Predicting the proteins of Angomonas deanei, Strigomonas culicis and their respective endosymbionts reveals new aspects of the trypanosomatidae familyTwo host clades, two bacterial arsenals: evolution through gene losses in facultative endosymbiontsBRASERO: A Resource for Benchmarking RNA Secondary Structure Comparison AlgorithmsInsights on the virulence of swine respiratory tract mycoplasmas through genome-scale metabolic modelingHow Long Does Wolbachia Remain on Board?Combination of measures distinguishes pre-miRNAs from other stem-loops in the genome of the newly sequenced Anopheles darlingiModes and cuts in metabolic networks: complexity and algorithms.Sampling solution traces for the problem of sorting permutations by signed reversals.Telling metabolic stories to explore metabolomics data: a case study on the yeast response to cadmium exposureOn the genetic architecture of cytoplasmic incompatibility: inference from phenotypic data.DegreeCox - a network-based regularization method for survival analysisMirinho: An efficient and general plant and animal pre-miRNA predictor for genomic and deep sequencing dataMetabolic network visualization eliminating node redundance and preserving metabolic pathways.Efficient representation and P-value computation for high-order Markov motifs.Identification of expressed transposable element insertions in the sequenced genome of Drosophila melanogaster.Analysis of fine-scale mammalian evolutionary breakpoints provides new insight into their relation to genome organisation.Footprints of inversions at present and past pseudoautosomal boundaries in human sex chromosomes.Graph-based analysis of the metabolic exchanges between two co-resident intracellular symbionts, Baumannia cicadellinicola and Sulcia muelleri, with their insect host, Homalodisca coagulata.CycADS: an annotation database system to ease the development and update of BioCyc databasesBacterial syntenies: an exact approach with gene quorum.Close 3D proximity of evolutionary breakpoints argues for the notion of spatial synteny.Current methods of gene prediction, their strengths and weaknesses.KISSPLICE: de-novo calling alternative splicing events from RNA-seq dataExploration of the core metabolism of symbiotic bacteria.Short and long-term genome stability analysis of prokaryotic genomes.EUCALYPT: efficient tree reconciliation enumerator.Assessing the exceptionality of coloured motifs in networks.Genome reduction and potential metabolic complementation of the dual endosymbionts in the whitefly Bemisia tabaci.A polynomial delay algorithm for the enumeration of bubbles with length constraints in directed graphs.Enumeration of minimal stoichiometric precursor sets in metabolic networks.Mycoplasma non-coding RNA: identification of small RNAs and targetsLossless filter for multiple repeats with bounded edit distance.ISMB/ECCB 2009 Stockholm.An introduction to metabolic networks and their structural analysis.Systemic analysis of the symbiotic function of Buchnera aphidicola, the primary endosymbiont of the pea aphid Acyrthosiphon pisum.Playing hide and seek with repeats in local and global de novo transcriptome assembly of short RNA-seq reads.Precise detection of rearrangement breakpoints in mammalian chromosomes.MetExplore: a web server to link metabolomic experiments and genome-scale metabolic networksNavigating the unexplored seascape of pre-miRNA candidates in single-genome approaches.A Combinatorial Algorithm for Microbial Consortia Synthetic Design
P50
Q21133598-DF9E9F02-0BA8-41A3-A14B-D1F201DE9D45Q24556489-5CA2031A-386B-4639-81BB-83A80DD6369DQ28728949-1686054E-DD07-4020-BB15-BC3D8D4033EEQ28834262-2AD98EF2-600F-427A-9DC3-5C9E14728C66Q30398648-568881A6-DB85-4361-90F3-6061F1F1A54DQ30497578-72009389-3CA0-4DA1-8ECA-13C10C16B9CEQ30544012-61B04F38-827D-4CF8-A301-EB4F5897F612Q30557801-48922415-8016-43DC-B1BD-59B8D15385B2Q30559839-716B2FEA-AFA2-488E-9D15-1DBD95335222Q30650137-F112D2E2-B4B5-4264-BC29-E14145BC1619Q30835679-D8108F28-A59C-452C-A9C8-3E074EEBF59EQ30960997-6C74D111-2782-45B4-A836-61F733F24ABEQ33289812-8F8EAFCA-E680-4C00-9E91-9333BE0AFDF7Q33358809-3F446B9C-2642-419C-994C-E7C904C4CA8FQ33424178-A4973893-DF26-4B93-9FC3-FD7F22560886Q33486719-F00B40E9-DF9A-4C90-BB81-90683825DC7EQ33633447-BBA6D146-DE52-490E-BBCE-1C19BA48729AQ33691388-8C6DF44B-BBDC-47F7-80F5-736B81329B3AQ33865553-2FBC6F98-FBC2-4FA2-9173-0ADFF4AF31F0Q33909529-AA45B377-889C-4E91-8A14-0F07ECEDA5A6Q33929552-0BF3AC70-8AEE-4362-8FAD-C5672F6A1E86Q34153049-D9CEA691-82E5-4C0B-8A0C-E1FDDEF0DDEEQ34248238-DBB2CC53-F439-400C-B310-9159089B6F9CQ34400247-97F5BD79-5B85-4F7C-B95D-EB893195F36CQ34708996-DF66C83B-DA8A-46EC-8342-0423417C5E51Q35025471-DDB6DC2A-538B-4D2D-914E-18B4256C1422Q35209072-43A00FCC-F0D6-4B6A-A427-8527975447F5Q35607854-4B2A895A-BAED-4F5D-A5B7-D8C14F90D0B8Q35676803-48F5E629-1B31-419A-96F0-E8E35763236EQ36146603-5431746E-CF2C-4A96-B54A-1D06F2C1357EQ36178987-88B8E475-52AB-4B86-9E8F-0204EF60B8DAQ37142244-E6D92E66-8D69-42C5-B974-0EC120BF6A65Q37206425-14FA88A6-3132-4EA8-B81F-F6979B3B151EQ37319241-E06BC25C-D443-462F-A357-3BFDB9AE0127Q37631976-F6B402DD-3DF6-474A-8F09-E7A271DD1F2AQ37661601-C7427F2E-3954-4F92-8673-54AE9F2F6162Q39673599-DC814504-D203-4560-BED6-38D3332C28EEQ41773574-A988B1F5-513B-4DB7-AB7A-AB30B8441458Q41776572-A2A3B1A5-B596-48A0-8E13-4E9469307B07Q41885087-D9513D5C-43A0-4072-82FA-CA565EC2EA9D
P50
subject
description
Director of Research at INRIA
@en
onderzoeker
@nl
name
Marie-France Sagot
@ast
Marie-France Sagot
@de
Marie-France Sagot
@en
Marie-France Sagot
@es
Marie-France Sagot
@fr
Marie-France Sagot
@nl
Marie-France Sagot
@sl
type
label
Marie-France Sagot
@ast
Marie-France Sagot
@de
Marie-France Sagot
@en
Marie-France Sagot
@es
Marie-France Sagot
@fr
Marie-France Sagot
@nl
Marie-France Sagot
@sl
prefLabel
Marie-France Sagot
@ast
Marie-France Sagot
@de
Marie-France Sagot
@en
Marie-France Sagot
@es
Marie-France Sagot
@fr
Marie-France Sagot
@nl
Marie-France Sagot
@sl
P214
P244
P101
P106
P108
P1153
6701533535
P1556
sagot.marie-france
P166
P1960
-Ni-PB4AAAAJ
P21
P214
P244
n2001007553
P2456
P31
P4955
P549
P569
2000-01-01T00:00:00Z
P735
P864
81100192098