about
Complete genome sequence and analysis of the multiresistant nosocomial pathogen Corynebacterium jeikeium K411, a lipid-requiring bacterium of the human skin floraThe genome of the recently domesticated crop plant sugar beet (Beta vulgaris)GABI-Kat SimpleSearch: new features of the Arabidopsis thaliana T-DNA mutant databaseThe R2R3-MYB gene family in Arabidopsis thalianaThe genome of the mesopolyploid crop species Brassica rapaThe basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity.Leucoanthocyanidin Dioxygenase in Arabidopsis thaliana: characterization of mutant alleles and regulation by MYB-BHLH-TTG1 transcription factor complexes.A systematic survey in Arabidopsis thaliana of transcription factors that modulate circadian parameters.Exploiting single-molecule transcript sequencing for eukaryotic gene predictionLarge-scale identification and analysis of genome-wide single-nucleotide polymorphisms for mapping in Arabidopsis thaliana.Construction of a 'unigene' cDNA clone set by oligonucleotide fingerprinting allows access to 25 000 potential sugar beet genes.Establishment of a high-efficiency SNP-based framework marker set for Arabidopsis.Chloroplast Genome Sequence of Arabidopsis thaliana Accession Landsberg erecta, Assembled from Single-Molecule, Real-Time Sequencing Data.A simplified method for the analysis of transcription factor-promoter interactions that allows high-throughput data generation.Comparative sequence analysis of Solanum and Arabidopsis in a hot spot for pathogen resistance on potato chromosome V reveals a patchwork of conserved and rapidly evolving genome segments.Diversity of a complex centromeric satellite and molecular characterization of dispersed sequence families in sugar beet (Beta vulgaris).Construction and characterization of a sugar beet (Beta vulgaris) fosmid library.Analysis of a c0t-1 library enables the targeted identification of minisatellite and satellite families in Beta vulgarisExpression analysis of flavonoid biosynthesis genes during Arabidopsis thaliana silique and seed development with a primary focus on the proanthocyanidin biosynthetic pathwayEpigenetic profiling of heterochromatic satellite DNA.Transcriptional repression by AtMYB4 controls production of UV-protecting sunscreens in Arabidopsis.QTL analysis of flowering time and ripening traits suggests an impact of a genomic region on linkage group 1 in VitisPalaeohexaploid ancestry for Caryophyllales inferred from extensive gene-based physical and genetic mapping of the sugar beet genome (Beta vulgaris).Survey of sugar beet (Beta vulgaris L.) hAT transposons and MITE-like hATpin derivatives.Genome-wide identification and characterisation of R2R3-MYB genes in sugar beet (Beta vulgaris)The role of a pseudo-response regulator gene in life cycle adaptation and domestication of beet.Evolutionary reshuffling in the Errantivirus lineage Elbe within the Beta vulgaris genome.Highly diverse chromoviruses of Beta vulgaris are classified by chromodomains and chromosomal integration.Profiling of extensively diversified plant LINEs reveals distinct plant-specific subclades.bZIP transcription factors in Arabidopsis.Integrating bioinformatic resources to predict transcription factors interacting with cis-sequences conserved in co-regulated genes.Reliable in silico identification of sequence polymorphisms and their application for extending the genetic map of sugar beet (Beta vulgaris).Fast forward genetics to identify mutations causing a high light tolerant phenotype in Chlamydomonas reinhardtii by whole-genome-sequencing.GABI-Kat SimpleSearch: an Arabidopsis thaliana T-DNA mutant database with detailed information for confirmed insertionsSMRT sequencing only de novo assembly of the sugar beet (Beta vulgaris) chloroplast genomeRapid gene identification in sugar beet using deep sequencing of DNA from phenotypic pools selected from breeding panels.Repeat Composition of CenH3-chromatin and H3K9me2-marked heterochromatin in Sugar Beet (Beta vulgaris).A De Novo Genome Sequence Assembly of the Arabidopsis thaliana Accession Niederzenz-1 Displays Presence/Absence Variation and Strong SyntenyKnock-out mutants from an En-1 mutagenized Arabidopsis thaliana population generate phenylpropanoid biosynthesis phenotypes.Trace2PS and FSA2PS: two software toolkits for converting trace and fsa files to PostScript format.
