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Mutations causing medullary cystic kidney disease type 1 lie in a large VNTR in MUC1 missed by massively parallel sequencing
A Kirby, A Gnirke, DB Jaffe, V Baresova, N Pochet, B Blumenstiel, C Ye, D Aird, C Stevens, JT Robinson, MN Cabili, I Gat-Viks, E Kelliher, R Daza, M DeFelice, H Hulkova, J Sovova, P Vylet'al, C Antignac, M Guttman, RE Handsaker, D Perrin, S...
Language English Country United States
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NT13116
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Full text - Article
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NLK
ProQuest Central
from 2000-01-01 to 1 year ago
Medline Complete (EBSCOhost)
from 1998-06-01 to 2015-11-30
Health & Medicine (ProQuest)
from 2000-01-01 to 1 year ago
Public Health Database (ProQuest)
from 2000-01-01 to 1 year ago
PubMed
23396133
DOI
10.1038/ng.2543
Knihovny.cz E-resources
- MeSH
- Cytosine metabolism MeSH
- Genetic Linkage MeSH
- Haplotypes MeSH
- Humans MeSH
- Minisatellite Repeats * genetics MeSH
- Mucin-1 * genetics metabolism MeSH
- Mutation * MeSH
- Polycystic Kidney, Autosomal Dominant * MeSH
- High-Throughput Nucleotide Sequencing MeSH
- Check Tag
- Humans MeSH
- Male MeSH
- Female MeSH
Although genetic lesions responsible for some mendelian disorders can be rapidly discovered through massively parallel sequencing of whole genomes or exomes, not all diseases readily yield to such efforts. We describe the illustrative case of the simple mendelian disorder medullary cystic kidney disease type 1 (MCKD1), mapped more than a decade ago to a 2-Mb region on chromosome 1. Ultimately, only by cloning, capillary sequencing and de novo assembly did we find that each of six families with MCKD1 harbors an equivalent but apparently independently arising mutation in sequence markedly under-represented in massively parallel sequencing data: the insertion of a single cytosine in one copy (but a different copy in each family) of the repeat unit comprising the extremely long (~1.5-5 kb), GC-rich (>80%) coding variable-number tandem repeat (VNTR) sequence in the MUC1 gene encoding mucin 1. These results provide a cautionary tale about the challenges in identifying the genes responsible for mendelian, let alone more complex, disorders through massively parallel sequencing.
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