Degnan B M, Degnan S M, Naganuma T, Morse D E
Marine Biotechnology Center, University of California, Santa Barbara 93106.
Nucleic Acids Res. 1993 Jul 25;21(15):3479-84. doi: 10.1093/nar/21.15.3479.
This study provides the first empirical evidence for the conservation of the ets proto-oncogene transcription factor family throughout the Metazoa. Using the polymerase chain reaction with degenerate primers corresponding to conserved sequences within the ETS DNA-binding domain, we have detected ets genes in a range of lower metazoans, including sponges, ctenophores, anemones, flatworms and nematodes, and in several higher invertebrate metazoans. Many of these sequences are significantly divergent from the original v-ets-1 oncogene, although most can be aligned with recently defined groups within the ets gene family. Multiple ETS domain sequences were detected in a number of the lower metazoan species, providing evidence for the existence of an ets multigene family at the earliest stages of metazoan evolution. In contrast, we were unable to detect any ETS sequences in fungal, plant or several protozoan DNAs. Our findings suggest that the duplication and divergence of ets proto-oncogenes responsible for generating the multigene family occurred concomitantly with the development of metazoan animals. In addition, these data corroborate other recent molecular evidence in providing strong support for the monophyletic origin of all multicellular animals, including sponges.
本研究首次提供了有关ets原癌基因转录因子家族在整个后生动物中保守性的实证依据。利用与ETS DNA结合域内保守序列对应的简并引物进行聚合酶链反应,我们在一系列低等后生动物中检测到了ets基因,包括海绵动物、栉水母、海葵、扁形虫和线虫,以及几种高等无脊椎后生动物。这些序列中的许多与原始的v-ets-1癌基因有显著差异,尽管大多数可以与ets基因家族中最近定义的组进行比对。在一些低等后生动物物种中检测到了多个ETS结构域序列,这为后生动物进化最早阶段ets多基因家族的存在提供了证据。相比之下,我们在真菌、植物或几种原生动物的DNA中未能检测到任何ETS序列。我们的研究结果表明,负责产生多基因家族的ets原癌基因的复制和分化与后生动物的发育同时发生。此外,这些数据证实了其他近期的分子证据,为包括海绵动物在内的所有多细胞动物的单系起源提供了有力支持。