about
Multiple Functions of the Eya Phosphotyrosine PhosphataseSix homeoproteins directly activate Myod expression in the gene regulatory networks that control early myogenesisRetinal Expression of the Drosophila eyes absent Gene Is Controlled by Several Cooperatively Acting Cis-regulatory ElementsSwitching cell fates in the developing Drosophila eye.Drosophila Pax6 promotes development of the entire eye-antennal disc, thereby ensuring proper adult head formation.Nuclear receptors connect progenitor transcription factors to cell cycle control.Activation of JNK signaling mediates amyloid-ß-dependent cell death.Transcriptome analysis reveals novel patterning and pigmentation genes underlying Heliconius butterfly wing pattern variation.Human disease models in Drosophila melanogaster and the role of the fly in therapeutic drug discovery.Novel neuroprotective function of apical-basal polarity gene crumbs in amyloid beta 42 (aβ42) mediated neurodegenerationHomeotic Gene teashirt (tsh) has a neuroprotective function in amyloid-beta 42 mediated neurodegeneration.Optomotor-blind negatively regulates Drosophila eye development by blocking Jak/STAT signalingMy what big eyes you have: how the Drosophila retina grows.Discovery of transcription factors and regulatory regions driving in vivo tumor development by ATAC-seq and FAIRE-seq open chromatin profiling.BTB-Zinc Finger Oncogenes Are Required for Ras and Notch-Driven Tumorigenesis in Drosophila.Dissection and immunostaining of imaginal discs from Drosophila melanogasterThe Conserved MAPK Site in E(spl)-M8, an Effector of Drosophila Notch Signaling, Controls Repressor Activity during Eye DevelopmentBuilding an ommatidium one cell at a time.Transcriptional selectors, masters, and combinatorial codes: regulatory principles of neural subtype specificationCompetition among gene regulatory networks imposes order within the eye-antennal disc of Drosophila.Experimental approaches for gene regulatory network construction: the chick as a model system.The lens in focus: a comparison of lens development in Drosophila and vertebrates.Drosophila Protein Kinase CK2: Genetics, Regulatory Complexity and Emerging Roles during Development.Genetic and developmental mechanisms underlying the formation of the Drosophila compound eye.A glimpse into dorso-ventral patterning of the Drosophila eye.Spatio-temporal pattern of neuronal differentiation in the Drosophila visual system: A user's guide to the dynamic morphology of the developing optic lobe.Comparative motif discovery combined with comparative transcriptomics yields accurate targetome and enhancer predictions.Retinal determination genes coordinate neuroepithelial specification and neurogenesis modes in the Drosophila optic lobe.A feast for the senses: development and function of sensory systems.The fly eye: Through the looking glass.A population of G2-arrested cells are selected as sensory organ precursors for the interommatidial bristles of the Drosophila eye.A conserved transcriptional network regulates lamina development in the Drosophila visual system.Polycomb group (PcG) proteins and Pax6 cooperate to inhibit in vivo reprogramming of the developing Drosophila eye.A soy protein Lunasin can ameliorate amyloid-beta 42 mediated neurodegeneration in Drosophila eye
P2860
Q26775935-D31AACA9-9ADD-420D-82D0-6010A862E796Q28486978-C83B697D-4E33-48C3-BC61-E11C811F5261Q28554817-24DC12F8-7931-4D02-977D-5D1C1639ABA3Q33557418-84D1E3E9-189D-4665-8F28-CBB655E0582CQ33790882-BD444793-4F6C-418A-B06A-36E26DAAFE6EQ33884842-CB400253-3571-4ECF-B7BA-4F9D7A015EA2Q34031340-9EC66C60-8D6E-453E-AB70-5F4F56B0A5BDQ34322301-90073BBB-D453-4925-82C5-B08718495A5AQ34858502-3970E4D6-17DA-4288-A034-86B0BBD43B8EQ35048105-4A1DD0F9-0E2B-4C41-9FD2-6A1B8E961F06Q35055168-50DD7591-711F-4EAB-A59E-016E2952670AQ35189044-CA181B0B-0585-40B1-9F4D-00D18A8655A8Q35539865-8F74EB07-18A4-4D60-B391-A1DAD0A3213EQ35560754-EC6C48D9-784C-421F-871C-00AB33DC6786Q35711047-510ABD94-2A7C-4875-89CA-8316C7912FFEQ35975871-622FB499-5652-4249-B983-EEDA311B7C83Q36080095-8C73CCEE-AE58-49EC-85AC-5FF59EF44EA5Q36189098-2434EA13-2555-4BD3-97EF-AD94C3D016D9Q36354585-2C903D93-F960-4DB1-BA19-160FE85C226FQ36444155-32C32EB3-A115-401B-A7D5-CB8E92CB4E9EQ36767163-397A32A9-E77E-4F59-B2FA-81194A8990DFQ37573004-325AC40B-93B8-4C0B-B471-5759562FAF95Q37731305-D93B05F5-7F8C-45C9-B343-5A992EB0302CQ37935703-24CDB000-91E0-4D99-9A1C-28CB1FA2D277Q37950278-4E9E5048-6568-4146-A8F1-43BF48979E40Q38770094-0F9CA02B-76A8-4AC7-BE1F-F1A0C5972930Q41811808-681D6646-10EA-4A77-9343-0DC9DC5BE984Q41827533-D840F6EF-B319-4966-BF9D-37DF83D82595Q43819034-95E66C20-1D3A-4FFE-A517-62BB555666DCQ48150888-C0A11CDE-8942-487B-A945-70387970FA55Q50434087-7DE31039-FDF4-4FE1-8FB1-F6CEE9D40C4EQ50656013-287ABAC5-DC19-433C-9FE8-601E19470557Q51741108-2E19C71A-37B9-48E7-AEAF-D6245E08ADFDQ58756442-D708E0FD-5249-4875-BFC1-37EF92D1B3EC
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Retinal determination the beginning of eye development.
@en
Retinal determination the beginning of eye development.
@nl
type
label
Retinal determination the beginning of eye development.
@en
Retinal determination the beginning of eye development.
@nl
prefLabel
Retinal determination the beginning of eye development.
@en
Retinal determination the beginning of eye development.
@nl
P2860
P1476
Retinal determination the beginning of eye development.
@en
P2093
Justin P Kumar
P2860
P356
10.1016/B978-0-12-385044-7.00001-1
P577
2010-01-01T00:00:00Z