type Ca2+ currents.Psd1 binding affinity toward fungal membrane components as assessed by SPR: The role of glucosylceramide in fungal recognition and entry.Backbone dynamics of the antifungal Psd1 pea defensin and its correlation with membrane interaction by NMR spectroscopy.Expression of functional receptors and transmitter enzymes in cultured Muller cells.Biochemical properties of the major proteins from Rhodnius prolixus eggshell.Microscopic and molecular characterization of ovarian follicle atresia in Rhodnius prolixus Stahl under immune challenge.Characterization of two novel defense peptides from pea (Pisum sativum) seeds.Differential expression of D(1A) and D(1B) dopamine receptor mRNAs in the developing avian retina.DNA immunizations with M2 muscarinic and beta1 adrenergic receptor coding plasmids impair cardiac function in mice.Cloning, expression, and purification of recombinant bovine rotavirus hemagglutinin, VP8*, in Escherichia coli.Genomic expression pattern in Saccharomyces cerevisiae cells in response to high hydrostatic pressure.Effect of hydrostatic pressure on the morphology and ultrastructure of wild-type and trehalose synthase mutant cells of Saccharomyces cerevisiae.N-terminal chimeric constructs improve the expression of sarcoplasmic reticulum Ca2+-ATPase in yeastEffect of hydrostatic pressure of a mutant of Saccharomyces cerevisiae deleted in the trehalose-6-phosphate synthase geneNuclear magnetic resonance solution structure of Pisum sativum defensin 2 provides evidence for the presence of hydrophobic surface-clustersImmunization with plasmids encoding M2 acetylcholine muscarinic receptor epitopes impairs cardiac function in mice and induces autophagy in the myocardium
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Q27637507-D8FD7C9B-64C3-4774-931E-4D167531F9E5Q27662573-DD576B05-65E0-4E01-A37E-F4001BD22BBEQ27940127-C231A35B-E4E7-4A1D-9374-6523536526E1Q30788244-235E8305-189E-4106-BF5E-8BF3A514E1B5Q33269927-4E004AED-1031-4324-BF5C-5F7C66E0CAC6Q35677125-CC8B534B-874E-4172-AEE6-87D6C32B5EF6Q36305471-1115BD68-CDBC-4265-A313-8F8AEADF0A80Q41444442-10502707-5E46-4712-A01E-B203A43225D8Q43496309-9322F67B-3213-4033-AC1A-F08BAF8895DBQ43668274-1EC3CA83-F153-478E-8148-A6467D91AEABQ43791735-B721760E-F79B-45FB-8BA7-04FFA8BDBB37Q44364474-7EE51DCC-7FA1-4F9C-ABFE-49EC520E949BQ44385073-F328ABDB-08F2-490D-A873-E633418E8162Q45845010-7F11A185-F878-4C6E-A84B-57ADB4FEB2D7Q45919971-6D39CE78-5460-4644-8FD5-1438DD9765A6Q46367367-02C4EEAF-028F-4025-A4FC-D35D14FE1FC2Q46966354-C1BDE0CE-7FF1-43EC-BEEF-536692F0971AQ46980887-4AB3C81D-6CED-4A3B-9634-6B33C40EB8CDQ46984978-45659117-EFFE-45F8-9756-DB2E87F971AEQ52166146-172989F8-2246-4FB3-A069-914D6E4D5B81Q52976560-5EECB977-317C-4261-AD56-E1AE6FA1B23BQ53650074-9F85C0D7-FBD2-4188-BD58-C074F04E7272Q53850375-479C04B9-6452-4590-96B8-4B1633E124B9Q54022126-FBA20370-5885-4B2A-9A52-C2E606CBD1CCQ56529262-6F85AB22-BBD1-4507-ACE3-222140332B19Q73522469-9D95321F-A6A0-4F68-A8A3-DC226C609708Q91793612-5AB2A213-CD83-4F95-A13C-EDDC4F6EDFBEQ93049161-DF96C02B-9505-465F-AD17-67D850996036
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Eleonora Kurtenbach
@ast
Eleonora Kurtenbach
@en
Eleonora Kurtenbach
@es
Eleonora Kurtenbach
@nl
Eleonora Kurtenbach
@sl
type
label
Eleonora Kurtenbach
@ast
Eleonora Kurtenbach
@en
Eleonora Kurtenbach
@es
Eleonora Kurtenbach
@nl
Eleonora Kurtenbach
@sl
prefLabel
Eleonora Kurtenbach
@ast
Eleonora Kurtenbach
@en
Eleonora Kurtenbach
@es
Eleonora Kurtenbach
@nl
Eleonora Kurtenbach
@sl
P1053
L-4148-2016
P106
P21
P31
P3829
P496
0000-0002-2141-518X