about
The Concise Guide to PHARMACOLOGY 2013/14: enzymes.Calpain cleavage prediction using multiple kernel learning.iGLuc: a luciferase-based inflammasome and protease activity reporter.Anamorsin, a novel caspase-3 substrate in neurodegeneration.Qualitative improvement and quantitative assessment of N-terminomics.Mitochondrial cytochrome c biogenesis: no longer an enigma.A bead-based cleavage method for large-scale identification of protease substrates.RASSF1 Polymorphisms in Cancer.Roles of inflammatory caspases during processing of zebrafish interleukin-1β in Francisella noatunensis infectionThe novel caspase-3 substrate Gap43 is involved in AMPA receptor endocytosis and long-term depressionGel-based protease proteomics for identifying the novel calpain substrates in dopaminergic neuronal cell.Intracellular substrate cleavage: a novel dimension in the biochemistry, biology and pathology of matrix metalloproteinases.Current advances in the application of proteomics in apoptosis research.Natural substrates of plant proteases: how can protease degradomics extend our knowledge?A review of statistical methods for prediction of proteolytic cleavage.Caspases rule the intracellular trafficking cartel.A quantitative proteomics design for systematic identification of protease cleavage events.Non-apoptotic functions of caspase-7 during osteogenesis.Specificity of a protein-protein interface: local dynamics direct substrate recognition of effector caspases.Radiation-Induced RhoGDIβ Cleavage Leads to Perturbation of Cell Polarity: A Possible Link to Cancer Spreading.
P2860
Q30486745-27C8B63A-96AF-4F05-8086-F8950E4F7118Q33894681-5E5CC3F3-3272-4FE7-A821-B33DABA2F7D2Q34023192-0CDDCDC7-E322-435D-9368-9A8BED7F1EAFQ34070411-055122C6-B81A-4B7F-B6C9-3177A84A74EBQ34265979-FFFD4A50-7147-4518-BD41-D9FC359D21A4Q35875522-4EBB947D-123D-49BC-9E9E-DC5CC777D707Q35943447-2EF0B771-0F28-4BCC-A299-2F2270411EB1Q36020657-7E6355A1-B7B1-4129-99FB-EC77364C12C1Q36211076-DE772DA0-FE42-4F59-8BE7-064858383A2CQ37388996-1C390D6B-7F8D-4B8D-82D3-ECBF6DBB3B03Q37405074-6DCEAAA9-B9F2-41AF-9863-9E43F7C6C71DQ37784801-96497339-1AA8-466E-A0BD-007F36144EDDQ37854521-80D1A800-85F9-49D2-99EA-2ECBCAFA67EFQ37946960-6E96EB27-517F-4EA7-9F08-6A2D05FE878AQ37964383-00077156-BB67-40D4-8D21-BBAF7E0A6147Q39216629-DB5A7E4E-AF44-4607-8914-70D7FEF53E77Q41829770-C12FE023-DE75-4F04-B917-4A022CBD04C1Q42083926-2E6BD713-7B5E-4934-98E9-38D2030DFA26Q42876442-FB545CCE-E058-46A4-8E27-2F50A49F85A2Q52882972-099A2DE9-3599-4C1A-9013-58045B57FD5C
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 29 October 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Caspase substrates: easily caught in deep waters?
@en
Caspase substrates: easily caught in deep waters?
@nl
type
label
Caspase substrates: easily caught in deep waters?
@en
Caspase substrates: easily caught in deep waters?
@nl
prefLabel
Caspase substrates: easily caught in deep waters?
@en
Caspase substrates: easily caught in deep waters?
@nl
P2093
P50
P1476
Caspase substrates: easily caught in deep waters?
@en
P2093
Dieter Demon
Joël Vandekerckhove
Kris Gevaert
Wim Declercq
P304
P356
10.1016/J.TIBTECH.2009.09.007
P577
2009-10-29T00:00:00Z