柑橘木虱Diaci v3.0：黄龙病昆虫传播媒介柑橘木虱的染色体水平组装、从头转录组及人工注释

Diaci v3.0: chromosome-level assembly, de novo transcriptome, and manual annotation of Diaphorina citri, insect vector of Huanglongbing.

作者信息

Shippy Teresa D, Hosmani Prashant S, Flores-Gonzalez Mirella, Mann Marina, Miller Sherry, Weirauch Matthew T, Vosberg Chad, Massimino Crissy, Tank Will, de Oliveira Lucas, Chen Chang, Hoyt Stephanie, Adams Rebekah, Adkins Samuel, Bailey Samuel T, Chen Xiaoting, Davis Nina, DeLaFlor Yesmarie, Espino Michelle, Gervais Kylie, Grace Rebecca, Harper Douglas, Hasan Denisse L, Hoang Maria, Holcomb Rachel, Jernigan Margaryta R, Kemp Melissa, Kennedy Bailey, Kercher Kyle, Klaessan Stefan, Kruse Angela, Licata Sophia, Lu Andrea, Masse Ron, Mathew Anuja, Michels Sarah, Michels Elizabeth, Neiman Alan, Norman Seantel, Norus Jordan, Ortiz Yasmin, Panitz Naftali, Paris Thomson, Perentesis Kitty M R, Perry Michael, Reynolds Max, Sena Madison M, Tamayo Blessy, Thate Amanda, Vandervoort Sara, Ventura Jessica, Weis Nicholas, Wise Tanner, Shatters Robert G, Heck Michelle, Benoit Joshua B, Hunter Wayne B, Mueller Lukas A, Brown Susan J, D'Elia Tom, Saha Surya

机构信息

Division of Biology, Kansas State University, Manhattan, KS 66506, USA.

Boyce Thompson Institute, Ithaca, NY 14853, USA.

出版信息

Gigascience. 2024 Jan 2;13. doi: 10.1093/gigascience/giae109.

DOI:10.1093/gigascience/giae109

PMID:39704701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11659978/

Abstract

BACKGROUND

Diaphorina citri is an insect vector of "Candidatus Liberibacter asiaticus" (CLas), the gram-negative bacterial pathogen associated with citrus greening disease. Control measures rely on pesticides with negative impacts on the environment, natural ecosystems, and human and animal health. In contrast, gene-targeting methods have the potential to specifically target the vector species and/or reduce pathogen transmission.

RESULTS

To improve the genomic resources needed for targeted pest control, we assembled a D. citri genome based on PacBio long reads followed by proximity ligation-based scaffolding. The 474-Mb genome has 13 chromosomal-length scaffolds. In total, 1,036 genes were manually curated as part of a community annotation project, composed primarily of undergraduate students. We also computationally identified a total of 1,015 putative transcription factors (TFs) and were able to infer motifs for 337 TFs (33%). In addition, we produced a genome-independent transcriptome and genomes for D. citri endosymbionts.

CONCLUSIONS

Manual annotation provided more accurate gene models for use by researchers and provided an excellent training opportunity for students from multiple institutions. All resources are available on CitrusGreening.org and NCBI. The chromosomal-length D. citri genome assembly serves as a blueprint for the development of collaborative genomics projects for other medically and agriculturally significant insect vectors.

摘要

背景

柑橘木虱是与柑橘黄龙病相关的革兰氏阴性细菌病原体“亚洲韧皮杆菌”（CLas）的昆虫传播媒介。控制措施依赖于对环境、自然生态系统以及人类和动物健康有负面影响的杀虫剂。相比之下，基因靶向方法有潜力特异性地针对传播媒介物种和/或减少病原体传播。

结果

为了改善靶向害虫控制所需的基因组资源，我们基于PacBio长读长测序，随后进行基于邻近连接的支架构建，组装了柑橘木虱的基因组。这个474兆碱基的基因组有13个染色体长度的支架。作为一个主要由本科生参与的社区注释项目的一部分，总共手动注释了1036个基因。我们还通过计算总共鉴定出1015个假定的转录因子（TFs），并且能够推断出337个TFs（33%）的基序。此外，我们还生成了与基因组无关的柑橘木虱内共生菌转录组和基因组。

结论

手动注释为研究人员提供了更准确的基因模型，并为来自多个机构的学生提供了绝佳的培训机会。所有资源都可在CitrusGreening.org和NCBI上获取。染色体长度的柑橘木虱基因组组装为其他具有医学和农业重要性的昆虫传播媒介的合作基因组学项目的开展提供了蓝图。

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Diaci v3.0: chromosome-level assembly, de novo transcriptome, and manual annotation of Diaphorina citri, insect vector of Huanglongbing.柑橘木虱Diaci v3.0：黄龙病昆虫传播媒介柑橘木虱的染色体水平组装、从头转录组及人工注释

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柑橘木虱Diaci v3.0：黄龙病昆虫传播媒介柑橘木虱的染色体水平组装、从头转录组及人工注释

Diaci v3.0: chromosome-level assembly, de novo transcriptome, and manual annotation of Diaphorina citri, insect vector of Huanglongbing.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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