Department of Transfusion Medicine and Haemostaseology, University Hospital of Erlangen, Friedrich-Alexander University Erlangen-Nurnberg (FAU), Erlangen, Germany.
Blood Coagul Fibrinolysis. 2022 Jun 1;33(4):224-227. doi: 10.1097/MBC.0000000000001120. Epub 2021 Dec 22.
The members of a Caucasian family were genetically analyzed on suspicion of hereditary protein S deficiency. A novel mutation, c.1904T>C, associated with severe quantitative protein S deficiency was found. The novel PROS1 mutation was identified by sequencing of the PROS1 gene coding sequence. The identified c.1904T>C point mutation results in p.Phe635Ser amino acid exchange, which is located in the Laminin G-like 2 domain of protein S. Computational analysis indicates that this amino acid exchange affects the correct folding of the protein S antigen. Furthermore, this mutation is located in a region of the Laminin G-like 2 domain where changes in the amino acid sequence often result in decreased secretion. We postulate that the novel p.Phe635Ser mutation might lead to an incorrect folding, and thus, to a strongly impaired secretion of this protein S variant. We named this novel variant protein.
一个高加索家族的成员因遗传性蛋白 S 缺乏而接受基因分析。发现了一种与严重蛋白 S 定量缺乏相关的新型突变 c.1904T>C。通过 PROS1 基因编码序列的测序鉴定了新型 PROS1 突变。确定的 c.1904T>C 点突变导致 p.Phe635Ser 氨基酸替换,该替换位于蛋白 S 的层粘连蛋白 G 样 2 结构域中。计算分析表明,这种氨基酸替换会影响蛋白 S 抗原的正确折叠。此外,该突变位于层粘连蛋白 G 样 2 结构域的一个区域,其中氨基酸序列的变化通常导致分泌减少。我们推测,新型 p.Phe635Ser 突变可能导致错误折叠,从而严重影响该蛋白 S 变体的分泌。我们将这个新的变体命名为蛋白 S。
