De Donato Marcos, Peters Sunday O, Hussain Tanveer, Rodulfo Hectorina, Thomas Bolaji N, Babar Masroor E, Imumorin Ikhide G
Animal Genetics and Genomics Laboratory, International Programs, College of Agriculture and Life Science, Cornell University, Ithaca, NY, 14853, USA.
Escuela de Escuela de Bioingenierias, Instituto Tecnologico y de Estudios Superiores de Monterrey, Queretaro, Mexico.
Mamm Genome. 2017 Oct;28(9-10):443-454. doi: 10.1007/s00335-017-9695-6. Epub 2017 May 17.
Type II melanoma-associated antigens (MAGE) are a subgroup of about a dozen proteins found in various locations in the genome and expressed in normal tissues, thus are not related to cancer as the type I MAGE genes. This gene family exists as a single copy in non-mammals and monotremata, but found as two copies in metatherians and occur as a diverse group in all eutherians. Our studies suggest MAGED2 as the ancestor of this subfamily and the most likely evolutionary history of eutherian type II MAGE genes is hereby proposed based on synteny conservation, phylogenetic relations, genome location, homology conservation, and the protein and gene structures. Type II genes can be divided into two: those with 13 exons (MAGED1, MAGED2, TRO, and MAGED4) and those with only one exon (MAGEE1, MAGEE2, MAGEF1, NSMCE3, MAGEH1, MAGEL2, and NDN) with different evolutionary patterns. Our results suggest a need to change the gene nomenclature to MAGE1 (the ancestral gene), currently designated as LOC103095671 and LOC100935086, in opossum and Tasmanian devil, respectively, and MAGE2 (the duplicated one), currently designated as LOC100617402 and NDNL2, respectively, to avoid confusion. We reconstructed the phylogenetic relationships among 23 mammalian species using the combined sequences of MAGED1, MAGED2, MAGEL2, and NDN, because of their high divergence, and found high levels of support, being able to resolve the phylogenetic relationships among Euarchontoglires, Laurasiatheria, Afrotheria, and Xenarthra, as an example that small, but phylogenetically informative sequences, can be very useful for resolving basal mammalian clades.
II型黑色素瘤相关抗原(MAGE)是在基因组的不同位置发现的约十二种蛋白质的一个亚组,在正常组织中表达,因此不像I型MAGE基因那样与癌症相关。这个基因家族在非哺乳动物和单孔目动物中以单拷贝形式存在,但在有袋类动物中发现为两个拷贝,在所有真兽类动物中则以多样化的群体形式出现。我们的研究表明MAGED2是这个亚家族的祖先,并基于同线性保守、系统发育关系、基因组位置、同源性保守以及蛋白质和基因结构,在此提出真兽类II型MAGE基因最可能的进化历史。II型基因可分为两类:一类有13个外显子(MAGED1、MAGED2、TRO和MAGED4),另一类只有一个外显子(MAGEE1、MAGEE2、MAGEF1、NSMCE3、MAGEH1、MAGEL2和NDN),它们具有不同的进化模式。我们的结果表明,需要将负鼠和袋獾中目前分别指定为LOC103095671和LOC100935086的基因命名改为MAGE1(祖先基因),以及将目前分别指定为LOC100617402和NDNL2的基因命名改为MAGE2(复制基因),以避免混淆。由于MAGED1、MAGED2、MAGEL2和NDN的序列差异很大,我们使用它们的组合序列重建了23种哺乳动物物种之间的系统发育关系,发现有很高的支持度,能够解析真灵长总目、劳亚兽总目、非洲兽总目和异关节总目之间的系统发育关系,这表明小的但具有系统发育信息的序列对于解析基础哺乳动物类群非常有用。
