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New insights on the evolution of the SMN1 and SMN2 region: simulation and meta-analysis for allele and haplotype frequency calculations
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New insights on the evolution of the SMN1 and SMN2 region: simulation and meta-analysis for allele and haplotype frequency calculations
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Journal Article
New insights on the evolution of the SMN1 and SMN2 region: simulation and meta-analysis for allele and haplotype frequency calculations
2004
Overview
Most spinal muscular atrophy patients lack both copies of
SMN1
. Loss of
SMN1
(‘0-copy alleles’) can occur by gene deletion or
SMN1
-to-
SMN2
gene conversion. Despite worldwide efforts to map the segmental duplications within the
SMN
region, most assemblies do not correctly delineate these genes. A near pericentromeric location provides impetus for the strong evidence that
SMN1
and
SMN2
arose from a primate-specific paralogous gene duplication. Here we meta-analyzed our recent laboratory results together with available published data, in order to calculate new mutation rates and allele/haplotype frequencies in this recalcitrant and highly unstable region of the human genome. Based on our tested assumption of compliance with Hardy–Weinberg equilibrium, we conclude that the
SMN1
allele frequencies are: ‘0-copy disease alleles,’ 0.013; ‘1-copy normal alleles,’ 0.95; ‘2-copy normal alleles (ie, two copies of
SMN1
on one chromosome),’ 0.038; and ‘1
D
disease alleles (
SMN1
with a small intragenic mutation),’ 0.00024. The
SMN1
haplotype [‘(
SMN1
copy number)-(
SMN2
copy number)’] frequencies are: ‘0-0,’ 0.00048; ‘0-1,’ 0.0086; ‘0-2,’ 0.0042; ‘1-0,’ 0.27; ‘1-1,’ 0.66; ‘1-2,’ 0.015; ‘2-0,’ 0.027; and ‘2-1,’ 0.012. Paternal and maternal
de novo
mutation rates are 2.1 × 10
−4
and 4.2 × 10
−5
, respectively. Our data provide the basis for the most accurate genetic risk calculations, as well as new insights on the evolution of the
SMN
region, with evidence that nucleotide position 840 (where a transition 840C>T functionally distinguishes
SMN2
from
SMN1
) constitutes a mutation hotspot. Our data also suggest selection of the 1-1 haplotype and the presence of rare chromosomes with three copies of
SMN1
.
Publisher
Springer International Publishing,Nature Publishing,Nature Publishing Group
