about
Proteome analysis reveals protein candidates involved in early stages of brain regeneration of teleost fish.Large-scale identification of proteins involved in the development of a sexually dimorphic behavior.Additive neurogenesis supported by multiple stem cell populations mediates adult spinal cord development: A spatiotemporal statistical mapping analysis in a teleost model of indeterminate growth.Determination of relative age using growth increments of scales as a minimally invasive method in the tropical freshwater Apteronotus leptorhynchus.Neuroanatomical and morphological trait clusters in the ant genus Pheidole: evidence for modularity and integration in brain structure.Mature B cells accelerate wound healing after acute and chronic diabetic skin lesions.Absence of gliosis in a teleost model of spinal cord regeneration.Matrix metalloproteinase-2 and -9 in the cerebellum of teleost fish: Functional implications for adult neurogenesis.Age-related changes in stem cell dynamics, neurogenesis, apoptosis, and gliosis in the adult brain: a novel teleost fish model of negligible senescence.Performance of statistical process control methods for regional surgical site infection surveillance: a 10-year multicentre pilot study.Growth of adult spinal cord in knifefish: Development and parametrization of a distributed model.Adult stem cells in the knifefish cerebellum.Electric interactions through chirping behavior in the weakly electric fish, Apteronotus leptorhynchus.Quantitative analysis reveals dominance of gliogenesis over neurogenesis in an adult brainstem oscillatorLarge-scale empirical optimisation of statistical control charts to detect clinically relevant increases in surgical site infection ratesFunction of Cathepsin K in the Central Nervous System of Male Mice is Independent of Its Role in the Thyroid GlandImpact of molecular testing on reported Clostridoides difficile infection ratesCalbindin-D28k expression in spinal electromotoneurons of the weakly electric fish Apteronotus leptorhynchus during adult development and regenerationSocial Complexity and Brain Evolution: Comparative Analysis of Modularity and Integration in Ant Brain Organization
P50
Q34278656-DF830915-E28A-46EC-A43E-8339AB92EC34Q34400943-48E1FE3E-5008-4F7B-8F0F-C2FD0C8E6E90Q38679600-5C5923DA-2BAB-4EC9-B0D7-005A1A71BFD0Q39093489-B320F157-7C04-4392-9F6F-01CE492D9E39Q41232210-5B28621C-C9AF-4A48-80B3-B6859488B3B3Q41996919-43E24BF9-8043-42C1-B9DF-A2AB122E54C1Q45295369-D024769A-288F-4033-B79C-FC2B734C912CQ46750762-18060E0F-D00C-4F1D-AABD-4071E36A62E6Q46965096-5D19DE66-248F-4EAA-8889-DA71B1C5B4FCQ47313933-816BAB5A-B51E-4291-86A8-D7AA0664B806Q47444661-C7AE9D92-602B-4A00-97D5-94A2333B0247Q48647912-AAD2265E-B673-4DA7-AEF3-649EED843E05Q51330874-A8808606-8A19-44ED-B9BB-0040DD25439EQ87462030-7B37B834-080B-4E12-9BC2-D19259B72DD9Q91198081-5F65CE6E-87AE-4B77-8221-7EE6C9BCF448Q91745186-FC2AF02E-EE09-4055-AC6E-36C2A75D53D0Q92092035-8F059FD9-7AA5-4FFE-8AF7-06825DB70314Q92529175-7203687E-4B70-4E7C-ABEC-A7B5F95ABA71Q93077208-09CACBC4-AF61-4210-94D1-D5D960B1E6BE
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
I Ilies
@en
I Ilies
@nl
type
label
I Ilies
@en
I Ilies
@nl
prefLabel
I Ilies
@en
I Ilies
@nl
P31
P496
0000-0002-2727-324X