1,326 results on '"McMahon, Andrew P."'
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352. Hedgehog Signaling Is Dispensable for Adult Murine Hematopoietic Stem Cell Function and Hematopoiesis
353. Modeling the spatio-temporal network that drives patterning in the vertebrate central nervous system
354. Motor Neurons with Axial Muscle Projections Specified by Wnt4/5 Signaling
355. Atlas of Gene Expression in the Developing Kidney at Microanatomic Resolution
356. Selective translocation of intracellular Smoothened to the primary cilium in response to Hedgehog pathway modulation
357. A Wnt7b-dependent pathway regulates the orientation of epithelial cell division and establishes the cortico-medullary axis of the mammalian kidney
358. Corrigendum to “A high-resolution anatomical ontology of the developing murine genitourinary tract” [Gene Expression Patterns 7 (2007) 680–699]
359. A high-resolution anatomical ontology of the developing murine genitourinary tract
360. Osr1 expression demarcates a multi-potent population of intermediate mesoderm that undergoes progressive restriction to an Osr1-dependent nephron progenitor compartment within the mammalian kidney
361. Canonical Wnt Signaling Regulates Organ-Specific Assembly and Differentiation of CNS Vasculature
362. Hedgehog Signaling Is Dispensable for Adult Murine Hematopoiesis and Leukemogenesis.
363. Osteoblastic regulation of B lymphopoiesis is mediated by G s α-dependent signaling pathways
364. Atlas of Gene Expression in the Developing Kidney at Microanatomic Resolution
365. Mouse Disp1 is required in sonic hedgehog-expressing cells for paracrine activity of the cholesterol-modified ligand
366. Indian hedgehog signaling from endothelial cells is required for sclera and retinal pigment epithelium development in the mouse eye
367. Six2 Defines and Regulates a Multipotent Self-Renewing Nephron Progenitor Population throughout Mammalian Kidney Development
368. Pattern formation in the vertebrate neural tube: a sonic hedgehog morphogen-regulated transcriptional network
369. Acquisition of Granule Neuron Precursor Identity Is a Critical Determinant of Progenitor Cell Competence to Form Shh-Induced Medulloblastoma
370. Grasping Limb Patterning
371. An Eight Residue Fragment of an Acyl Carrier Protein Suffices for Post-Translational Introduction of Fluorescent Pantetheinyl Arms in Protein Modificationin vitroandin vivo
372. Hoxd11 specifies a program of metanephric kidney development within the intermediate mesoderm of the mouse embryo
373. In Vivo Targeted Deletion of Calpain Small Subunit, Capn4, in Cells of the Osteoblast Lineage Impairs Cell Proliferation, Differentiation, and Bone Formation
374. Conditional mouse osteosarcoma, dependent on p53 loss and potentiated by loss of Rb, mimics the human disease
375. Disp1 regulates growth of mammalian long bones through the control of Ihh distribution
376. Wnt7b stimulates embryonic lung growth by coordinately increasing the replication of epithelium and mesenchyme
377. GUDMAP
378. Notochord-derived Shh concentrates in close association with the apically positioned basal body in neural target cells and forms a dynamic gradient during neural patterning
379. Dicer-dependent pathways regulate chondrocyte proliferation and differentiation
380. β-Catenin is necessary to keep cells of ureteric bud/Wolffian duct epithelium in a precursor state
381. Notch2, but not Notch1, is required for proximal fate acquisition in the mammalian nephron
382. Wnt3 signaling in the epiblast is required for proper orientation of the anteroposterior axis
383. The cdx Genes and Retinoic Acid Control the Positioning and Segmentation of the Zebrafish Pronephros
384. Independent functions and mechanisms for homeobox gene Barx1 in patterning mouse stomach and spleen
385. Modulation of morphogenesis by noncanonical Wnt signaling requires ATF/CREB family–mediated transcriptional activation of TGFβ2
386. Regulation of skeletogenic differentiation in cranial dermal bone
387. Wnt/β-catenin signaling regulates nephron induction during mouse kidney development
388. Loss ofβ-catenin results in premature differentiation and extrusion of Wolffian duct epithelia
389. The Hedgehog-binding proteins Gas1 and Cdo cooperate to positively regulate Shh signaling during mouse development
390. Genomic characterization of Gli-activator targets in sonic hedgehog-mediated neural patterning
391. WITHDRAWN: Loss ofβ-catenin results in premature differentiation and extrusion of Wolffian duct epithelia
392. Shifting paradigms in Hedgehog signaling
393. Abnormal Hair Development and Apparent Follicular Transformation to Mammary Gland in the Absence of Hedgehog Signaling
394. Noncanonical Wnt Signaling through G Protein-Linked PKCδ Activation Promotes Bone Formation
395. Continued Geothermal Reservoir Stimulation Experiments in the Cooper Basin (Australia).
396. A Novel Somatic Mouse Model to Survey Tumorigenic Potential Applied to the Hedgehog Pathway
397. Independent regulation of skeletal growth by Ihh and IGF signaling
398. Distinct roles for Hedgehog and canonical Wnt signaling in specification,differentiation and maintenance of osteoblast progenitors
399. Control of Transcription Factor Activity and Osteoblast Differentiation in Mammalian Cells Using an Evolved Small-Molecule-Dependent Intein
400. Reproducible and inducible knockdown of gene expression in mice
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