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101 results on '"Tubular aggregate myopathy"'

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1. Constitutive, Muscle-Specific Orai1 Knockout Results in the Incomplete Assembly of Ca 2+ Entry Units and a Reduction in the Age-Dependent Formation of Tubular Aggregates.

2. Exome sequencing in undiagnosed congenital myopathy reveals new genes and refines genes–phenotypes correlations.

3. Constitutive, Muscle-Specific Orai1 Knockout Results in the Incomplete Assembly of Ca2+ Entry Units and a Reduction in the Age-Dependent Formation of Tubular Aggregates

4. The Structural–Functional Crosstalk of the Calsequestrin System: Insights and Pathological Implications.

5. Antioxidants restore store‐operated Ca2+ entry in patient‐iPSC‐derived myotubes with tubular aggregate myopathy‐associated Ile484ArgfsX21 STIM1 mutation via upregulation of binding immunoglobulin protein.

6. Silencing of the Ca 2+ Channel ORAI1 Improves the Multi-Systemic Phenotype of Tubular Aggregate Myopathy (TAM) and Stormorken Syndrome (STRMK) in Mice.

7. Expanding the clinical and genetic spectrum of pathogenic variants in STIM1.

8. Stormorken Syndrome Caused by a Novel STIM1 Mutation: A Case Report

9. Stormorken Syndrome Caused by a Novel STIM1 Mutation: A Case Report.

11. Gain-of-Function STIM1 L96V Mutation Causes Myogenesis Alteration in Muscle Cells From a Patient Affected by Tubular Aggregate Myopathy

12. STIM1/ORAI1 Loss-of-Function and Gain-of-Function Mutations Inversely Impact on SOCE and Calcium Homeostasis and Cause Multi-Systemic Mirror Diseases

13. Functional analyses of STIM1 mutations reveal a common pathomechanism for tubular aggregate myopathy and Stormorken syndrome.

14. STIM1 / ORAI1 Loss-of-Function and Gain-of-Function Mutations Inversely Impact on SOCE and Calcium Homeostasis and Cause Multi-Systemic Mirror Diseases.

15. Tubular aggregate myopathy and Stormorken syndrome: Mutation spectrum and genotype/phenotype correlation.

16. Commentary: Long-Term Exercise Reduces Formation of Tubular Aggregates and Promotes Maintenance of Ca2+ Entry Units in Aged Muscle.

18. Stormorken Syndrome Caused by a p.R304W STIM1 Mutation: The First Italian Patient and a Review of the Literature

19. Antioxidants restore store-operated Ca 2+ entry in patient-iPSC-derived myotubes with tubular aggregate myopathy-associated Ile484ArgfsX21 STIM1 mutation via upregulation of binding immunoglobulin protein.

20. Gain-of-function mutations in STIM1 and ORAI1 causing tubular aggregate myopathy and Stormorken syndrome.

21. Stormorken Syndrome Caused by a p.R304W STIM1 Mutation: The First Italian Patient and a Review of the Literature.

22. Silencing of the Ca2+ Channel ORAI1 Improves the Multi-Systemic Phenotype of Tubular Aggregate Myopathy (TAM) and Stormorken Syndrome (STRMK) in Mice

23. Identification and characterization of three novel mutations in the CASQ1 gene in four patients with tubular aggregate myopathy.

24. Complex phenotypes associated with STIM1 mutations in both coiled coil and EF-hand domains.

25. A novel gain-of-function mutation in ORAI1 causes late-onset tubular aggregate myopathy and congenital miosis.

26. ORAI1 Mutations with Distinct Channel Gating Defects in Tubular Aggregate Myopathy.

27. Tubular aggregate myopathy with features of Stormorken disease due to a new STIM1 mutation.

28. Calcium Dyshomeostasis in Tubular Aggregate Myopathy.

29. Stormorken Syndrome Caused by a Novel STIM1 Mutation: A Case Report

30. Commentary: Long-Term Exercise Reduces Formation of Tubular Aggregates and Promotes Maintenance of Ca2+ Entry Units in Aged Muscle

31. Muscle imaging in patients with tubular aggregate myopathy caused by mutations in STIM1.

32. Diseases caused by mutations in ORAI1 and STIM1.

33. Accumulation of STIM1 is associated with the degenerative muscle fibre phenotype in ALS and other neurogenic atrophies.

34. Expanding the clinical and genetic spectrum of pathogenic variants in STIM1

35. Long-Term Exercise Reduces Formation of Tubular Aggregates and Promotes Maintenance of Ca2+ Entry Units in Aged Muscle

36. STIM1 and ORAI1 mutations leading to tubular aggregate myopathies are sensitive to the Store-operated Ca2+-entry modulators CIC-37 and CIC-39.

37. Gain-of-Function Mutation in STIM1 (P.R304W) Is Associated with Stormorken Syndrome.

38. Gain-of-Function STIM1 L96V Mutation Causes Myogenesis Alteration in Muscle Cells From a Patient Affected by Tubular Aggregate Myopathy

39. Luminal STIM1 Mutants that Cause Tubular Aggregate Myopathy Promote Autophagic Processes

41. Stormorken syndrome caused by STIM1 mutation: A case report and literature review.

42. STIM1 and ORAI1 mutations leading to tubular aggregate myopathies are sensitive to the Store-operated Ca 2+ -entry modulators CIC-37 and CIC-39.

43. Tubular aggregate myopathy: A rare form of myopathy.

44. Stormorken Syndrome Caused by a p.R304W STIM1 Mutation: The First Italian Patient and a Review of the Literature

45. Variable impairment of platelet functions in patients with severe, genetically linked immune deficiencies

46. ORAI1 Mutations with Distinct Channel Gating Defects in Tubular Aggregate Myopathy

47. Physiopathologie de la myopathie à agrégats tubulaires

48. Identification and characterization of three novel mutations in the CASQ1 gene in four patients with tubular aggregate myopathy

49. Complex phenotypes associated with STIM1 mutations in both coiled coil and EF-hand domains

50. Autosomal recessive tubular aggregate myopathy in an Indian family.

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