about
Mir-17-3p controls spinal neural progenitor patterning by regulating Olig2/Irx3 cross-repressive loopAn integrated model of multiple-condition ChIP-Seq data reveals predeterminants of Cdx2 binding.Iroquois complex genes induce co-expression of rhodopsins in DrosophilaEvolving Hox activity profiles govern diversity in locomotor systems.An alternative splicing switch regulates embryonic stem cell pluripotency and reprogramming.Stochastic spineless expression creates the retinal mosaic for colour vision.A Multi-step Transcriptional and Chromatin State Cascade Underlies Motor Neuron Programming from Embryonic Stem Cells.Ligand-dependent dynamics of retinoic acid receptor binding during early neurogenesisDistinct visual pathways mediate Drosophila larval light avoidance and circadian clock entrainmentFeedback from rhodopsin controls rhodopsin exclusion in Drosophila photoreceptors.Wnt signaling specifies and patterns intestinal endoderm.CTCF establishes discrete functional chromatin domains at the Hox clusters during differentiation.'One receptor' rules in sensory neurons.Iterative Role of Notch Signaling in Spinal Motor Neuron DiversificationSynergistic binding of transcription factors to cell-specific enhancers programs motor neuron identity.CTCF-mediated topological boundaries during development foster appropriate gene regulation.Embryonic stem cell-based mapping of developmental transcriptional programsSaltatory remodeling of Hox chromatin in response to rostrocaudal patterning signals.Global control of motor neuron topography mediated by the repressive actions of a single hox gene.Deconvolving sequence features that discriminate between overlapping regulatory annotations.Homothorax switches function of Drosophila photoreceptors from color to polarized light sensors.The growth regulators warts/lats and melted interact in a bistable loop to specify opposite fates in Drosophila R8 photoreceptors.Drosophila CRYPTOCHROME is a circadian transcriptional repressor.Neuroscience. Mapping neuronal diversity one cell at a time.cAMPr: A single-wavelength fluorescent sensor for cyclic AMP.Stem cell-derived cranial and spinal motor neurons reveal proteostatic differences between ALS resistant and sensitive motor neurons.Proneural factors Ascl1 and Neurog2 contribute to neuronal subtype identities by establishing distinct chromatin landscapes
P50
Q28513744-B0197442-5029-42D8-AB6E-3AA0A5D90545Q30787173-E4E863EE-C387-4309-A63E-1CE3F42D7F6DQ33330447-FF3C0A5F-E7FB-4BAF-A62A-A19E7AD41D34Q33624513-5FE07907-BD43-4167-852D-B0A606164DBEQ34216981-0338D508-6DFA-4763-A4DC-749DF4654F51Q34500603-F367F943-828B-4080-BBFC-6012BDEFFEAAQ34547013-0B83DED0-E111-4EC3-9A1D-7F9FEA271153Q34964350-5BE57EAE-FE5E-4554-9122-2A22557AD230Q35012882-542A1239-674C-423D-AB3F-667E760020FCQ35529208-7E9716D0-3D08-4870-A940-B929FCE6AD23Q35570994-D8F574A6-2B06-4C14-9374-0CB0BFE190DDQ35595819-637F617B-7F24-4612-8366-2F3829A3554AQ36108532-73B1B92D-B30E-4AF9-BF95-000AF6C9EFD5Q37155541-D64C0E94-7147-4458-B99D-97620F5DF137Q37288224-AC84E7E8-D3FC-41DA-B232-5C866D24F911Q37587982-AE0A85E4-7F38-401A-B17E-04E5634BF371Q39543751-1ADC0F3E-E143-40F2-ADC3-752039DB6F44Q41839120-C973F1ED-E79C-487C-B34F-631380035F77Q42409696-EA1CB5F7-0429-4357-818F-B6C3BC94B5CDQ46075500-0E86C343-6509-48A3-9AF1-DC9FB94E713FQ47070368-3F40344F-F1C2-4DA4-8B86-7C1EAAB56CF2Q47072628-961BB8AB-1111-48E6-AAB0-35DACE6861B7Q47072854-3DB5D064-A72D-4AA1-B027-477E561B4023Q47768628-F4BA32EC-56A8-44B3-B891-6E1FA3CF7100Q52671164-B6C2C37F-82CA-402C-A9D4-0EA5E3B7CE9FQ64975679-A6D073E0-A219-4AD2-8C4F-9D6C407B0EC7Q92000787-DF9ED1A3-B664-4B53-9A62-4CBD5A5C513F
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Esteban O Mazzoni
@es
Esteban O Mazzoni
@nl
Esteban O Mazzoni
@sl
Esteban O. Mazzoni
@en
type
label
Esteban O Mazzoni
@es
Esteban O Mazzoni
@nl
Esteban O Mazzoni
@sl
Esteban O. Mazzoni
@en
altLabel
Esteban O. Mazzoni
@en
prefLabel
Esteban O Mazzoni
@es
Esteban O Mazzoni
@nl
Esteban O Mazzoni
@sl
Esteban O. Mazzoni
@en
P106
P1153
6701541856
P21
P31
P496
0000-0001-8994-681X