P50
Q22065450-B0D3D6BC-BD1A-4F55-A68B-1228CACF58C0Q22122128-07608043-7FFE-4ADA-B9B5-A8D1394145EEQ24619398-03470C6A-92C2-4D8D-80E5-E7CB0BF743E9Q28198054-07E6F530-4F9C-4BDD-B501-CF01FDB44DE8Q28246556-38715EA8-3E55-4F3E-B508-41C5BF02CF14Q30332702-3EB5F77D-B357-4244-B544-2B67042EAC1DQ30403976-0C9607B4-6351-4D5D-B454-81E1DCB3472AQ30482185-E0643C62-8F4C-437D-9F66-D226FF87F0C2Q30663250-E3EB4AE6-BBA2-45E8-B22E-15EE48939069Q30727871-5D6CB830-4501-48BF-A362-4EC4C3023D2DQ30873405-4707AC65-B53B-478C-A5E0-48B82553BFCCQ30982042-BB08B28E-65C8-4396-BA93-58E1EAF3451BQ31132683-388FF19D-B76F-4155-8A90-56A758D5A27CQ33281687-78431BC2-49A9-4AD6-890A-95F40C202C87Q33283454-3343E51F-08B7-46B8-80DD-6C2FD50E6857Q33357968-5281355D-020B-4DEE-A69D-EA377A88DBF4Q33379804-976F08DB-C469-4470-8988-C1F0D4E994D4Q33523191-6875B184-67E4-4C25-A213-F6F72A70E481Q33712406-4D834ED1-8ADB-4B17-B9AD-45E0AC8F25C4Q33905450-5021F274-7184-4D6D-A4DC-64647683641DQ33925419-F49280FD-D07F-4DDF-A40D-B9F431C756C2Q34091286-0EFFC4FB-ED95-49B5-AF76-D645AACF89E8Q34115444-87868ADE-D301-4753-81D5-3AE427A69ABAQ34127937-600399A8-88AE-4B68-85C4-67203769E7BFQ34267335-7910EFDA-BA2B-471A-9C66-8A8AD9417DBEQ34275964-AECBBC51-335F-4DFC-A0F9-3027A4638F7AQ34288663-43F81885-9FDE-4283-A6B7-52DF8B5FF6D7Q34330226-A3ECE29D-8CCA-4B2F-911C-E1917C479FA2Q34421420-CB88DD43-6D35-42D8-9E58-BB7D6C80498CQ34572869-19BF1CAF-A919-4230-BFAE-627A340B06FEQ35158705-7143CEFE-2192-48ED-89C8-985441FE43EBQ35319850-4B3EC833-5B4A-4277-A8DC-1BBEF877BCDEQ35569983-7470BF6F-1B9A-4577-8A07-FCB0BFFAE679Q35608447-AAE6BDCB-C042-45D0-BB24-71C31F45DA9BQ35777994-6705ED2F-4F66-4E85-9F67-1715E98507C9Q35958621-75B48975-0A6E-458D-9EBA-3D2EEC7691EBQ36031643-34B48787-78DE-4B8D-83FC-83D0B510DAC2Q36155081-7EAF7E0E-EB32-405D-84D1-679515017152Q36524842-C219B234-5E60-4BEB-8D84-C6CD19D0F520Q37294057-33FBCA18-15BA-4AD5-99E3-9F9385A612AD
P50
description
moleculair bioloog
@nl
molecular biologist
@en
name
Bernd Weisshaar
@ast
Bernd Weisshaar
@en
Bernd Weisshaar
@es
Bernd Weisshaar
@nl
type
label
Bernd Weisshaar
@ast
Bernd Weisshaar
@en
Bernd Weisshaar
@es
Bernd Weisshaar
@nl
prefLabel
Bernd Weisshaar
@ast
Bernd Weisshaar
@en
Bernd Weisshaar
@es
Bernd Weisshaar
@nl
P1053
B-3859-2014
P1153
7003889340
P1960
K2dBArkAAAAJ
P21
P31
P3829
P496
0000-0002-7635-3473