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Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis
The intracellular protozoan parasite Babesia gibsoni infects canine erythrocytes and causes babesiosis. The hazards to animal health have increased due to the rise of B. gibsoni infections and medication resistance. However, the lack of high-quality full-genome sequencing sets has expanded the obsta...
Autores principales: | , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
American Society for Microbiology
2023
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10434002/ https://www.ncbi.nlm.nih.gov/pubmed/37432130 http://dx.doi.org/10.1128/spectrum.00721-23 |
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author | Liu, Qin Guan, Xing-Ai Li, Dong-Fang Zheng, Ya-Xin Wang, Sen Xuan, Xue-Nan Zhao, Jun-Long He, Lan |
author_facet | Liu, Qin Guan, Xing-Ai Li, Dong-Fang Zheng, Ya-Xin Wang, Sen Xuan, Xue-Nan Zhao, Jun-Long He, Lan |
author_sort | Liu, Qin |
collection | PubMed |
description | The intracellular protozoan parasite Babesia gibsoni infects canine erythrocytes and causes babesiosis. The hazards to animal health have increased due to the rise of B. gibsoni infections and medication resistance. However, the lack of high-quality full-genome sequencing sets has expanded the obstacles to the development of pathogeneses, drugs, and vaccines. In this study, the whole genome of B. gibsoni was sequenced, assembled, and annotated. The genomic size of B. gibsoni was 7.94 Mbp in total. Four chromosomes with the size of 0.69 Mb, 2.10 Mb, 2.77 Mb, and 2.38 Mb, respectively, 1 apicoplast (28.4 Kb), and 1 mitochondrion (5.9 Kb) were confirmed. KEGG analysis revealed 2,641 putative proteins enriched on 316 pathways, and GO analysis showed 7,571 annotations of the nuclear genome in total. Synteny analysis showed a high correlation between B. gibsoni and B. bovis. A new divergent point of B. gibsoni occurred around 297.7 million years ago, which was earlier than that of B. bovis, B. ovata, and B. bigemina. Orthology analysis revealed 22 and 32 unique genes compared to several Babesia spp. and apicomplexan species. The metabolic pathways of B.gibsoni were characterized, pointing to a minimal size of the genome. A species-specific secretory protein SA1 and 19 homologous genes were identified. Selected specific proteins, including apetala 2 (AP2) factor, invasion-related proteins BgAMA-1 and BgRON2, and rhoptry function proteins BgWH_04g00700 were predicted, visualized, and modeled. Overall, whole-genome sequencing provided molecular-level support for the diagnosis, prevention, clinical treatment, and further research of B. gibsoni. IMPORTANCE The whole genome of B. gibsoni was first sequenced, annotated, and disclosed. The key part of genome composition, four chromosomes, was comparatively analyzed for the first time. A full-scale phylogeny evolution analysis based on the whole-genome-wide data of B. gibsoni was performed, and a new divergent point on the evolutionary path was revealed. In previous reports, molecular studies were often limited by incomplete genomic data, especially in key areas like life cycle regulation, metabolism, and host-pathogen interaction. With the whole-genome sequencing of B. gibsoni, we provide useful genetic data to encourage the exploration of new terrain and make it feasible to resolve the theoretical and practical problems of babesiosis. |
format | Online Article Text |
id | pubmed-10434002 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2023 |
publisher | American Society for Microbiology |
record_format | MEDLINE/PubMed |
spelling | pubmed-104340022023-08-18 Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis Liu, Qin Guan, Xing-Ai Li, Dong-Fang Zheng, Ya-Xin Wang, Sen Xuan, Xue-Nan Zhao, Jun-Long He, Lan Microbiol Spectr Research Article The intracellular protozoan parasite Babesia gibsoni infects canine erythrocytes and causes babesiosis. The hazards to animal health have increased due to the rise of B. gibsoni infections and medication resistance. However, the lack of high-quality full-genome sequencing sets has expanded the obstacles to the development of pathogeneses, drugs, and vaccines. In this study, the whole genome of B. gibsoni was sequenced, assembled, and annotated. The genomic size of B. gibsoni was 7.94 Mbp in total. Four chromosomes with the size of 0.69 Mb, 2.10 Mb, 2.77 Mb, and 2.38 Mb, respectively, 1 apicoplast (28.4 Kb), and 1 mitochondrion (5.9 Kb) were confirmed. KEGG analysis revealed 2,641 putative proteins enriched on 316 pathways, and GO analysis showed 7,571 annotations of the nuclear genome in total. Synteny analysis showed a high correlation between B. gibsoni and B. bovis. A new divergent point of B. gibsoni occurred around 297.7 million years ago, which was earlier than that of B. bovis, B. ovata, and B. bigemina. Orthology analysis revealed 22 and 32 unique genes compared to several Babesia spp. and apicomplexan species. The metabolic pathways of B.gibsoni were characterized, pointing to a minimal size of the genome. A species-specific secretory protein SA1 and 19 homologous genes were identified. Selected specific proteins, including apetala 2 (AP2) factor, invasion-related proteins BgAMA-1 and BgRON2, and rhoptry function proteins BgWH_04g00700 were predicted, visualized, and modeled. Overall, whole-genome sequencing provided molecular-level support for the diagnosis, prevention, clinical treatment, and further research of B. gibsoni. IMPORTANCE The whole genome of B. gibsoni was first sequenced, annotated, and disclosed. The key part of genome composition, four chromosomes, was comparatively analyzed for the first time. A full-scale phylogeny evolution analysis based on the whole-genome-wide data of B. gibsoni was performed, and a new divergent point on the evolutionary path was revealed. In previous reports, molecular studies were often limited by incomplete genomic data, especially in key areas like life cycle regulation, metabolism, and host-pathogen interaction. With the whole-genome sequencing of B. gibsoni, we provide useful genetic data to encourage the exploration of new terrain and make it feasible to resolve the theoretical and practical problems of babesiosis. American Society for Microbiology 2023-07-11 /pmc/articles/PMC10434002/ /pubmed/37432130 http://dx.doi.org/10.1128/spectrum.00721-23 Text en Copyright © 2023 Liu et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) . |
spellingShingle | Research Article Liu, Qin Guan, Xing-Ai Li, Dong-Fang Zheng, Ya-Xin Wang, Sen Xuan, Xue-Nan Zhao, Jun-Long He, Lan Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title | Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title_full | Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title_fullStr | Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title_full_unstemmed | Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title_short | Babesia gibsoni Whole-Genome Sequencing, Assembling, Annotation, and Comparative Analysis |
title_sort | babesia gibsoni whole-genome sequencing, assembling, annotation, and comparative analysis |
topic | Research Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10434002/ https://www.ncbi.nlm.nih.gov/pubmed/37432130 http://dx.doi.org/10.1128/spectrum.00721-23 |
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