about
CHD3 proteins and polycomb group proteins antagonistically determine cell identity in ArabidopsisSparse graphical Gaussian modeling of the isoprenoid gene network in Arabidopsis thalianaMIAME/Plant - adding value to plant microarrray experimentsProbing the reproducibility of leaf growth and molecular phenotypes: a comparison of three Arabidopsis accessions cultivated in ten laboratoriesThe chromodomain of LIKE HETEROCHROMATIN PROTEIN 1 is essential for H3K27me3 binding and function during Arabidopsis development.A systematic comparison and evaluation of biclustering methods for gene expression data.Control of trichome branching by chromatin assembly factor-1.Arabidopsis MSI1 is required for epigenetic maintenance of reproductive development.Chromatin assembly factor CAF-1 is required for cellular differentiation during plant development.Arabidopsis RETINOBLASTOMA-RELATED is required for stem cell maintenance, cell differentiation, and lateral organ production.Organizer-Derived WOX5 Signal Maintains Root Columella Stem Cells through Chromatin-Mediated Repression of CDF4 Expression.Imprinting of the polycomb group gene MEDEA serves as a ploidy sensor in ArabidopsisH3K27me3 profiling of the endosperm implies exclusion of polycomb group protein targeting by DNA methylation.Arabidopsis replacement histone variant H3.3 occupies promoters of regulated genesGENEVESTIGATOR. Arabidopsis microarray database and analysis toolbox.Polycomb-group proteins repress the floral activator AGL19 in the FLC-independent vernalization pathway.Chromatin-remodeling and memory factors. New regulators of plant development.Natural CMT2 variation is associated with genome-wide methylation changes and temperature seasonalityThe Polycomb-group protein MEDEA regulates seed development by controlling expression of the MADS-box gene PHERES1.BRR2a Affects Flowering Time via FLC SplicingThe H3 chaperone function of NASP is conserved in Arabidopsis.Evaluation of alternative RNA labeling protocols for transcript profiling with Arabidopsis AGRONOMICS1 tiling arrays.MSI1-like proteins: an escort service for chromatin assembly and remodeling complexes.Applying the INTACT method to purify endosperm nuclei and to generate parental-specific epigenome profiles.Arabidopsis MSI1 is a component of the MEA/FIE Polycomb group complex and required for seed development.PRC2 Represses Hormone-Induced Somatic Embryogenesis in Vegetative Tissue of Arabidopsis thaliana.Integration of stress-related and reactive oxygen species-mediated signals by Topoisomerase VI in Arabidopsis thaliana.Patterns of beauty--omics meets plant development.Arabidopsis MSI1 connects LHP1 to PRC2 complexes.Auxin production in the endosperm drives seed coat development in Arabidopsis.Diversity of Polycomb group complexes in plants: same rules, different players?Arabidopsis MSI1 functions in photoperiodic flowering time controlGene expression analysis, proteomics, and network discovery.Remodelling chromatin to shape development of plants.Variations on a theme: Polycomb group proteins in plants.Stress-induced chromatin changes in plants: of memories, metabolites and crop improvement.Genome-wide identification of potential plant E2F target genes.Protein purification with C-terminal fusion of maltose binding protein.The polycomb group protein regulatory network.Keeping the gate closed: functions of the polycomb repressive complex PRC2 in development.
P50
Q21563338-CA7A6726-1A59-4E7B-A82B-BF958976F5BDQ24809593-4F2C4E59-C739-4F22-A472-39339C74BB68Q25257197-1B49A463-F4D2-4445-ACA8-F40631F6AE46Q28748176-C488B0FC-B718-4655-B874-3A8FEC30DEFFQ30862207-D3568399-F319-4667-86A6-3D9A0688F545Q31033002-979AD287-700A-4D47-9F03-1FC6B682BA17Q33334253-77C6B1D8-5B9E-43D0-B802-A015292F2AE4Q33338362-CD4639A7-4095-41DC-A770-AAE1E83D6237Q33343228-5240A0FF-A826-4727-8CEF-C2493C313147Q33349206-1D307EF6-ACF2-4E22-A7E3-2C6F7D519317Q33360820-143436B3-C333-4F00-B152-025046E46BF6Q33506602-D4A21C1E-0636-4BD5-B4F6-7AA936D09199Q33719412-688F5EBB-369E-4774-A774-0149C3BB0895Q33744975-39323746-F4FB-41FD-8B74-154BA45092A2Q33981484-FC0EA4DC-54B4-444B-A158-FB2AE9AAB6F8Q34693937-88225FDA-2D2F-4D43-BBB9-E7685FBF2394Q34994704-86B545E2-FA14-4351-8C37-5CF92EAC716FQ35517391-5C984539-D6E9-4F56-917D-A56F1660207FQ35965626-536238DB-C607-47DB-A7C7-EA917235C137Q35996073-212BB0CD-8DD9-4E0A-BED1-A1DFDA882896Q36073390-3D82177F-E95C-4E49-B22F-641F147A6966Q36161491-D17AAEF7-5CF6-4F6E-AF7D-84DDB2D002B8Q36161639-54462284-98BD-4F11-8D35-8FF22FC8BFD0Q36240148-7C19B168-9F2D-4EF7-BF9C-D83961B90FBFQ36245472-8364FEA7-D891-4525-ACE5-6552BDF22FBAQ36251178-5F943038-036A-4310-893F-F7A0171178EDQ36342768-872CB14B-86B0-4014-8DDE-8F3BE8BD8E28Q36853844-06637EF8-E926-42AA-BAC8-890130A18007Q37025941-587CFA59-D26B-4FBD-ACDD-642A7C288755Q37469752-42E2CFE7-9117-4E79-92AE-D146ABCB2868Q37589053-4673CC8E-A67F-43E3-B969-4F01FDA8B071Q37622890-0CFA3619-12F6-4439-8FE9-2E234C9E57FBQ37657954-F77F65E6-135F-421B-9A99-33407F0238ABQ38165642-1C213852-950C-46FC-B5AC-BDD791EC9CE1Q38171239-9E71BAE7-DBD7-407B-A2E3-21CA7A107415Q38314136-2E039C0D-C4D5-40F9-8622-1756F3A39203Q38321681-9315B7B1-B837-4E73-A3AA-E84C84AE473AQ38329626-4BDFF858-C1ED-48B8-AC26-205A9AAD1F2EQ38332641-9BC922C7-5729-464B-8DA2-474E8BE057FCQ38374393-5A1CF145-D25A-4C43-99D7-3631BC1582BF
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Lars Hennig
@ast
Lars Hennig
@en
Lars Hennig
@es
Lars Hennig
@nl
Lars Hennig
@sl
type
label
Lars Hennig
@ast
Lars Hennig
@en
Lars Hennig
@es
Lars Hennig
@nl
Lars Hennig
@sl
prefLabel
Lars Hennig
@ast
Lars Hennig
@en
Lars Hennig
@es
Lars Hennig
@nl
Lars Hennig
@sl
P214
P1053
G-2081-2011
P106
P21
P213
0000 0003 7039 7114
P214
P31
P3829
P496
0000-0002-6645-1862
P735
P7859
viaf-249696095