Expression and possible functions of a horizontally transferred glycosyl hydrolase gene, GH6-1, in Ciona embryogenesis.

IF 4.1 2区 生物学 Q1 DEVELOPMENTAL BIOLOGY Evodevo Pub Date : 2023-07-11 DOI:10.1186/s13227-023-00215-x
Kun-Lung Li, Keisuke Nakashima, Kanako Hisata, Noriyuki Satoh
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引用次数: 1

Abstract

Background: The Tunicata or Urochordata is the only animal group with the ability to synthesize cellulose directly and cellulose is a component of the tunic that covers the entire tunicate body. The genome of Ciona intestinalis type A contains a cellulose synthase gene, CesA, that it acquired via an ancient, horizontal gene transfer. CesA is expressed in embryonic epidermal cells and functions in cellulose production. Ciona CesA is composed of both a glycosyltransferase domain, GT2, and a glycosyl hydrolase domain, GH6, which shows a mutation at a key position and seems functionless. Interestingly, the Ciona genome contains a glycosyl hydrolase gene, GH6-1, in which the GH6 domain seems intact. This suggests expression and possible functions of GH6-1 during Ciona embryogenesis. Is GH6-1 expressed during embryogenesis? If so, in what tissues is the gene expressed? Does GH6-1 serve a function? If so, what is it? Answers to these questions may advance our understanding of evolution of this unique animal group.

Results: Quantitative reverse transcription PCR and in situ hybridization revealed that GH6-1 is expressed in epidermis of tailbud embryos and in early swimming larvae, a pattern similar to that of CesA. Expression is downregulated at later stages and becomes undetectable in metamorphosed juveniles. The GH6-1 expression level is higher in the anterior-trunk region and caudal-tip regions of late embryos. Single-cell RNA sequencing analysis of the late tailbud stage showed that cells of three clusters with epidermal identity express GH6-1, and that some of them co-express CesA. TALEN-mediated genome editing was used to generate GH6-1 knockout Ciona larvae. Around half of TALEN-electroporated larvae showed abnormal development of adhesive papillae and altered distribution of surface cellulose. In addition, three-fourths of TALEN-electroporated animals failed to complete larval metamorphosis.

Conclusions: This study showed that tunicate GH6-1, a gene that originated by horizontal gene transfer of a prokaryote gene, is recruited into the ascidian genome, and that it is expressed and functions in epidermal cells of ascidian embryos. Although further research is required, this observation demonstrates that both CesA and GH6-1 are involved in tunicate cellulose metabolism, impacting tunicate morphology and ecology.

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水平转移糖基水解酶基因GH6-1在琼脂草胚胎发生中的表达及其可能的功能。
背景:被囊动物或尾索动物是唯一能够直接合成纤维素的动物,纤维素是覆盖整个被囊体的被囊的一种成分。A型玉米的基因组包含一个纤维素合成酶基因CesA,这是通过一个古老的水平基因转移获得的。CesA在胚胎表皮细胞中表达,并在纤维素生产中起作用。Ciona CesA由糖基转移酶结构域GT2和糖基水解酶结构域GH6组成,GH6在关键位置发生突变,似乎没有功能。有趣的是,乔娜基因组包含一个糖基水解酶基因GH6-1,其中GH6结构域似乎是完整的。这提示GH6-1在琼脂草胚胎发生过程中的表达及其可能的功能。GH6-1是否在胚胎发生过程中表达?如果是这样,该基因在哪些组织中表达?GH6-1有什么功能吗?如果有,是什么?这些问题的答案可能会促进我们对这种独特动物群体进化的理解。结果:定量反转录PCR和原位杂交显示,GH6-1在尾芽胚表皮和早期游动幼虫中表达,表达模式与CesA相似。表达在后期阶段下调,在变态少年中变得不可检测。GH6-1在胚胎后期前干区和尾尖区表达量较高。尾芽后期单细胞RNA测序分析显示,3个具有表皮特征的细胞簇表达GH6-1,部分细胞簇共表达CesA。使用talen介导的基因组编辑技术产生GH6-1敲除的Ciona幼虫。约一半的talen电穿孔幼虫表现出粘连乳头发育异常和表面纤维素分布改变。此外,四分之三的talen电穿孔动物未能完成幼虫变态。结论:本研究表明,被囊动物GH6-1基因通过原核生物基因的水平基因转移而被募集到海鞘基因组中,并在海鞘胚胎表皮细胞中表达和发挥功能。虽然需要进一步的研究,但这一观察结果表明CesA和GH6-1都参与了被囊动物的纤维素代谢,影响了被囊动物的形态和生态。
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来源期刊
Evodevo
Evodevo EVOLUTIONARY BIOLOGY-DEVELOPMENTAL BIOLOGY
CiteScore
7.50
自引率
0.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: EvoDevo publishes articles on a broad range of topics associated with the translation of genotype to phenotype in a phylogenetic context. Understanding the history of life, the evolution of novelty and the generation of form, whether through embryogenesis, budding, or regeneration are amongst the greatest challenges in biology. We support the understanding of these processes through the many complementary approaches that characterize the field of evo-devo. The focus of the journal is on research that promotes understanding of the pattern and process of morphological evolution. All articles that fulfill this aim will be welcome, in particular: evolution of pattern; formation comparative gene function/expression; life history evolution; homology and character evolution; comparative genomics; phylogenetics and palaeontology
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