about
sameAs
Analysis of the chromosome sequence of the legume symbiont Sinorhizobium meliloti strain 1021The genome of Theobroma cacaoGenome sequence of the metazoan plant-parasitic nematode Meloidogyne incognitaThe Medicago genome provides insight into the evolution of rhizobial symbiosesGenome sequence of the plant pathogen Ralstonia solanacearumGenome duplication in the teleost fish Tetraodon nigroviridis reveals the early vertebrate proto-karyotypeThe InterPro database, an integrated documentation resource for protein families, domains and functional sitesInterPro--an integrated documentation resource for protein families, domains and functional sitesMultiple recent horizontal transfers of a large genomic region in cheese making fungiA gene-phenotype network based on genetic variability for drought responses reveals key physiological processes in controlled and natural environmentsAdaptive Horizontal Gene Transfers between Multiple Cheese-Associated FungiDegeneration of the nonrecombining regions in the mating-type chromosomes of the anther-smut fungi.Polymorphic Microsatellite Markers for the Tetrapolar Anther-Smut Fungus Microbotryum saponariae Based on Genome SequencingFixJ-regulated genes evolved through promoter duplication in Sinorhizobium meliloti.The complete sequence of the 1,683-kb pSymB megaplasmid from the N2-fixing endosymbiont Sinorhizobium meliloti.Nucleotide sequence and predicted functions of the entire Sinorhizobium meliloti pSymA megaplasmidA high-density physical map of Sinorhizobium meliloti 1021 chromosome derived from bacterial artificial chromosome libraryFull-length de novo assembly of RNA-seq data in pea (Pisum sativum L.) provides a gene expression atlas and gives insights into root nodulation in this species.Expression profiling in Medicago truncatula identifies more than 750 genes differentially expressed during nodulation, including many potential regulators of the symbiotic program.Exploring root symbiotic programs in the model legume Medicago truncatula using EST analysis.Identification of new potential regulators of the Medicago truncatula-Sinorhizobium meliloti symbiosis using a large-scale suppression subtractive hybridization approach.LeARN: a platform for detecting, clustering and annotating non-coding RNAsInteroperability with Moby 1.0--it's better than sharing your toothbrush!Genome-wide Medicago truncatula small RNA analysis revealed novel microRNAs and isoforms differentially regulated in roots and nodules.An integrated analysis of plant and bacterial gene expression in symbiotic root nodules using laser-capture microdissection coupled to RNA sequencing.Symbiosis-related plant genes modulate molecular responses in an arbuscular mycorrhizal fungus during early root interactions.The complete genome sequence of Xanthomonas albilineans provides new insights into the reductive genome evolution of the xylem-limited XanthomonadaceaePartial chromosome sequence of Spiroplasma citri reveals extensive viral invasion and important gene decay.Hybridization and polyploidy enable genomic plasticity without sex in the most devastating plant-parasitic nematodes.Transcription reprogramming during root nodule development in Medicago truncatulaImproved methods and resources for paramecium genomics: transcription units, gene