about
Genetic dissection of resistance to anthracnose and powdery mildew in Medicago truncatula.Mapping of a spontaneous mutation for early flowering time in maize highlights contrasting allelic series at two-linked QTL on chromosome 8.Natural variation of Arabidopsis root architecture reveals complementing adaptive strategies to potassium starvation.The use of neutral and non-neutral SSRs to analyse the genetic structure of a Tunisian collection of Medicago truncatula lines and to reveal associations with eco-environmental variables.Transcriptional regulation of ribosome components are determined by stress according to cellular compartments in Arabidopsis thalianaGenetic architecture of flowering time in maize as inferred from quantitative trait loci meta-analysis and synteny conservation with the rice genome.Nitrogen uptake, assimilation and remobilization in plants: challenges for sustainable and productive agriculture.Exploring NUE in crops and in Arabidopsis ideotypes to improve yield and seed quality.Nitrogen remobilization during leaf senescence: lessons from Arabidopsis to crops.Leaf fructose content is controlled by the vacuolar transporter SWEET17 in Arabidopsis.Exploring nitrogen remobilization for seed filling using natural variation in Arabidopsis thaliana.Quantitative Methods to Assess Differential Susceptibility of Arabidopsis thaliana Natural Accessions to Dickeya dadantii.QTL analysis for sugar-regulated leaf senescence supports flowering-dependent and -independent senescence pathways.Natural variation of the root morphological response to nitrate supply in Arabidopsis thaliana.Exploiting the Genetic Diversity of Maize Using a Combined Metabolomic, Enzyme Activity Profiling, and Metabolic Modeling Approach to Link Leaf Physiology to Kernel Yield.Overexpression of the vacuolar sugar carrier AtSWEET16 modifies germination, growth, and stress tolerance in Arabidopsis.The Arabidopsis ATNRT2.7 nitrate transporter controls nitrate content in seeds.ASN1-encoded asparagine synthetase in floral organs contributes to nitrogen filling in Arabidopsis seeds.Partial Resistance ofMedicago truncatulatoAphanomyces euteichesIs Associated with Protection of the Root Stele and Is Controlled by a Major QTL Rich in Proteasome-Related GenesThe cytosolic glutamine synthetase GLN1;2 plays a role in the control of plant growth and ammonium homeostasis in Arabidopsis rosettes when nitrate supply is not limitingNatural variation of nitrate uptake and nitrogen use efficiency in Arabidopsis thaliana cultivated with limiting and ample nitrogen supplyBioMercator: integrating genetic maps and QTL towards discovery of candidate genesIdentification of quantitative trait loci influencing aerial morphogenesis in the model legume Medicago truncatulaPhylogenomic analysis of the PEBP gene family in cerealsNatural variation of Arabidopsis response to nitrogen availabilityThree cytosolic glutamine synthetase isoforms localized in different-order veins act together for N remobilization and seed filling in ArabidopsisProteomic and lipidomic analyses of the Arabidopsis atg5 autophagy mutant reveal major changes in endoplasmic reticulum and peroxisome metabolisms and in lipid composition
P50
Q33308269-1D221505-193A-4ED9-8FA1-C142B707098FQ33341743-7736755C-E3F4-41D6-B84C-F8FA858ED284Q33355085-AB9280F6-2C49-4BC0-B6A9-D8E026A17380Q33360316-75F298EC-B480-4B12-A503-BF6FAFDDB1CBQ34098972-246053BC-1138-4AE6-9410-7F460EE4BD61Q34569350-DD2EB719-8ACC-4990-9B11-D243E85FFF47Q37714180-B4EC0588-AC89-4F1F-9559-5CD1C97F19EDQ37974524-D38E2E34-6DFE-4F6C-98E5-5A071C9C594EQ38973080-D4B057F3-32E3-44BD-B4F5-EE900861CC4DQ39435758-BA31DB4D-B263-4A4A-B9A3-0354C9B307FFQ41810554-75224C1F-22C6-4805-806D-096301A10EE8Q42175604-97348864-7BD8-4F1E-BD59-2C81AB017C40Q43251640-14AFC662-E604-41B2-8513-1B87AA501842Q45797641-D96FC516-8C89-41BF-A74B-B66555FCAC4DQ48294441-4D8019B9-2CFA-48A8-BC74-4E2ACD089787Q48617947-D040FD5E-EC5C-49AA-854F-2B97CFEBE95CQ48791673-B77690AA-5D81-4121-B009-21FE06307058Q51066556-69FFC93E-CAD4-48DF-84FF-EE4F95CEA604Q57450737-46E4D852-0427-4E02-8F4C-79D5979A26A4Q59594570-40B84862-BF18-45D4-8BC4-4E675C13D65FQ59594571-82CA9B24-6CE7-4259-93FF-E143A9FAEF4BQ79859323-24F5B5A8-0240-4A04-B094-96076F78BC4AQ79999317-E0CD9FF0-48D0-4A40-B147-984895913F10Q81232310-C12D1014-E508-47E1-8CA3-F04BE927447BQ84939374-881B1F5D-C4F8-4184-8D4D-6DDFDEB33910Q89008813-BAC5DE7E-2A7A-43BC-AE93-FF0431BAC501Q91940626-2400679A-A49A-44B3-BC68-97F8A7A91EE1
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Fabien Chardon
@ast
Fabien Chardon
@en
Fabien Chardon
@es
Fabien Chardon
@nl
Fabien Chardon
@sl
type
label
Fabien Chardon
@ast
Fabien Chardon
@en
Fabien Chardon
@es
Fabien Chardon
@nl
Fabien Chardon
@sl
prefLabel
Fabien Chardon
@ast
Fabien Chardon
@en
Fabien Chardon
@es
Fabien Chardon
@nl
Fabien Chardon
@sl
P1053
G-4826-2013
P106
P21
P2798
P31
P3829
P496
0000-0001-7909-3884