about
The genome of Eucalyptus grandisReconstruction of monocotelydoneous proto-chromosomes reveals faster evolution in plants than in animalsIdentification and characterization of shared duplications between rice and wheat provide new insight into grass genome evolutionDecoding the oak genome: public release of sequence data, assembly, annotation and publication strategies.Physical mapping in large genomes: accelerating anchoring of BAC contigs to genetic maps through in silico analysis.A physical map of the 1-gigabase bread wheat chromosome 3B.Bioinformatic analysis of ESTs collected by Sanger and pyrosequencing methods for a keystone forest tree species: oakSynteny between Arabidopsis thaliana and rice at the genome level: a tool to identify conservation in the ongoing rice genome sequencing project.Deciphering the genomic structure, function and evolution of carotenogenesis related phytoene synthases in grassesGenomicusPlants: a web resource to study genome evolution in flowering plants.The oak gene expression atlas: insights into Fagaceae genome evolution and the discovery of genes regulated during bud dormancy releaseTypes and rates of sequence evolution at the high-molecular-weight glutenin locus in hexaploid wheat and its ancestral genomes.RNA-seq in grain unveils fate of neo- and paleopolyploidization events in bread wheat (Triticum aestivum L.).Structure and expression analysis of rice paleo duplicationsThe 'inner circle' of the cereal genomes.Palaeogenomics in cereals: modeling of ancestors for modern species improvement.In silico archeogenomics unveils modern plant genome organisation, regulation and evolution.Reconstructing the genome of the most recent common ancestor of flowering plants.Ancestors of modern plant crops.Deciphering the evolutionary interplay between subgenomes following polyploidy: A paleogenomics approach in grasses.Wheat paleohistory created asymmetrical genomic evolution.Reconciling the evolutionary origin of bread wheat (Triticum aestivum).
P50
Q22122137-1D7F4C97-7348-47A3-BB9D-687FF9B2D224Q28751752-FA39F06A-1FFD-4FD4-A5FC-F7289A79BF0EQ28755477-4063AF20-81F4-4865-858D-EAB966B4FE6AQ30945047-3357CB9A-DC5F-45FE-A3CD-1D8899D32149Q33307139-49F2C0AC-C0D1-446B-BFF1-181B3215B488Q33373632-30CB129C-4911-4DB0-8FA4-D499C618F4C9Q33752048-FB59108F-9A0A-443C-92C5-EB25BE36BEDBQ33891962-9BCDA8AF-43C2-4684-AFD8-A9A64F7B5F2CQ34294171-A36CD272-0AE1-4DA5-9429-43AC75F3F323Q34994737-1980CA2B-406E-4C0F-9F0A-B978456F3968Q35149450-036E931B-56F0-4294-BF0A-DA0BFDCCDF98Q35176082-578730EF-40FA-4CBB-8C91-6441FD6A0392Q35907667-01EB8FE2-3A13-4067-9B48-D8A22B2D14F5Q37118810-96CC5BA2-7E5F-4F92-AA12-58E29FF2AB43Q37354535-3C5FECD9-171A-42CB-A3B2-10CC570BED43Q37850133-7C850385-FC3A-43E1-96A8-5B9DACC152F9Q37978976-4151E063-F04F-473F-8947-AB145068D074Q38435981-8D901B4B-5753-4742-92F5-2CD01333F337Q38777985-5B0D25D2-EA82-4E84-93D8-3C3B162A25DCQ38899708-BFF684DF-B609-425D-86E0-F57B3FA99386Q38969394-743D7904-3405-414C-AE31-E23969228D1CQ39463546-002E28BF-F2D9-4C02-8F4C-1AB83D30FA81
P50
description
onderzoeker
@nl
name
Jérôme Salse
@ast
Jérôme Salse
@en
Jérôme Salse
@nl
Jérôme Salse
@sl
type
label
Jérôme Salse
@ast
Jérôme Salse
@en
Jérôme Salse
@nl
Jérôme Salse
@sl
prefLabel
Jérôme Salse
@ast
Jérôme Salse
@en
Jérôme Salse
@nl
Jérôme Salse
@sl