about
Global analysis of the small RNA transcriptome in different ploidies and genomic combinations of a vertebrate complex--the Squalius alburnoidesThe advantages and disadvantages of being polyploidGenetic and epigenetic interactions in allopolyploid plantsHomoeolog-specific retention and use in allotetraploid Arabidopsis suecica depends on parent of origin and network partnersStochastic and epigenetic changes of gene expression in Arabidopsis polyploidsChromosomal locus rearrangements are a rapid response to formation of the allotetraploid Arabidopsis suecica genomeGenomic changes in synthetic Arabidopsis polyploids.Discovery of chemically induced mutations in rice by TILLING.Genetic basis for dosage sensitivity in Arabidopsis thaliana.Large-scale polymorphism of heterochromatic repeats in the DNA of Arabidopsis thaliana.TILLING to detect induced mutations in soybean.Transgene-induced gene silencing is not affected by a change in ploidy level.The maternally expressed WRKY transcription factor TTG2 controls lethality in interploidy crosses of Arabidopsis.Parental squabbles and genome expression: lessons from the polyploidsA modified TILLING approach to detect induced mutations in tetraploid and hexaploid wheat.Polyploid genome of Camelina sativa revealed by isolation of fatty acid synthesis genes.Discovery of rare mutations in populations: TILLING by sequencing.Targeted screening for induced mutations.Statistical mutation calling from sequenced overlapping DNA pools in TILLING experiments.Reference genome-independent assessment of mutation density using restriction enzyme-phased sequencing.Understanding mechanisms of novel gene expression in polyploids.The rapidly evolving centromere-specific histone has stringent functional requirements in Arabidopsis thaliana.Efficient discovery of DNA polymorphisms in natural populations by Ecotilling.Mismatch cleavage by single-strand specific nucleasesPhenotypic consequences of aneuploidy in Arabidopsis thaliana.TILLING and ecotilling for rice.Aneuploidy and genetic variation in the Arabidopsis thaliana triploid responseThe effect of stress on genome regulation and structureGenomewide nonadditive gene regulation in Arabidopsis allotetraploidsSpectrum of chemically induced mutations from a large-scale reverse-genetic screen in Arabidopsis.High-throughput discovery of rare human nucleotide polymorphisms by Ecotilling.Large-scale discovery of induced point mutations with high-throughput TILLING.Efficient Genome-Wide Detection and Cataloging of EMS-Induced Mutations Using Exome Capture and Next-Generation Sequencing.Do the different parental 'heteromes' cause genomic shock in newly formed allopolyploids?Single-nucleotide mutations for plant functional genomics.Catastrophic chromosomal restructuring during genome elimination in plants.TILLING. Traditional mutagenesis meets functional genomics.Rapid creation of Arabidopsis doubled haploid lines for quantitative trait locus mappingA differential dosage hypothesis for parental effects in seed development.Methods for genome-wide analysis of gene expression changes in polyploids
P50
Q21134137-EDB7803A-9211-443C-892B-3CED3AF955E8Q22122019-13B08A91-A80B-4E0F-8C20-87823DEADFD4Q26810051-83CAC390-E02E-46F8-A572-344F8D393EC2Q28742321-FA4B6E30-5131-44BF-9F52-DC527D831586Q28768687-44766829-CAC8-4B56-80E4-85233A4D0CB9Q30978658-84A5BB17-8872-477B-92BA-A59FA85B80C8Q30979821-B9B65111-5EBE-4488-9352-406082E15EB1Q33281829-7EC01E1F-594D-4111-A9F1-9AA89AEFDCB0Q33283068-B45801B3-F3F2-4D6B-88D8-DCDE6D48157EQ33294499-4A4CA6BB-AC85-4BDE-9C6B-8D74EE3C233DQ33316413-68EF3197-6174-4FC5-89B1-F65B952776F4Q33363134-C4B3710D-A733-4357-BCEF-D3A9EF9C6DACQ33391946-8A66F299-AE75-4BD5-9D5E-4358A9F3003BQ33445302-44289CC5-8092-43B0-B823-88FE5BAA47F1Q33497643-1A9F6CBB-7082-47E1-8EDD-A58C2503E229Q33729218-7151F560-E5F9-4404-B1E5-0FD8DA8F7C56Q33885544-B4221C5F-B616-4D14-AC37-D7C723A6DE82Q33896820-31AD0B74-D5D8-40DA-BA8B-894ADEDEF990Q33960882-94C94529-D7B7-48DA-8BF7-95144EED161CQ34158643-3EF6EFD5-664D-4AD0-A90B-3CDD3ACAAFC5Q34180932-053C05A8-7AB3-4AED-9C58-77258ADA7E66Q34196458-DBC1DF61-2C73-4B55-9282-65DCBF58BACDQ34296952-A1A3C8E7-E7A9-4526-BE97-8083E1C7FD0FQ34327561-73974F22-D0D1-41BC-8DE1-BB7BCDAC6EA1Q34386902-9E6344F9-D1B3-4620-8DBB-C0CE85707180Q34470722-118D81C7-7627-4750-85E4-C5A61982662AQ34558370-52153940-66CF-4A69-A572-17B4FFB73114Q34564629-5220D79D-D220-4DAB-BE7E-95982DF6A52DQ34587400-8E636D95-779E-4F8E-8867-892932694975Q34617887-EE6B7AC4-C4E6-4597-90DB-098404907BF5Q34977472-C36E755B-F7DB-4213-9429-4CCDBDBDAC38Q34999257-A36CF240-0541-4A1A-9AC7-540E12F9301CQ35147024-3A3F558F-40B2-4011-8F34-5238C5A71793Q35213567-FD666285-C8C6-4907-AA35-2D474CC92D62Q35540320-A930D158-E88B-4332-AA59-862770A1CD73Q35708807-72E3043E-4D68-46FB-B15C-F740FC222CCDQ35779583-849A396B-41A0-4F43-8BB9-AE3639BA3F6FQ35837202-B313A258-EA03-4796-A269-FA0B2F8C9CA1Q35973059-561DA9E2-19B4-40A9-8D09-552831BB494EQ36002753-7EB866E3-0798-441D-85D0-CDF979A1DA3D
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luca Comai
@ast
Luca Comai
@en
Luca Comai
@es
Luca Comai
@fr
Luca Comai
@nl
Luca Comai
@sl
type
label
Luca Comai
@ast
Luca Comai
@en
Luca Comai
@es
Luca Comai
@fr
Luca Comai
@nl
Luca Comai
@sl
prefLabel
Luca Comai
@ast
Luca Comai
@en
Luca Comai
@es
Luca Comai
@fr
Luca Comai
@nl
Luca Comai
@sl
P1053
F-4279-2010
P106
P21
P31
P3829
P496
0000-0003-2642-6619