Objective: To perform mutation analysis and describe the genotype of the SMN gene in a patient with spinal muscular atrophy (SMA) and his family.
Methods: Deletion analysis of the SMN1 exon 7 by conventional PCR-restriction fragment length polymorphism (RFLP) and allele-specific PCR, and gene dosage of SMN1 and SMN2 by multiplex ligation-dependent probe amplification (MLPA) were performed for the patient and his parents; reverse transcriptase (RT)-PCR and sequencing were performed for the patient. To determine whether the SMN variant was exclusive to transcripts derived from SMN1, the RT-PCR product of the patient was subcloned and multiple clones were sequenced directly; PCR of SMN exon 5 from the genomic DNA of the parents and direct sequencing were performed to confirm the mutation.
Results: In SMN1 exon 7 deletion analysis, no homozygous deletion of the SMN1 was observed in the family; the gene dosage analysis by MLPA showed that the patient had 1 copy of SMN1 and 1 copy of SMN2 his father had 2 copies of SMN1 and 2 copies of SMN2, and his mother had 1 copy of SMN1 and no SMN2. A previously unreported missense mutation of S230L was identified from the patient and this mutation was also found in his father.
Conclusion: A novel missense mutation of S230L was identified in the SMA family and the genotype of the family members were investigated.
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| http://dx.doi.org/10.3760/cma.j.issn.1003-9406.2009.02.004 | DOI Listing |
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Article Synopsis
- The lab has been studying RNA-binding proteins (RBPs) and their complexes (RNPs) since the 1980s, focusing on their roles in regulating gene expression after transcription.* -
- Research uncovered links between RBPs, specific diseases like fragile X syndrome and spinal muscular atrophy, highlighting the connection between RNA biology and health conditions.* -
- The findings show that the diverse range of RNAs and RBPs can lead to increased complexity and potential disorders, suggesting a promising area for future research and discoveries in RNA science.*
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