Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
about
Crysalis: an integrated server for computational analysis and design of protein crystallization.Transcriptomic analysis of human norovirus NS1-2 protein highlights a multifunctional role in murine monocytesKnowledge-transfer learning for prediction of matrix metalloprotease substrate-cleavage sitesAccurate in silico identification of species-specific acetylation sites by integrating protein sequence-derived and functional features.Caspase cleavage sites in the human proteome: CaspDB, a database of predicted substrates.GlycoMine: a machine learning-based approach for predicting N-, C- and O-linked glycosylation in the human proteome.Computational Identification of Protein Pupylation Sites by Using Profile-Based Composition of k-Spaced Amino Acid Pairs.Prediction of aptamer-protein interacting pairs using an ensemble classifier in combination with various protein sequence attributesUterine endoplasmic reticulum stress-unfolded protein response regulation of gestational length is caspase-3 and -7-dependent.Novel extracellular and nuclear caspase-1 and inflammasomes propagate inflammation and regulate gene expression: a comprehensive database mining study.Analyses of caspase-1-regulated transcriptomes in various tissues lead to identification of novel IL-1β-, IL-18- and sirtuin-1-independent pathways.Progress and challenges in predicting protein methylation sites.PhosphoPredict: A bioinformatics tool for prediction of human kinase-specific phosphorylation substrates and sites by integrating heterogeneous feature selection.Metacaspases versus caspases in development and cell fate regulation.Critical evaluation of bioinformatics tools for the prediction of protein crystallization propensity.Systematic analysis and prediction of type IV secreted effector proteins by machine learning approaches.B Cell Receptor Activation and Chemical Induction Trigger Caspase-Mediated Cleavage of PIAS1 to Facilitate Epstein-Barr Virus Reactivation.PROSPERous: high-throughput prediction of substrate cleavage sites for 90 proteases with improved accuracy.PhosContext2vec: a distributed representation of residue-level sequence contexts and its application to general and kinase-specific phosphorylation site prediction.M6AMRFS: Robust Prediction of N6-Methyladenosine Sites With Sequence-Based Features in Multiple Species
P2860
Q30384803-32E0B237-018F-485C-ACD2-B5CAF51D0E98Q30397112-E2B81D27-B21E-4930-8AA7-6940A55C046BQ33915991-B258DB18-95E4-46F5-BDA9-8DD8FE35C919Q33924598-D28D24B8-8E95-4FDB-B541-B6C1C66A1DFCQ34362167-66A276C6-DFB1-4AFD-A654-CB8BBEEA684BQ35539708-02455F82-60B6-4B8E-99A5-56D85EAEE1A6Q35665107-8515DA94-04FC-4F68-85BC-CA42D45F1D78Q36034999-0E8026FA-51EB-4182-A1C7-B71F30C6B0E7Q36300246-73F04A65-1BBA-4DDE-B702-49541368D470Q37414679-E30CD0A8-2812-415A-9775-7FC7305BAA1BQ37622946-58B2FC97-2295-4D96-84DE-F6A77F5B02CCQ38529273-9270E9CF-BF8D-438A-9255-5423B1117883Q38650728-2821EDEB-29D1-4100-9717-392BD6674510Q39149351-A34EFC1D-EB0F-43AC-9F62-491DDE966011Q39196103-05CF7B63-F6B2-4F50-BD7A-C58F0AB9E002Q45943465-E7C27D27-8745-4CB4-B9C7-783421C701C3Q47137780-C9E3B649-2540-4C99-B640-1ECF2A11EFC4Q47605405-99C06D6F-F182-429B-95C6-E5211239A032Q54977796-D82BC847-37E6-43F1-9E45-698E4E81B695Q58556185-0F14BFF5-2423-4C65-A447-815D85E90761
P2860
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@en
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@nl
type
label
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@en
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@nl
prefLabel
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@en
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@nl
P2093
P2860
P50
P356
P1433
P1476
Cascleave 2.0, a new approach for predicting caspase and granzyme cleavage targets.
@en
P2093
Mingjun Wang
Xing-Ming Zhao
P2860
P356
10.1093/BIOINFORMATICS/BTT603
P407
P577
2013-10-21T00:00:00Z