Human bile salt-stimulated lipase has a high frequency of size variation due to a hypervariable region in exon 11

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Abstract

The apparent molecular mass of human milk bile salt-stimulated lipase (BSSL) varies between mothers. The molecular basis for this is unknown, but indirect evidence has suggested the differences to reside in a region of repeats located in the C-terminal part of the protein. We here report that a polymorphism within exon 11 of the BSSL gene is the explanation for the molecular variants of BSSL found in milk. By Southern blot hybridization we analyzed the BSSL gene from mothers known to have BSSL of different molecular masses in their milk. A polymorphism was found within exon 11, previously shown to consist of 16 near identical repeats of 33 bp each. We detected deletions or, in one case, an insertion corresponding to the variation in molecular mass of the BSSL protein found in milk from the respective woman. Furthermore, we found that 56%, out of 295 individuals studied, carry deletions or insertions within exon 11 in one or both alleles of the BSSL gene. Hence, this is a hyper-variable region and the current understanding that exon 11 in the human BSSL gene encodes 16 repeats is an over-simplification and needs to be revisited. Natural variation in the molecular mass of BSSL may have clinical implications.

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Lindquist, S., Bläckberg, L., & Hernell, O. (2002). Human bile salt-stimulated lipase has a high frequency of size variation due to a hypervariable region in exon 11. European Journal of Biochemistry, 269(3), 759–767. https://doi.org/10.1046/j.0014-2956.2001.02666.x

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