We have extended our linkage studies of SMA in the French-Canadian population to include microsatellite markers at the D5S125, D5S351, D5S435, JK53CA1/2 and MAP1B loci.
We localized a recently described polymorphic marker, D5S351 (Hudson et al., 1992), close to the SMA (theta = 0.00 at zmax = 19.01) and the 3'MAP1B gene (theta = 0.01 at zmax = 38.76).
Recent reports have provided evidence that a major gene for autosomal recessive proximal spinal muscular atrophy (SMA) resides in a small genetic interval in bands q12-q13 of chromosome 5, a 4-cM region proximally flanked by D5S125 (EF(TG/AG)n) and distally by MAP1B/D5S112 or a 0.7-cM interval (range 0.1-2.1 cM) flanked by D5S435 proximally and MAP1B/D5S112 distally.
By minimum recombinant analysis the most likely position of the SMA locus was between loci D5S6/D5S125 and D5S112/MAP1B, which is in agreement with several linkage studies from other countries.
Our data suggest that the most likely location for the SMA locus is between blocks AFM114ye7 (D5S465)/EF5.15 (D5S125) and MAP-1B/JK53 (D5S112) at a sex-combined genetic distance of 2.4 and 1.7 cM, respectively.
Here, we report linkage analyses in 64 SMA families with nine polymorphic markers closely linked to the SMA gene, which allowed us to narrow the SMA region to about 4 cM and to define a new proximal genetic border by the locus D5S125 (EF(TG/AG)n. Based on haplotype analysis and specific recombination events, the following order of the loci was determined: 5cen-D5S76-D5S6-D5S125-SMA-(5'MAP-1B-3'MAP- 1B)/D5S112-JK53CA1/2-(D5S39-D5S127)-5qter.
These mapping data together with the postulated role of MAP-1B in neuronal morphogenesis and its localization in anterior horn motor neurons suggest a possible association with SMA.