scholarly article | Q13442814 |
P50 | author | Lisa J Cohen | Q41057887 |
P2093 | author name string | Licia Selleri | |
Julie Lacombe | |||
Heekyung Jung | |||
Jeremy S Dasen | |||
Olivia Hanley | |||
David H Lee | |||
Polyxeni Philippidou | |||
Rediet Zewdu | |||
P2860 | cites work | Congenital asplenia in mice and humans with mutations in a Pbx/Nkx2-5/p15 module | Q24318764 |
Pbx3 deficiency results in central hypoventilation | Q24670007 | ||
Embryonic Origins of a Motor System: Motor Dendrites Form a Myotopic Map in Drosophila | Q24806776 | ||
Evolution of patterning systems and circuit elements for locomotion | Q26861644 | ||
Spatial organization of cortical and spinal neurons controlling motor behavior | Q26995688 | ||
Hox genes: choreographers in neural development, architects of circuit organization | Q27014950 | ||
A postmitotic role for Isl-class LIM homeodomain proteins in the assignment of visceral spinal motor neuron identity | Q28505629 | ||
Foxp1 and lhx1 coordinate motor neuron migration with axon trajectory choice by gating Reelin signalling | Q28510288 | ||
Requirement for Pbx1 in skeletal patterning and programming chondrocyte proliferation and differentiation | Q28512034 | ||
Pbx3 is required for normal locomotion and dorsal horn development | Q28585025 | ||
ETS gene Pea3 controls the central position and terminal arborization of specific motor neuron pools | Q28587455 | ||
LIM homeodomain factors Lhx3 and Lhx4 assign subtype identities for motor neurons | Q28591209 | ||
LIM factor Lhx3 contributes to the specification of motor neuron and interneuron identity through cell-type-specific protein-protein interactions | Q74548348 | ||
The motor cell columns of the lumbo-sacral spinal cord of the cat | Q75722298 | ||
Separate microcircuit modules of distinct v2a interneurons and motoneurons control the speed of locomotion | Q87577540 | ||
Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2 | Q29547403 | ||
Hox Proteins Coordinate Motor Neuron Differentiation and Connectivity Programs through Ret/Gfrα Genes | Q30277289 | ||
A topographic map of recruitment in spinal cord | Q33276131 | ||
Hox specificity unique roles for cofactors and collaborators | Q33607453 | ||
Evolving Hox activity profiles govern diversity in locomotor systems | Q33624513 | ||
Hox repertoires for motor neuron diversity and connectivity gated by a single accessory factor, FoxP1. | Q34013063 | ||
The TALE homeodomain protein Pbx2 is not essential for development and long-term survival | Q34347200 | ||
Hox cofactors in vertebrate development | Q34499501 | ||
Genetic and functional modularity of Hox activities in the specification of limb-innervating motor neurons | Q34566349 | ||
Motor neuron specification in worms, flies and mice: conserved and 'lost' mechanisms | Q34801945 | ||
Spinal Locomotor Circuits Develop Using Hierarchical Rules Based on Motorneuron Position and Identity | Q36118863 | ||
A gradient in endogenous rhythmicity and oscillatory drive matches recruitment order in an axial motor pool | Q36190613 | ||
Pbx Regulates Patterning of the Cerebral Cortex in Progenitors and Postmitotic Neurons | Q36395852 | ||
Coordinated actions of the forkhead protein Foxp1 and Hox proteins in the columnar organization of spinal motor neurons | Q36899308 | ||
Hox and Pbx factors control retinoic acid synthesis during hindbrain segmentation. | Q36916855 | ||
To Be Specific or Not: The Critical Relationship Between Hox And TALE Proteins | Q36923531 | ||
Hox genes and segmentation of the vertebrate hindbrain | Q37570818 | ||
Spinal motor neuron migration and the significance of topographic organization in the nervous system | Q38163460 | ||
Motor neuron position and topographic order imposed by β- and γ-catenin activities | Q39464378 | ||
A review of the organization and evolution of motoneurons innervating the axial musculature of vertebrates | Q39661807 | ||
