about
Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the ArchaeplastidaThe Ectocarpus genome and the independent evolution of multicellularity in brown algaeComplex life cycles of multicellular eukaryotes: new approaches based on the use of model organismsNormalisation genes for expression analyses in the brown alga model Ectocarpus siliculosus.Brown algal morphogenesis: atomic force microscopy as a tool to study the role of mechanical forces.Understanding "green" multicellularity: do seaweeds hold the key?Morphoelasticity in the development of brown alga Ectocarpus siliculosus: from cell rounding to branchingDevelopment and physiology of the brown alga Ectocarpus siliculosus: two centuries of research.The green seaweed Ulva: a model system to study morphogenesis.Localization of causal locus in the genome of the brown macroalga Ectocarpus: NGS-based mapping and positional cloning approachesProduction of genetically and developmentally modified seaweeds: exploiting the potential of artificial selection techniques.Laser capture microdissection in Ectocarpus siliculosus: the pathway to cell-specific transcriptomics in brown algae.Real-time PCR: what relevance to plant studies?Molecular characterization and expression of alfalfa (Medicago sativa L.) flavanone-3-hydroxylase and dihydroflavonol-4-reductase encoding genes.Computational prediction and experimental validation of microRNAs in the brown alga Ectocarpus siliculosus.Plant Proteus: brown algal morphological plasticity and underlying developmental mechanisms.Transgenic tobacco plants expressing the Drosophila Polycomb (Pc) chromodomain show developmental alterations: possible role of Pc chromodomain proteins in chromatin-mediated gene regulation in plants.Furthering knowledge of seaweed growth and development to facilitate sustainable aquaculture.Auxin metabolism and function in the multicellular brown alga Ectocarpus siliculosus.Organization and expression of the GSK3/shaggy kinase gene family in the moss Physcomitrella patens suggest early gene multiplication in land plants and an ancestral response to osmotic stress.Culture methods and mutant generation in the filamentous brown algae Ectocarpus siliculosus.Surfing amongst Oil-Tankers: Connecting Emerging Research Fields to the Current International Landscape.ETOILE regulates developmental patterning in the filamentous brown alga Ectocarpus siliculosus.EARLY DEVELOPMENT PATTERN OF THE BROWN ALGA ECTOCARPUS SILICULOSUS (ECTOCARPALES, PHAEOPHYCEAE) SPOROPHYTE(1).Life-cycle-generation-specific developmental processes are modified in the immediate upright mutant of the brown alga Ectocarpus siliculosus.Expression profiling of the whole Arabidopsis shaggy-like kinase multigene family by real-time reverse transcriptase-polymerase chain reaction.The Ectocarpus Genome and Brown Algal GenomicsThe brown algal mode of tip growth: Keeping stress under controlGazing at Cell Wall Expansion under a Golden LightAlgal Morpho-Inducers03-P007 Characterisation of the hyperbranching mutant “étoile” in the filamentous brown alga EctocarpusA stochastic 1D nearest-neighbour automaton models early development of the brown alga Ectocarpus siliculosusThe Arabidopsis thaliana GSK3/Shaggy like kinase AtSK3-2 modulates floral cell expansionUn Picasso parmi les algues brunes : la difficile conquête de la symétrie chezEctocarpusQ61833134Bigfoot: a new family of MITE elements characterized from the Medicago genusNew plant promoter and enhancer testing vectorsAlginates along the filament of the brown alga Ectocarpus help cells cope with stressDesign Principles of Branching Morphogenesis in Filamentous OrganismsInsights into the Evolution of Multicellularity from the Sea Lettuce Genome
P50
Q22066262-FF7DCECA-5920-4E05-BAFC-29C2D004C653Q22122187-C1825E07-D1D1-4E40-B896-C4DA694D9B24Q28248889-C6738273-325F-48C1-8EA4-FB2618FB23FFQ33360989-82659E22-42D3-488A-B599-FFA1F75E9141Q34198712-A92B2FFE-3099-4229-AAC6-51A27DC17E44Q34461401-4ACD827B-FFBD-41DD-AA0D-04A169CC04A9Q34551848-98532830-60F0-4165-803F-C94856C7B3C2Q34734100-07A975B0-0EAB-4FAA-960D-3D77EE93B491Q35099204-C4AC279D-E9FA-408A-86E8-F674EFAA7436Q35099315-DB0C0DC6-6302-4335-8BF1-5DDC04A64254Q35184067-827E6EA8-3861-49DF-930B-DC8C3970982CQ35567361-D3F83496-535D-4794-B99D-C68BFC6701C8Q35811627-4B38AB0D-9D5C-4850-A4E6-87C0E3830F42Q36788874-262084FB-815E-4E2D-9C76-1F2AE9044F0FQ37417003-64883A71-159E-4CAF-BFBE-4D46CEBCB8E7Q38003524-C7C602D5-997E-4B8C-BA3F-129E81D30AE0Q38323762-EF35B91B-4AC8-415B-827C-0817F015DA90Q38628881-3623FC36-CDCE-4939-B98A-89DE5852E2A9Q43143844-D083A347-F0AA-42F3-8BA8-DCB2CC17EDF1Q46593096-9B79039F-AEBC-41E4-9B0A-A70256E94148Q46885644-885E209B-E7B4-4EB6-9964-2198D6A80A78Q47595335-BD6860FC-9008-4571-94AB-46E4E01ABFC5Q51872596-4A054E71-87B0-4D79-8230-3BA94E45C322Q51948603-3D168548-735D-4316-8003-472684A22F97Q51962023-A52F4D28-6547-4F80-93EE-B264C5616B01Q52113861-4EF5D2B4-AA8C-4CCE-8B25-1DD6AA12D0DBQ56989975-6E264D67-0F83-4FC6-BA3C-F9C5672BA8D1Q61818313-4F820A3B-D851-45B6-ADCC-FD65E04C78F7Q61833117-AE72452C-0076-4494-B9D6-3FCD384CEBA8Q61833118-5731DA33-6178-4EAC-BD2F-5D5AB2B823EFQ61833123-B02E3833-DAE3-4C20-B430-61727BDBE8AEQ61833124-F0F71ADD-FB79-4528-A4CB-6EF5984ACBC4Q61833127-E538D5B4-E62E-4ED3-A20D-AD7FFAD07BC2Q61833130-09479DE3-42F6-4056-A543-0907E80C175DQ61833134-4A8FE74A-2E98-41EA-90A3-91B106900A4BQ61833136-DC8FECF6-A441-4497-9B6E-C5586DE97A12Q61833137-F5C6E5CC-E793-484B-AD70-5F22F32C643EQ90045385-1FA44C81-0E87-4378-9915-83BA7F42BF4DQ91123468-411DACBE-FE4D-4366-BA1E-7C4582E58AFDQ91471343-23171139-D94F-43B5-8892-29CA66CE3322
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Bénédicte Charrier
@ast
Bénédicte Charrier
@en
Bénédicte Charrier
@es
Bénédicte Charrier
@fr
Bénédicte Charrier
@nl
Bénédicte Charrier
@sl
type
label
Bénédicte Charrier
@ast
Bénédicte Charrier
@en
Bénédicte Charrier
@es
Bénédicte Charrier
@fr
Bénédicte Charrier
@nl
Bénédicte Charrier
@sl
prefLabel
Bénédicte Charrier
@ast
Bénédicte Charrier
@en
Bénédicte Charrier
@es
Bénédicte Charrier
@fr
Bénédicte Charrier
@nl
Bénédicte Charrier
@sl
P108
P106
P1153
23388160600
P21
P31
P496
0000-0001-5721-1640