about
Neocortex expansion is linked to size variations in gene families with chemotaxis, cell-cell signalling and immune response functions in mammalsSplicing and the evolution of proteins in mammalsCorrecting for differential transcript coverage reveals a strong relationship between alternative splicing and organism complexity.Protein amino acid composition: a genomic signature of encephalization in mammalsIncreased levels of noisy splicing in cancers, but not for oncogene-derived transcriptsLineage-specific sequence evolution and exon edge conservation partially explain the relationship between evolutionary rate and expression level in A. thalianaAlternative Splice in Alternative Lice.Alternative splicing: a potential source of functional innovation in the eukaryotic genome.YAP is essential for tissue tension to ensure vertebrate 3D body shapeDo Alu repeats drive the evolution of the primate transcriptome?Optimization of next-generation sequencing transcriptome annotation for species lacking sequenced genomesGenes that escape X-inactivation in humans have high intraspecific variability in expression, are associated with mental impairment but are not slow evolving.Presence-absence variation in A. thaliana is primarily associated with genomic signatures consistent with relaxed selective constraintsPerspectives on the history of evo-devo and the contemporary research landscape in the genomics era.Alternative splicing and the evolution of phenotypic novelty.The signature of selection mediated by expression on human genesEvidence for deep phylogenetic conservation of exonic splice-related constraints: splice-related skews at exonic ends in the brown alga Ectocarpus are common and resemble those seen in humans.Chromatin remodelling is a major source of coexpression of linked genes in yeast.Evidence that the human X chromosome is enriched for male-specific but not female-specific genes.Increased brain size in mammals is associated with size variations in gene families with cell signalling, chemotaxis and immune-related functions.A unification of mosaic structures in the human genomeConditional expression explains molecular evolution of social genes in a microbe
P50
Q28596699-7F4A9106-2EC1-48C9-93EA-2187D7E9B721Q33273607-5FADFEFB-7AA3-42A5-8745-EEF4832F6EB8Q33654343-C59D6634-8DF6-4A2E-95DB-F05309B456F9Q34087688-2AACF0C8-C2C6-429E-B3E8-0A4D4E5FCE44Q35389490-C634DD27-CC1E-4C37-8D38-09E4BA0FB3E8Q35781197-4AE63AC3-EF8D-488B-A394-61D947D60F5EQ36077821-597875EB-53A6-4245-9DFD-379996693C41Q36090387-A511ECB9-11FE-4537-9763-7CE977B566D2Q36483518-4A206869-362C-4835-A3F6-96F22C236AB1Q36642363-A1DB0245-396F-4D8C-94CD-8E243CC1ACF8Q37169624-7109944B-9604-43CA-9E48-8822C16C4063Q37342300-7AA47D7B-071F-442A-B0C3-4D6AC2E2DA20Q37428410-C4D334FB-F98E-46B9-8BC7-91603766A5A5Q37531203-E60AE862-23E1-4A05-A43C-1C3FD219E63EQ39043804-ABDD14EE-5888-4F51-8884-521A4254EE88Q40830000-51DED276-9FA0-45A6-A649-294C3771B682Q41903111-ACC9681C-9576-4357-BA35-6B9E24BF925EQ45870812-4AE05BCA-2E6B-42C7-8930-C32A4D861566Q47872645-0CB19075-5B68-43B2-B9C6-7B111FC115D1Q54523925-FF0B6C09-1AAE-4852-8D6A-DF0E29D51806Q57251623-8FBC2622-AB0E-4D5D-816C-FA0C6D52FA2AQ92134016-E50352F7-740D-41E1-9B7A-E41E09498C47
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Araxi O. Urrutia
@ast
Araxi O. Urrutia
@en
Araxi O. Urrutia
@es
Araxi O. Urrutia
@nl
type
label
Araxi O. Urrutia
@ast
Araxi O. Urrutia
@en
Araxi O. Urrutia
@es
Araxi O. Urrutia
@nl
prefLabel
Araxi O. Urrutia
@ast
Araxi O. Urrutia
@en
Araxi O. Urrutia
@es
Araxi O. Urrutia
@nl
P106
P1153
7007060391
P21
P31
P496
0000-0001-9011-8675