Patterns of spinal sensory-motor connectivity prescribed by a dorsoventral positional template | Q39806479 | ||
GDNF acts through PEA3 to regulate cell body positioning and muscle innervation of specific motor neuron pools | Q40698740 | ||
Genetic and epigenetic mechanisms contribute to motor neuron pathfinding | Q40859949 | ||
Sustained Hox5 gene activity is required for respiratory motor neuron development | Q42048499 | ||
Distinct limb and trunk premotor circuits establish laterality in the spinal cord | Q42176123 | ||
Global control of motor neuron topography mediated by the repressive actions of a single hox gene. | Q42409696 | ||
Pattern of innervation and recruitment of different classes of motoneurons in adult zebrafish. | Q43598398 | ||
Lineage and birth date specify motor neuron targeting and dendritic architecture in adult Drosophila. | Q45993850 | ||
Eliminating zebrafish pbx proteins reveals a hindbrain ground state. | Q47073477 | ||
Autonomous and nonautonomous functions for Hox/Pbx in branchiomotor neuron development | Q47073720 | ||
Motor neuron-derived retinoid signaling specifies the subtype identity of spinal motor neurons | Q48025767 | ||
Topographic organization of embryonic motor neurons defined by expression of LIM homeobox genes | Q48077000 | ||
Regulation of motor neuron pool sorting by differential expression of type II cadherins | Q48304829 | ||
A Hox regulatory network establishes motor neuron pool identity and target-muscle connectivity. | Q52034963 | ||
Motor neuron columnar fate imposed by sequential phases of Hox-c activity. | Q52098449 | ||
The distribution of motoneurones supplying chick hind limb muscles | Q67429857 | ||
The development of motor projection patterns in the chick hind limb | Q67429859 | ||
Pathway selection by chick lumbosacral motoneurons during normal development | Q72522501 | ||
Regulation of motor neuron subtype identity by repressor activity of Mnx class homeodomain proteins | Q73088004 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1005-1020 | |
P577 | publication date | 2016-08-24 | |
P1433 | published in | Neuron | Q3338676 |
P1476 | title | Parallel Pbx-Dependent Pathways Govern the Coalescence and Fate of Motor Columns | |
P478 | volume | 91 |
Q92060135 | 'Building a perfect body': control of vertebrate organogenesis by PBX-dependent regulatory networks |
Q61446520 | An ancient role for collier/Olf/Ebf (COE)-type transcription factors in axial motor neuron development |
Q83230869 | Critical roles of ARHGAP36 as a signal transduction mediator of Shh pathway in lateral motor columnar specification |
Q46284188 | De novo, deleterious sequence variants that alter the transcriptional activity of the homeoprotein PBX1 are associated with intellectual disability and pleiotropic developmental defects. |
Q54960164 | Development, functional organization, and evolution of vertebrate axial motor circuits. |
Q64275686 | Genetics of scapula and pelvis development: An evolutionary perspective |
Q39025991 | Master or servant? emerging roles for motor neuron subtypes in the construction and evolution of locomotor circuits |
Q92827308 | PBX homeobox 1 enhances hair follicle mesenchymal stem cell proliferation and reprogramming through activation of the AKT/glycogen synthase kinase signaling pathway and suppression of apoptosis |
Q63487670 | Single cell transcriptomics reveals spatial and temporal dynamics of gene expression in the developing mouse spinal cord |
Q47644440 | Topoisomerase IIβ Selectively Regulates Motor Neuron Identity and Peripheral Connectivity through Hox/Pbx-Dependent Transcriptional Programs. |
Q38619105 | Transcriptome of neonatal preBötzinger complex neurones in Dbx1 reporter mice. |
Q88881593 | Visualization of Motor Axon Navigation and Quantification of Axon Arborization In Mouse Embryos Using Light Sheet Fluorescence Microscopy |
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