about
The genetics of hair cell development and regenerationShaping sound in space: the regulation of inner ear patterningExpression and Misexpression of the miR-183 Family in the Developing Hearing Organ of the Chicken.Lineage analysis of the late otocyst stage mouse inner ear by transuterine microinjection of a retroviral vector encoding alkaline phosphatase and an oligonucleotide library.Adeno-associated virus-mediated gene delivery into the scala media of the normal and deafened adult mouse ear.MicroRNAs in hair cell development and deafness.Slits and Robos in the developing chicken inner earComprehensive Wnt-related gene expression during cochlear duct development in chicken.Molecular genetics of pattern formation in the inner ear: do compartment boundaries play a role?Lineage analysis of inner ear cells using genomic tags for clonal identification.Vertebrate Lrig3-ErbB interactions occur in vitro but are unlikely to play a role in Lrig3-dependent inner ear morphogenesis.MicroRNA-183 family members regulate sensorineural fates in the inner ear.Ear rings: FGF3 involvement comes full circle.Making sense of making hair cells.CtBP2 downregulation during neural crest specification induces expression of Mitf and REST, resulting in melanocyte differentiation and sympathoadrenal lineage suppression.Retroviral vectors to study cell differentiation.Wnts and Wnt inhibitors do not influence axon outgrowth from chicken statoacoustic ganglion neuronsMembers of the BMP, Shh, and FGF morphogen families promote chicken statoacoustic ganglion neurite outgrowth and neuron survival in vitro.Bicistronic gene transfer tools for delivery of miRNAs and protein coding sequences.A subset of chicken statoacoustic ganglion neurites are repelled by Slit1 and Slit2Wnt signaling during cochlear development.Viral Ubiquitin Ligase Stimulates Selective Host MicroRNA Expression by Targeting ZEB Transcriptional Repressors.Cell fate specification in the inner ear.Non-cell-autonomous planar cell polarity propagation in the auditory sensory epithelium of vertebrates.Notch-Wnt-Bmp crosstalk regulates radial patterning in the mouse cochlea in a spatiotemporal manner.Expression of transgenes in primary neurons from chick peripheral and central nervous systems by retroviral infection of early embryos.Developmental biology. Rocks that roll zebrafish.Shaping sound in space: the regulation of inner ear patterning.Separate Na,K-ATPase genes are required for otolith formation and semicircular canal development in zebrafish.Wnt9a Can Influence Cell Fates and Neural Connectivity across the Radial Axis of the Developing Cochlea.Morphology of primary axosomatic endings in the anteroventral cochlear nucleus of the cat: a study of the endbulbs of Held.Left-right brain asymmetry: lessons from the heart.A fate map of chick otic cup closure reveals lineage boundaries in the dorsal otocyst.Developmental biology. A transition in the middle ear.Forced activation of Wnt signaling alters morphogenesis and sensory organ identity in the chicken inner ear.Lineage analysis in the chicken inner ear shows differences in clonal dispersion for epithelial, neuronal, and mesenchymal cells.The expression domain of two related homeobox genes defines a compartment in the chicken inner ear that may be involved in semicircular canal formation.Clonal analysis of the relationships between mechanosensory cells and the neurons that innervate them in the chicken earThe development of semicircular canals in the inner ear: role of FGFs in sensory cristaeThree-dimensional morphology of inner ear development inXenopus laevis
P50
Q26864510-8895E870-D5EB-4341-B1E0-FF127B669CCCQ28741138-57EDB852-5930-45BF-86C6-79D172FCDF0BQ30406675-2FB22F75-32F3-4E11-BFA1-B8C5BE6EC2CBQ30451065-A7AC6510-C787-4A5A-A2AE-FCD753AD9295Q30472510-FBBE6C80-371A-4DE2-8BE0-07228B42B68AQ30473905-AEC5083D-5A5E-497E-927C-AF9BFAFE10AFQ30482224-3220D41A-C977-41B5-A6F2-6431F1F63E47Q30486335-8CE9C0C9-4CB5-4336-8E54-F0876E493B61Q30524683-20A07CC5-E5C9-4722-B3EA-308CCB52C00BQ33374328-038669CC-5EFA-4B04-B367-E7AA0D98FB50Q33529059-2A07D7AE-B230-47CC-A999-36A9A47FEA1BQ33529059-AF088849-EFC7-43C0-AC86-12C09C4BB09EQ33766505-3C4D99FE-8762-40D1-AF1D-95E1BACE10C6Q33976220-616D68D1-7255-4D65-99BF-CB83A0B818E1Q34001943-B7FE445F-EFF6-4307-85AA-CF591BB2FDF1Q34742221-DB050BC7-A61B-455A-AC4A-0DEDC6B28941Q35011308-6F130456-BDAE-4091-B12C-D8C6638B4716Q35154061-97C1C854-F56B-41FD-9EEA-C7BFB2123C5FQ36638698-2848660B-C442-4441-B9D3-21BD2946EBB0Q37225120-4ED595E9-3B75-4E3B-AA76-757E815856D6Q37691535-868F6CA5-6D1F-4DE1-9435-CB84E8E73EB3Q38095242-1D5EC6AF-6B3B-48A5-B458-205260D6C474Q38637217-0DD0DB33-AF22-4BEC-A06D-5F160E3D5AAAQ41103398-579A82EE-FE0B-45B0-A2BF-F7E92ECAA25CQ41962016-E0B67F91-12B7-40DE-83FD-635875D9FD3EQ42757916-A6404486-3F2E-44D0-8427-B44E3426650DQ44006696-1DE0EF75-DBF2-489F-B662-DD50FE24CDF9Q44613246-26A00855-C22D-4AA6-BCF9-023835718008Q46532930-76AB5D19-2CC6-42D2-B20C-72EB40500616Q47073523-85232BAE-9E3A-4DBC-B6B3-D51228AD5155Q47933173-6FA18CEC-65C8-4CF2-8D83-F432E2FA4DBBQ48895789-BC53BA31-206E-4BF4-B966-F428B951A3A4Q49060594-2FEC4060-9A48-461F-A632-B9F1FCD62AAFQ50493881-575996D9-E30C-4656-B76D-D597A7257AC7Q50752403-485EFDCD-DD63-459D-B4B4-3E9EA2E91059Q52101147-96B7E441-3671-4FC7-A61C-1DC66F63E216Q52135261-BDDBC27E-493F-4B93-B832-0D4288043FA3Q52191882-F462C995-468F-41ED-8A17-93126F356731Q57375185-06F7670D-C5FA-4D85-B414-A613E934002DQ61852088-366F209C-91B7-43ED-9EA8-80197C94F223
P50
description
bioloog
@nl
hulumtuese
@sq
researcher
@en
հետազոտող
@hy
name
Donna M Fekete
@ast
Donna M Fekete
@en
Donna M Fekete
@es
Donna M Fekete
@nl
Donna M Fekete
@sl
type
label
Donna M Fekete
@ast
Donna M Fekete
@en
Donna M Fekete
@es
Donna M Fekete
@nl
Donna M Fekete
@sl
prefLabel
Donna M Fekete
@ast
Donna M Fekete
@en
Donna M Fekete
@es
Donna M Fekete
@nl
Donna M Fekete
@sl
P1053
B-9170-2009
P166
P21
P31
P3829
P496
0000-0003-0662-0246