Optimization of a simple and rapid single-strand conformation analysis for detection of mutations in the PROS1 gene: Identification of seven novel mutations and three novel, apparently neutral, variants

Espinosa‐Parrilla, Yolanda; Morell, Marta; Borrell, Montserrat; Souto, Joan Carles; Fontcuberta, Jordi; Estivill, Xavier; Sala, Núria

doi:10.1002/(sici)1098-1004(200005)15:5<463::aid-humu8>3.3.co;2-5

Cited by 13 publications

(31 citation statements)

References 32 publications

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“…It has been suggested that they are phenotypic variants of the same genetic disorder, as both phenotypes were found to coexist in the same families. 123,148,[155][156][157] In one of these families, deficient individuals were subsequently found to carry the same causative mutation, and the change in phenotype (type I to type III) was shown to be due to an age-related increase in TPS levels. 140 The mutation present in this family (Gly295Val) was later shown to completely abrogate PS expression from the affected allele.…”

Section: Type I and Type Iii Ps Deficienciesmentioning

confidence: 99%

Coagulation, inflammation, and apoptosis: different roles for protein S and the protein S–C4b binding protein complex

Rezende

Simmonds

Lane

2004

Blood

193

171

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Section: Type I and Type Iii Ps Deficienciesmentioning

confidence: 99%

Coagulation, inflammation, and apoptosis: different roles for protein S and the protein S–C4b binding protein complex

Rezende

Simmonds

Lane

2004

Blood

193

171

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“…Some intronic splice variants (Choi et al , 2011; Menezes et al , 2017; Wang et al , 2019) and structural variants (Hurtado et al , 2009; Lind-Halldén et al , 2012; Seo et al , 2014) have also been reported. Note that, compared to exonic variations, very few variations have been described in the promoter region of the PROS1 gene (Espinosa-Parrilla et al , 2000; Hurtado et al , 2008; Li et al , 2019; Sanda et al , 2007; Tang et al , 2013) and even fewer have been functionally characterized. To our knowledge, the c.-168C>T is the sole PROS1 promoter variation that has been experimentally demonstrated to cause inherited PSD by affecting the core binding site of Sp1 transcription factor (Sanda et al , 2007).…”

Section: Introductionmentioning

confidence: 99%

A novel rare c. -39C>T mutation in thePROS15’UTR causing PS deficiency by creating a new upstream translation initiation codon and inhibiting the production of the natural protein

Labrouche-Colomer

Soukarieh

Proust

et al. 2020

Preprint

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SummaryInherited Protein S deficiency (PSD) (MIM176880) is a rare automosal dominant disorder caused by rare mutations, mainly located in the coding sequence of the structural PROS1 gene, and associated with an increased risk of venous thromboembolism. To identify the molecular defect underlying PSD observed in an extended French pedigree with 7 PSD affected members in who no candidate deleterious PROS1 mutation was detected by Sanger sequencing of PROS1 exons and their flanking intronic regions or via a MLPA approach, a whole genome sequencing strategy was adopted. This led to the identification of a never reported C to T substitution at c.-39 from the natural ATG codon of the PROS1 gene that completely segregates with PSD in the whole family. This substitution ACG->ATG creates a new start codon upstream of the main ATG. We experimentally demonstrated that the variant generates a novel overlapping ORF and inhibits the translation of the wild type protein from the main ORF in HeLa cells. This work describes the first example of 5’UTR PROS1 mutation causing PSD through the creation of an upstream ORF, a mutation that is not predicted to be deleterious by standard annotation softwares.

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“…Nevertheless, screening for PROS1 gene mutations has been performed in a number of studies. The proportion of cases where no mutations are detected varies widely between studies [10,17,[23][24][25][26][27][28][29][30][31][32][33]. When all cases are pooled together, PROS1 gene mutations are not detected in 47% of PS deficient families.…”

Section: Introductionmentioning

confidence: 99%

Co‐segregation of the PROS1 locus and protein S deficiency in families having no detectable mutations in PROS1

Lanke

Johansson

Hillarp

et al. 2004

Journal of Thrombosis and Haemostasis

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Summary. Inherited deficiency of protein S constitutes an important risk factor of venous thrombosis. Many reports have demonstrated that causative mutations in the protein S gene are found only in approximately 50% of the cases with protein S deficiency. It is uncertain whether the protein S gene is causative in all cases of protein S deficiency or if other genes are involved in cases where no mutation is identified. The aim of the current study was to determine whether haplotypes of the protein S gene cosegregate with the disease phenotype in cases where no mutations have been found. Eight protein S‐deficient families comprising 115 individuals where previous DNA sequencing had failed to detect any causative mutations were analyzed using four microsatellite markers in the protein S gene region. Co‐segregation between microsatellite haplotypes and protein S deficiency was found in seven of the investigated families, one family being uninformative. This suggests that the causative genetic defects are located in or close to the protein S gene in a majority of such cases where no mutations have been found.

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Optimization of a simple and rapid single-strand conformation analysis for detection of mutations in the PROS1 gene: Identification of seven novel mutations and three novel, apparently neutral, variants

Cited by 13 publications

References 32 publications

Coagulation, inflammation, and apoptosis: different roles for protein S and the protein S–C4b binding protein complex

Coagulation, inflammation, and apoptosis: different roles for protein S and the protein S–C4b binding protein complex

A novel rare c. -39C>T mutation in thePROS15’UTR causing PS deficiency by creating a new upstream translation initiation codon and inhibiting the production of the natural protein

Co‐segregation of the PROS1 locus and protein S deficiency in families having no detectable mutations in PROS1

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