Improvements to the Gulf pipefish Syngnathus scovelli genome.

GigaByte (Hong Kong, China) Pub Date : 2023-02-20 eCollection Date: 2023-01-01 DOI:10.46471/gigabyte.76

Balan Ramesh, Clay M Small, Hope Healey, Bernadette Johnson, Elyse Barker, Mark Currey, Susan Bassham, Megean Myers, William A Cresko, Adam Gregory Jones

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Abstract

The Gulf pipefish Syngnathus scovelli has emerged as an important species for studying sexual selection, development, and physiology. Comparative evolutionary genomics research involving fishes from Syngnathidae depends on having a high-quality genome assembly and annotation. However, the first S. scovelli genome assembled using short-read sequences and a smaller RNA-sequence dataset has limited contiguity and a relatively poor annotation. Here, using PacBio long-read high-fidelity sequences and a proximity ligation library, we generate an improved assembly to obtain 22 chromosome-level scaffolds. Compared to the first assembly, the gaps in the improved assembly are smaller, the N75 is larger, and our genome is ~95% BUSCO complete. Using a large body of RNA-Seq reads from different tissue types and NCBI's Eukaryotic Annotation Pipeline, we discovered 28,162 genes, of which 8,061 are non-coding genes. Our new genome assembly and annotation are tagged as a RefSeq genome by NCBI and provide enhanced resources for research work involving S. scovelli..

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对墨西哥湾河豚Syngnathus scovelli基因组的改进。

墨西哥湾管鱼Syngnathus scovelli已成为研究性选择、发育和生理学的重要物种。涉及Syngnathidae鱼类的比较进化基因组学研究依赖于高质量的基因组组装和注释。然而，使用短读序列和较小的RNA序列数据集组装的第一个S.scovelli基因组具有有限的邻接性和相对较差的注释。在这里，使用PacBio长读高保真序列和邻近连接文库，我们生成了一个改进的组装，以获得22个染色体水平的支架。与第一次组装相比，改进后的组装中的间隙更小，N75更大，我们的基因组完成了约95%的BUSCO。使用来自不同组织类型的大量RNA-Seq读数和NCBI的真核注释管道，我们发现了28162个基因，其中8061个是非编码基因。我们的新基因组组装和注释被NCBI标记为RefSeq基因组，并为涉及S.scovelli的研究工作提供了更多的资源。.

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