Lang Tiange, Hansson Gunnar C, Samuelsson Tore
Department of Medical Biochemistry, Institute of Biomedicine, Göteborg University, Box 440, SE-405 30 Göteborg, Sweden.
Proc Natl Acad Sci U S A. 2007 Oct 9;104(41):16209-14. doi: 10.1073/pnas.0705984104. Epub 2007 Oct 2.
Mucins are proteins that cover and protect epithelial cells and are characterized by domains rich in proline, threonine, and serine that are heavily glycosylated (PTS or mucin domains). Because of their sequence polymorphism, these domains cannot be used for evolutionary analysis. Instead, we have made use of the von Willebrand D (VWD) and SEA domains, typical for mucins. A number of animal genomes were examined for these domains to identify mucin homologues, and domains of the resulting proteins were used in phylogenetic studies. The frog Xenopus tropicalis stands out because the number of gel-forming mucins has markedly increased to at least 25 as compared with 5 for higher animals. Furthermore, the frog Muc2 homologues contain unique PTS domains where cysteines are abundant. This animal also has a unique family of secreted mucin-like proteins with alternating PTS and SEA domains, a type of protein also identified in the fishes. The evolution of the Muc4 mucin seems to have occurred by recruitment of a PTS domain to AMOP, NIDO, and VWD domains from a sushi domain-containing family of proteins present in lower animals, and Xenopus is the most deeply branching animal where a protein similar to the mammalian Muc4 was identified. All transmembrane mucins seem to have appeared in the vertebrate lineage, and the MUC1 mucin is restricted to mammals. In contrast, proteins with properties of the gel-forming mucins were identified also in the starlet sea anemone Nematostella vectensis, demonstrating an early origin of this group of mucins.
黏蛋白是覆盖并保护上皮细胞的蛋白质,其特征在于富含脯氨酸、苏氨酸和丝氨酸的结构域,这些结构域高度糖基化(PTS或黏蛋白结构域)。由于其序列多态性,这些结构域不能用于进化分析。相反,我们利用了黏蛋白特有的血管性血友病因子D(VWD)和SEA结构域。对许多动物基因组进行了这些结构域的检测以鉴定黏蛋白同源物,并将所得蛋白质的结构域用于系统发育研究。热带爪蟾尤为突出,因为与高等动物的5种相比,其凝胶形成黏蛋白的数量显著增加至至少25种。此外,爪蟾的Muc2同源物包含独特的PTS结构域,其中富含半胱氨酸。这种动物还具有一个独特的分泌型黏蛋白样蛋白质家族,其PTS和SEA结构域交替出现,这种蛋白质类型在鱼类中也有发现。Muc4黏蛋白的进化似乎是通过从低等动物中存在的含寿司结构域的蛋白质家族中招募一个PTS结构域到AMOP、NIDO和VWD结构域而发生的,而爪蟾是鉴定出与哺乳动物Muc4相似蛋白质的分支最深的动物。所有跨膜黏蛋白似乎都出现在脊椎动物谱系中,而MUC1黏蛋白仅限于哺乳动物。相比之下,在星状海葵星状海葵中也鉴定出了具有凝胶形成黏蛋白特性的蛋白质,这表明这一类黏蛋白起源较早。