about
Representing and querying disease networks using graph databasesDeveloping integrated crop knowledge networks to advance candidate gene discoveryNetwork-based data integration for selecting candidate virulence associated proteins in the cereal infecting fungus Fusarium graminearumData integration for plant genomics--exemplars from the integration of Arabidopsis thaliana databases.Graph-based sequence annotation using a data integration approach.Assessing the functional coherence of modules found in multiple-evidence networks from Arabidopsis.AIGO: towards a unified framework for the analysis and the inter-comparison of GO functional annotations.Discovering study-specific gene regulatory networks.Recon2Neo4j: applying graph database technologies for managing comprehensive genome-scale networks.Arete - candidate gene prioritization using biological network topology with additional evidence types.Genetical and comparative genomics of Brassica under altered Ca supply identifies Arabidopsis Ca-transporter orthologs.EpiGeNet: A Graph Database of Interdependencies Between Genetic and Epigenetic Events in Colorectal Cancer.Transcriptome and metabolite profiling of the infection cycle of Zymoseptoria tritici on wheat reveals a biphasic interaction with plant immunity involving differential pathogen chromosomal contributions and a variation on the hemibiotrophic lifestyInteractive exploration of integrated biological datasets using context-sensitive workflows.Analysis and visualisation of RDF resources in OndexA Framework for Mining Life Sciences Data on the Semantic Web in an Interactive, Graph-Based EnvironmentNavigating the disease landscape: knowledge representations for contextualizing molecular signaturesA novel approach to identify genes that determine grain protein deviation in cereals
P50
Q26741378-E07CF1AC-94EE-4220-A6AE-BA1F4E4B428CQ28586227-34CFC1BD-B34E-43D6-930B-2385B33002A0Q30655688-9198E312-0AB4-41ED-98D8-99722B117F0DQ33516459-1019E347-65DC-484D-976F-46B6AD7BAD4AQ33529596-E152C819-6720-4921-BB63-87718EDD3DBFQ33911818-D4D61649-99F4-4C43-A7A3-C63631CE5CCDQ34067407-1FCD219B-688C-46D1-82BB-28EA3CCCD6D7Q35239689-4E088A02-7EF4-476D-BE6F-562C58C70D2AQ36228902-C95B9B31-46CA-44CF-9998-B396BE4746A8Q38374230-B1DCE7EF-87F0-47C9-B62E-551E6C1169D3Q38425996-F336E7FC-537E-4ECF-A303-6BB7D49A3934Q39391298-5BE3E9D2-4C45-450A-B659-01C46DCDA8D6Q41538755-E3FBC6EC-649D-4CBE-96B9-47E422AE0C53Q41956090-94A4E68D-1AF9-4C04-B73B-63EC88C3C13DQ57240834-EB43DD06-50AD-47E2-9F79-9477F608EFF4Q57743187-60433BF5-0E65-433B-A091-25431E3011D2Q64125076-A087E7E3-5726-42C4-9746-3B7D058AC615Q85977270-34187820-BE61-42EB-97E2-65DAF83EB6E5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Artem Lysenko
@ast
Artem Lysenko
@en
Artem Lysenko
@es
Artem Lysenko
@nl
Artem Lysenko
@sl
type
label
Artem Lysenko
@ast
Artem Lysenko
@en
Artem Lysenko
@es
Artem Lysenko
@nl
Artem Lysenko
@sl
prefLabel
Artem Lysenko
@ast
Artem Lysenko
@en
Artem Lysenko
@es
Artem Lysenko
@nl
Artem Lysenko
@sl
P108
P106
P21
P2456
P31
P496
0000-0002-1441-0604