annotation and gene expression.Evolutionary strata on young mating-type chromosomes despite the lack of sexual antagonismInterPro: an integrated documentation resource for protein families, domains and functional sites.Transcriptomic analysis of the interaction between Helianthus annuus and its obligate parasite Plasmopara halstedii shows single nucleotide polymorphisms in CRN sequences.The composite genome of the legume symbiont Sinorhizobium meliloti.Specific versus non-specific immune responses in an invertebrate species evidenced by a comparative de novo sequencing studyComparative sequence analysis of the symbiosis island of Mesorhizobium loti strain R7A.The small RNA diversity from Medicago truncatula roots under biotic interactions evidences the environmental plasticity of the miRNAome.Genomic insights into strategies used by Xanthomonas albilineans with its reduced artillery to spread within sugarcane xylem vesselsLegume genome evolution viewed through the Medicago truncatula and Lotus japonicus genomes
P50
Q22066238-4E437F96-FC63-451E-8B39-7D37DFB26389Q22122059-C0006C54-2C61-49A5-8DB8-1C79E6142B08Q22122131-9CFAD0D1-1E40-4F49-B640-7D74A578D429Q22122164-35D2B3EC-4A96-4C88-AC88-E12543E7108FQ22122347-F4C14230-E3DF-4500-98F4-B125A52B1967Q22122487-9A24D891-7A1C-48AB-B607-CD553348B881Q28140863-AAC04066-FD8B-4E3F-8B48-62A7F5C52853Q28142845-2F0E9B9D-AAC9-4090-BC1F-0C0D9611F837Q28305540-68870C6B-8255-42C4-8D61-455741B1977DQ28484285-A86B7F98-D4DF-4B16-A145-149ED2CADF5DQ28606607-3F685838-F3BE-4698-A2FE-61784825ADD1Q28650986-7D49112E-E253-418D-B0B1-917004DDA600Q28821644-578DAAA6-491E-4509-9160-1E645170189BQ29346928-CD500DFC-895F-47F0-8A0D-29F22590F589Q30695964-7A3FF30D-EB42-4912-B83D-EE0EF87B0A33Q30695976-2EC5DDCF-4FC5-4CE1-8567-55A1E3FC8CCBQ30748641-91BF8458-F9F8-49AB-BCC9-B689B7C03D3CQ30988819-10F81B0E-A69E-4DCF-B09A-92C01AAD2A62Q31118649-D90E6AF7-FB9E-46BA-978F-AA38D3D85786Q31121953-B63DB278-D56D-444B-BC7D-204AE31523BCQ33279661-694B66C5-1024-401B-AD18-03D7DD87E5CCQ33314655-336A17A5-AA4E-4ED6-BCC1-ACDC19B5E676Q33317730-8897FFD3-9A98-44E3-A1CA-67BD7B5FE024Q33347859-36794E20-3D1C-4524-A9A1-C9A216DAC3D1Q33357687-95B1CF58-AD0A-45B1-9612-997FCEAB2C56Q33412819-00EC24AF-B8BC-4B91-A4DB-D63C9F4B3AE9Q33519172-6B69B91F-BC19-4498-9305-50DF327C05F9Q33549111-3CE88063-966D-41D7-9DBE-C7939FF14E76Q33782678-EFFE0E1C-3997-41AE-8093-025BFE0ACC90Q33815139-EE58BAB6-79C4-4A19-9F1B-75565DC1FF5FQ33837592-0E2DD81A-12C9-4719-A0B2-13D08978F2D9Q33887014-FA57C7E3-30FC-4F03-B41F-75C97609EABDQ33961349-B7B6EAD7-1AA1-40FE-8F70-84F027919240Q34046328-10FBB480-0BB3-4BEE-B1D8-31ACB68C852EQ34085156-D4360B86-A676-454D-9577-6496FFAD57B9Q34199883-32A62D44-6331-47E0-99E0-0663D24FDA27Q34312033-8F9211FB-5EDB-44A9-BEF7-FE28689F8F04Q34416881-83323342-DECD-4931-AA34-04FB3F14564EQ34484330-983AE95D-0221-4889-894C-E0A1AD56B8B4Q35052103-821757DE-909B-4CB1-B8D2-2230BF819D13
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jérôme Gouzy
@ast
Jérôme Gouzy
@en
Jérôme Gouzy
@es
Jérôme Gouzy
@fr
Jérôme Gouzy
@nl
Jérôme Gouzy
@sl
type
label
Jérôme Gouzy
@ast
Jérôme Gouzy
@en
Jérôme Gouzy
@es
Jérôme Gouzy
@fr
Jérôme Gouzy
@nl
Jérôme Gouzy
@sl
prefLabel
Jérôme Gouzy
@ast
Jérôme Gouzy
@en
Jérôme Gouzy
@es
Jérôme Gouzy
@fr
Jérôme Gouzy
@nl
Jérôme Gouzy
@sl
P106
P21
P31
P3835
jerome-gouzy
P496
0000-0001-5695-4557