Evolution of pogo, a separate superfamily of IS630-Tc1-mariner transposons, revealing recurrent domestication events in vertebrates.

IF 4.7 2区 生物学 Q1 GENETICS & HEREDITY
Mobile DNA Pub Date : 2020-07-22 eCollection Date: 2020-01-01 DOI:10.1186/s13100-020-00220-0
Bo Gao, Yali Wang, Mohamed Diaby, Wencheng Zong, Dan Shen, Saisai Wang, Cai Chen, Xiaoyan Wang, Chengyi Song
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引用次数: 42

Abstract

Background: Tc1/mariner and Zator, as two superfamilies of IS630-Tc1-mariner (ITm) group, have been well-defined. However, the molecular evolution and domestication of pogo transposons, once designated as an important family of the Tc1/mariner superfamily, are still poorly understood.

Results: Here, phylogenetic analysis show that pogo transposases, together with Tc1/mariner, DD34E/Gambol, and Zator transposases form four distinct monophyletic clades with high bootstrap supports (> = 74%), suggesting that they are separate superfamilies of ITm group. The pogo superfamily represents high diversity with six distinct families (Passer, Tigger, pogoR, Lemi, Mover, and Fot/Fot-like) and wide distribution with an expansion spanning across all the kingdoms of eukaryotes. It shows widespread occurrences in animals and fungi, but restricted taxonomic distribution in land plants. It has invaded almost all lineages of animals-even mammals-and has been domesticated repeatedly in vertebrates, with 12 genes, including centromere-associated protein B (CENPB), CENPB DNA-binding domain containing 1 (CENPBD1), Jrk helix-turn-helix protein (JRK), JRK like (JRKL), pogo transposable element derived with KRAB domain (POGK), and with ZNF domain (POGZ), and Tigger transposable element-derived 2 to 7 (TIGD2-7), deduced as originating from this superfamily. Two of them (JRKL and TIGD2) seem to have been co-domesticated, and the others represent independent domestication events. Four genes (TIGD3, TIGD4, TIGD5, and POGZ) tend to represent ancient domestications in vertebrates, while the others only emerge in mammals and seem to be domesticated recently. Significant structural variations including target site duplication (TSD) types and the DDE triad signatures (DD29-56D) were observed for pogo transposons. Most domesticated genes are derived from the complete transposase genes; but CENPB, POGK, and POGZ are chimeric genes fused with additional functional domains.

Conclusions: This is the first report to systematically reveal the evolutionary profiles of the pogo transposons, suggesting that pogo and Tc1/Mariner are two separate superfamilies of ITm group, and demonstrating the repeated domestications of pogo in vertebrates. These data indicate that pogo transposons have played important roles in shaping the genome and gene evolution of fungi and animals. This study expands our understanding of the diversity of pogo transposons and updates the classification of ITm group.

Abstract Image

Abstract Image

Abstract Image

pogo,一个独立的IS630-Tc1-马里纳转座子超家族的进化,揭示了脊椎动物中反复发生的驯化事件。
背景:Tc1/mariner和Zator作为IS630-Tc1-mariner(ITm)组的两个超家族,已被明确定义。然而,曾经被指定为Tc1/水手超家族重要家族的pogo转座子的分子进化和驯化仍然知之甚少。结果:系统发育分析表明,pogo转座酶与Tc1/mariner、DD34E/Gambol和Zator转座酶一起形成了四个具有高度bootstrap支持的不同单系分支(> = 74%),表明它们是ITm组的独立超家族。pogo超家族具有高度多样性,有六个不同的家族(Passer、Tigger、pogoR、Lemi、Mover和Fot/Fot-like),分布广泛,扩展范围遍及真核生物的所有王国。它在动物和真菌中广泛存在,但在陆地植物中的分类分布受到限制。它已经入侵了几乎所有动物谱系,甚至哺乳动物,并在脊椎动物中被反复驯化,具有12个基因,包括着丝粒相关蛋白B(CENPB)、CENPB DNA结合结构域含1(CENPBD1)、Jrk螺旋-转螺旋蛋白(Jrk)、Jrk样蛋白(JRKL)、源自KRAB结构域的pogo转座子(POGK)和ZNF结构域(POGZ),和Tigger转座元件衍生自2至7(TIGD2-7),推断为源自该超家族。其中两个(JRKL和TIGD2)似乎是共同驯化的,其他代表了独立的驯化事件。四个基因(TIGD3、TIGD4、TIGD5和POGZ)往往代表脊椎动物的古老驯化,而其他基因只出现在哺乳动物中,似乎是最近驯化的。观察到pogo转座子的显著结构变化,包括靶位点重复(TSD)类型和DDE三联体特征(DD29-56D)。大多数驯化基因来源于完整的转座酶基因;但是CENPB、POGK和POGZ是与附加功能结构域融合的嵌合基因。结论:这是第一份系统揭示pogo转座子进化特征的报告,表明pogo和Tc1/Mariner是ITm群中两个独立的超家族,并证明了pogo在脊椎动物中的重复驯化。这些数据表明,pogo转座子在真菌和动物的基因组和基因进化中发挥了重要作用。本研究扩展了我们对pogo转座子多样性的理解,并更新了ITm组的分类。
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来源期刊
Mobile DNA
Mobile DNA GENETICS & HEREDITY-
CiteScore
8.20
自引率
6.10%
发文量
26
审稿时长
11 weeks
期刊介绍: Mobile DNA is an online, peer-reviewed, open access journal that publishes articles providing novel insights into DNA rearrangements in all organisms, ranging from transposition and other types of recombination mechanisms to patterns and processes of mobile element and host genome evolution. In addition, the journal will consider articles on the utility of mobile genetic elements in biotechnological methods and protocols.
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