about
Exaptation of transposable elements into novel cis-regulatory elements: is the evidence always strong?Convergent evolution of two mammalian neuronal enhancers by sequential exaptation of unrelated retroposonsThe estrogen receptor α colocalizes with proopiomelanocortin in hypothalamic neurons and binds to a conserved motif present in the neuron-specific enhancer nPE2Partially redundant enhancers cooperatively maintain Mammalian pomc expression above a critical functional thresholdIslet 1 specifies the identity of hypothalamic melanocortin neurons and is critical for normal food intake and adiposity in adulthoodObesity-programmed mice are rescued by early genetic interventionSequencing of small RNAs of the fern Pleopeltis minima (Polypodiaceae) offers insight into the evolution of the microrna repertoire in land plantsSelective pressure against horizontally acquired prokaryotic genes as a driving force of plastid evolutionEnhancer turnover and conserved regulatory function in vertebrate evolution.cDNA cloning, biochemical and phylogenetic characterization of beta- and beta'-subunits of Candida albicans protein kinase CK2.Transcriptional regulation of pituitary POMC is conserved at the vertebrate extremes despite great promoter sequence divergence.Essential function of the transcription factor Rax in the early patterning of the mammalian hypothalamus.Evolution of transcriptional enhancers and animal diversity.A transgenic marker for newly born granule cells in dentate gyrus.Subfunctionalization of expression and peptide domains following the ancient duplication of the proopiomelanocortin gene in teleost fishes.Evolution of the Rax family of developmental transcription factors in vertebrates.The Homeodomain Transcription Factor NKX2.1 Is Essential for the Early Specification of Melanocortin Neuron Identity and Activates Pomc Expression in the Developing Hypothalamus.
P50
Q28704585-39146079-1433-4697-A0DF-98DC33636A98Q28740341-7F28A898-B523-41EB-86C4-8369A8FD6104Q34989779-D5E75A91-B423-406B-825F-400BCA89AD22Q35104777-50831035-8065-4910-9CE3-6B3B902B2B8FQ35485151-507CBA2A-8DAB-4D73-A3D1-2FA6463A9E6FQ36357829-6EA3EF13-3488-4E27-9025-6036CB2B7125Q36369254-43093FF4-E1E4-4C66-BBD7-6A948E9BF61CQ36448806-26055B58-F81E-4AEA-BA31-3440DB6CABD2Q37304879-00710FEA-A32F-4738-A4DD-B6AA9B6E1D75Q38355150-F6A524B5-C6FC-456E-886A-85FEBC244375Q40094138-B78BD62C-C511-45B6-81DA-3BCB57029A44Q41809533-C2023A08-8220-45E0-AFA6-F7AE0FBECF75Q42909090-7E30D470-8648-4A3E-9035-0320E84005DBQ44824281-D7A8DB55-361F-4B3C-876C-7F23E9BCC184Q46644580-360B71BA-ED95-42FC-BAC8-313AAC37E747Q50477617-2EC4CBEE-4638-4C0F-87B6-5BFA30F5E06AQ64988264-C3B07FA8-FD9B-4E84-B1C1-CE94539C8FE5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Flavio S J de Souza
@ast
Flavio S J de Souza
@en
Flavio S J de Souza
@es
Flavio S J de Souza
@nl
type
label
Flavio S J de Souza
@ast
Flavio S J de Souza
@en
Flavio S J de Souza
@es
Flavio S J de Souza
@nl
prefLabel
Flavio S J de Souza
@ast
Flavio S J de Souza
@en
Flavio S J de Souza
@es
Flavio S J de Souza
@nl
P106
P1153
9279876800
P31
P496
0000-0002-6725-2873