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63 results on '"Laura Anne Lowery"'

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1. 16p12.1 Deletion Orthologs are Expressed in Motile Neural Crest Cells and are Important for Regulating Craniofacial Development in Xenopus laevis

2. Tau, XMAP215/Msps and Eb1 co-operate interdependently to regulate microtubule polymerisation and bundle formation in axons.

3. Functional assessment of the 'two-hit' model for neurodevelopmental defects in Drosophila and X. laevis.

5. NCBP2 modulates neurodevelopmental defects of the 3q29 deletion in Drosophila and Xenopus laevis models.

6. The Many Faces of Xenopus: Xenopus laevis as a Model System to Study Wolf–Hirschhorn Syndrome

7. Wolf-Hirschhorn Syndrome-Associated Genes Are Enriched in Motile Neural Crest Cells and Affect Craniofacial Development in Xenopus laevis

8. The Role of the Microtubule Cytoskeleton in Neurodevelopmental Disorders

9. TIPsy tour guides: How microtubule plus-end tracking proteins (+TIPs) facilitate axon guidance

11. Investigating the impact of the phosphorylation status of tyrosine residues within the <scp>TACC</scp> domain of <scp>TACC3</scp> on microtubule behavior during axon growth and guidance

12. 16p12.1 Deletion Orthologs are Expressed in Motile Neural Crest Cells and are Important for Regulating Craniofacial Development in

13. Imaging Methods in

14. Tau, XMAP215/Msps and Eb1 co-operate interdependently to regulate microtubule polymerisation and bundle formation in axons

15. Regulation of MT dynamics via direct binding of an Abl family kinase

16. Tacc3 modulates microtubule network dynamicity and focal adhesion remodeling to affect cranial neural crest cell migration in Xenopus laevis

17. Wolf-Hirschhorn Syndrome-Associated Genes Are Enriched in Motile Neural Crest Cells and Affect Craniofacial Development in Xenopus laevis

18. 16p12.1 deletion orthologs are expressed in motile neural crest cells and are important for regulating craniofacial development inXenopus laevis

19. Live Imaging of Cytoskeletal Dynamics in Embryonic

20. Functional assessment of the 'two-hit' model for neurodevelopmental defects inDrosophilaandX. laevis

21. Abelson-induced phosphorylation of TACC3 modulates its interaction with microtubules and affects its impact on axon outgrowth and guidance

22. Imaging Methods in Xenopus Cells, Embryos, and Tadpoles

23. NCBP2 modulates neurodevelopmental defects of the 3q29 deletion in Drosophila and Xenopus laevis models

24. NCBP2modulates neurodevelopmental defects of the 3q29 deletion inDrosophilaandX. laevismodels

25. Wolf-Hirschhorn Syndrome-Associated Genes Are Enriched in Motile Neural Crest Cells and Affect Craniofacial Development in Xenopus laevis

26. XMAP215 promotes microtubule-F-actin interactions to regulate growth cone microtubules during axon guidance

27. Functional assessment of the 'two-hit' model for neurodevelopmental defects in Drosophila and X. laevis

28. Live Imaging of Cytoskeletal Dynamics in Embryonic Xenopus laevis Growth Cones and Neural Crest Cells

29. Xenopus TACC2 is a microtubule plus end–tracking protein that can promote microtubule polymerization during embryonic development

30. Exploring the developmental mechanisms underlying Wolf-Hirschhorn Syndrome: Evidence for defects in neural crest cell migration

31. Conserved roles for cytoskeletal components in determining laterality

32. Cytoskeletal social networking in the growth cone: How +TIPs mediate microtubule-actin cross-linking to drive axon outgrowth and guidance

33. Regulation of cytoskeletal dynamics and transport

34. Wolf-Hirschhorn Syndrome-associated genes are enriched in motile neural crest and affect craniofacial development in Xenopus laevis

35. Characterization of Xenopus laevis guanine deaminase reveals new insights for its expression and function in the embryonic kidney

36. The Role of the Microtubule Cytoskeleton in Neurodevelopmental Disorders

37. Xenopus TACC1 is a microtubule plus‐end tracking protein that can regulate microtubule dynamics during embryonic development

38. Multiparametric Analysis of CLASP-Interacting Protein Functions during Interphase Microtubule Dynamics

39. Xenopus laevis as a model system to study cytoskeletal dynamics during axon pathfinding

40. Using Xenopus laevis retinal and spinal neurons to study mechanisms of axon guidance in vivo and in vitro

41. Multiple roles for the Na,K-ATPase subunits, Atp1a1 and Fxyd1, during brain ventricle development

42. Compartmentalized Toxoplasma EB1 bundles spindle microtubules to secure accurate chromosome segregation

43. The trip of the tip: understanding the growth cone machinery

44. Characterization and Classification of Zebrafish Brain Morphology Mutants

45. whitesnake/sfpqis required for cell survival and neuronal development in the zebrafish

46. Cytoskeletal social networking in the growth cone: How +TIPs mediate microtubule-actin cross-linking to drive axon outgrowth and guidance

47. Initial formation of zebrafish brain ventricles occurs independently of circulation and requires thenagie okoandsnakehead/atp1a1a.1gene products

48. Xenopus laevisas a model system to study cytoskeletal dynamics during axon pathfinding

49. Using plusTipTracker Software to Measure Microtubule Dynamics in Xenopus laevis Growth Cones

50. TACC3 is a microtubule plus end-tracking protein that promotes axon elongation and also regulates microtubule plus end dynamics in multiple embryonic cell types

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