Mengkai Zhang
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View article: Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination
Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination Open
Tissue-specific alternative splicing (AS) is emerging as one of the most exciting types of mechanisms associated with organ development and disease. In the auditory system, many hearing-related genes undergo AS, and errors in this process …
View article: Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination
Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination Open
Tissue-specific alternative splicing (AS) is emerging as one of the most exciting types of mechanisms associated with organ development and disease. In the auditory system, many hearing-related genes undergo AS, and errors in this process …
View article: Rbm24 modulates adult skeletal muscle regeneration via regulation of alternative splicing
Rbm24 modulates adult skeletal muscle regeneration via regulation of alternative splicing Open
Rationale: The adult skeletal muscle can self-repair efficiently following mechanical or pathological damage due to its remarkable regenerative capacity. However, regulatory mechanisms underlying muscle regeneration are complicated and hav…
View article: Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination
Rbm24 regulates inner-ear-specific alternative splicing and is essential for maintaining auditory and motor coordination Open
Tissue-specific alternative splicing (AS) is emerging as one of the most exciting types of mechanisms associated with organ development and disease. In the auditory system, many hearing-related genes undergo AS, and errors in this process …
View article: RNA binding protein 24 deletion disrupts global alternative splicing and causes dilated cardiomyopathy
RNA binding protein 24 deletion disrupts global alternative splicing and causes dilated cardiomyopathy Open
RNA splicing contributes to a broad spectrum of post-transcriptional gene regulation during normal development, as well as pathological manifestation of heart diseases. However, the functional role and regulation of splicing in heart failu…