A family with late-onset autosomal dominant pure cerebellar ataxia, consistent with spinocerebellar ataxia type 5 (SCA5) but lacking previously reported SPTBN2 mutations, was identified. DNA was collected from seven individuals across two generations and the SPTBN2 gene on chromosome 11 was sequenced. A nonsynonymous heterozygous substitution in exon 12 was detected in individuals diagnosed with SCA5 while unaffected family members did not possess this variant. The identified c.1415C>T variant results in a p.T472M substitution in the second SPEC domain of the beta-III spectrin protein. The threonine at position 472 is not in close proximity to the characteristic residues that define the SPEC domain and is variable across diverse SPEC domains, yet is highly conserved in SPTBN2. Consistent with these observations, bioinformatic analysis of the p.T472M variant suggests it to be pathological. Two deletions within the SPTBN2 SPEC domains (E532_M544del and L629_R634delinsW) have been previously reported to cause SCA5, but this is the first missense mutation in this region of the protein shown to likely be pathogenic.