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187 results on '"Connexin 26 genetics"'

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1. An Ala/Glu difference in E1 of Cx26 and Cx30 contributes to their differential anionic permeabilities.

2. A pore locus in the E1 domain differentially regulates Cx26 and Cx30 hemichannel function.

3. Genotype-phenotype analysis of hearing function in patients with DFNB1A caused by the c.-23+1G>A splice site variant of the GJB2 gene (Cx26).

4. GJB2 Promotes HCC Progression by Activating Glycolysis Through Cytoplasmic Translocation and Generating a Suppressive Tumor Microenvironment Based on Single Cell RNA Sequencing.

5. Validating the splicing effect of rare variants in the SLC26A4 gene using minigene assay.

6. Genetic Basis of Hearing Loss in Mongolian Patients: A Next-Generation Sequencing Study.

7. Genetic investigations on singleton school aged children reveal novel variants and new candidate genes for hearing loss.

8. A Village in the Southeastern Region of Iran Harboring the c.716T>A (p.Val239Asp) Mutation in SLC26A4 .

9. Genetic landscape of hearing loss in prelingual deaf patients of eastern Iran: Insights from exome sequencing analysis.

10. Targeted Next-Generation Sequencing Analysis Reveals a Novel Genetic Variant in MYO6 Gene in an Indian Family with Postlingual Nonsyndromic Hearing Loss.

11. Mosaic GJB2 mutations in widespread porokeratotic adnexal ostial nevus: Report of two patients.

12. Variants in Genes Associated with Hearing Loss in Children: Prevalence in a Large Canadian Cohort.

13. A capture-based method of prenatal cell-free DNA screening for autosomal recessive non-syndromic hearing loss.

14. Expanded targeted preconception screening panel in Israel: findings and insights.

15. Unveiling a novel GJB2 dominant K22T mutation in a Chinese family with hearing loss.

16. Spectrum of genetic variants in 306 patients with non-syndromic hearing loss from Croatia.

17. Genetic analysis of 106 sporadic cases with hearing loss in the UAE population.

18. Structures of wild-type and a constitutively closed mutant of connexin26 shed light on channel regulation by CO 2 .

19. Machine learning-based longitudinal prediction for GJB2-related sensorineural hearing loss.

20. Identification of novel and known genetic variants associated with hereditary hearing loss in iranian families using whole exome sequencing.

21. Unusual phenotype in 35delG mutation: a case report.

22. [Analysis of the results for genetic disease screening among 1 000 newborns from Huzhou].

23. Structural basis for pathogenic variants of GJB2 and hearing levels of patients with hearing loss.

24. Comparison of vestibular function in hereditary hearing loss patients with GJB2, CDH23, and SLC26A4 variants.

25. The Segregation of p.Arg68Ter- CLDN14 Mutation in a Syrian Deaf Family, Phenotypic Variations, and Comparative Analysis with the GJB2 Gene.

26. A murine model for the del(GJB6-D13S1830) deletion recapitulating the phenotype of human DFNB1 hearing impairment: generation and functional and histopathological study.

27. [Mutation spectrum analysis of 23-site chip neonatal deafness genetic screening].

28. The genetic basis and the diagnostic yield of genetic testing related to nonsyndromic hearing loss in Qatar.

29. Hearing Loss: Genetic Testing, Current Advances and the Situation in Latin America.

30. Analysis of deafness susceptibility gene of neonates in northern Guangdong, China.

31. A novel method for detecting nine hotspot mutations of deafness genes in one tube.

32. Unraveling the Diversity of GJB2 Mutations in Nonsyndromic Hearing Loss: A Comprehensive Study in the Moroccan Population.

33. [Genetic characteristic analysis of slight-to-moderate sensorineural hearing loss in children].

34. Genetic screening of 15 hearing loss variants in 77,647 neonates with clinical follow-up.

35. [Distribution characteristics and correlation analysis of GJB2 variation in patients with auditory neuropathy].

36. Mutation analysis of GJB2, SLC26A4, GJB3 and mtDNA12SrRNA genes in 251 non-syndromic hearing loss patients in Fujian, China.

37. Hearing and Hearing Loss Progression in Patients with GJB2 Gene Mutations: A Long-Term Follow-Up.

38. Characteristics of hearing loss-associated gene mutations: A multi-center study of 119,606 neonates in Gannan.

39. GJB2 p.V37I Mutation Associated With Moderate Nonsyndromic Hearing Loss in an Adult Taiwanese Population.

40. Genetic Factors Contribute to the Phenotypic Variability in GJB2-Related Hearing Impairment.

41. Genotypic and Allelic Frequencies of GJB2 Variants and Features of Hearing Phenotypes in the Chinese Population of the Dongfeng-Tongji Cohort.

42. Functional Consequences of Pathogenic Variants of the GJB2 Gene (Cx26) Localized in Different Cx26 Domains.

43. Identification a novel pathogenic LRTOMT mutation in Mauritanian families with nonsyndromic deafness.

44. Exome sequencing identifies novel variants associated with non-syndromic hearing loss in the Iranian population.

45. Analysis of GJB2 gene mutations spectrum and the characteristics of individuals with c.109G>A in Western Guangdong.

46. [Results of combined newborn hearing and deafness gene screening in Yuncheng area of Shanxi Province].

47. Gene Screening for Non-Syndromic Deafness in Hainanese Patients.

48. [A prospective study of genetic screening of 2 060 neonates by high-throughput sequencing].

49. Optimized concurrent hearing and genetic screening in Beijing, China: A cross-sectional study.

50. The pathogenesis of common Gjb2 mutations associated with human hereditary deafness in mice.

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