Nicholas Costa Barroso Lima, Luiz Gonzaga Paula de Almeida, Afonso Celso Dias Bainy, Alexandra Lehmkuhl Gerber, Ana Paula de Campos Guimarães, Antonio Mateo Solé-Cava, Claudio Manoel Rodrigues de Melo, Cristiano Lazoski, Flávia Lucena Zacchi, Frederico Henning, Leticia Maria Monteiro Soares, Rafaela Guilherme Soares, Ana Tereza Ribeiro Vasconcelos
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Their draft genomes will play an important role in the application of genomic methods such as RNAseq, population-based genomic scans aiming at addressing expression responses to pollution stress, adaptation to salinity and temperature variation, and will also permit investigating the genetic bases and enable marker-assisted selection of economically important traits like shell and mantle coloration and resistance to temperature and disease.</p><p><strong>Data description: </strong>The draft assembly size of Crassostrea gasar is 506 Mbp, and of Crassostrea rhizophorae is 584 Mbp with scaffolds N50 of 11,3 Mbp and 4,9 Mbp, respectively. The general masked bases by RepeatMasker in both genomes were highly similar using different datasets. The masked bases varied from 9.41% in C. gasar to 10.05% in C. rhizophorae and 42.85% in C. gasar to 44.44% in C. rhizophorae using Dfam and RepeatModeler datasets, respectively. 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引用次数: 0
摘要
目标:所研究的两个牡蛎物种对人工捕捞(Crassostrea rhizophorae)和水产养殖(Crassostrea gasar)具有相当重要的经济意义。它们的基因组草案将在基因组学方法(如 RNAseq)的应用中发挥重要作用,以群体为基础的基因组扫描旨在解决对污染压力的表达反应、对盐度和温度变化的适应性,还将允许研究遗传基础,并实现标记辅助选择具有重要经济价值的性状,如外壳和甲壳的颜色以及对温度和疾病的抵抗力:Crassostrea gasar和Crassostrea rhizophorae的组装草案大小分别为506 Mbp和584 Mbp,支架N50分别为11.3 Mbp和4.9 Mbp。使用不同的数据集,RepeatMasker 在两个基因组中屏蔽的碱基非常相似。使用 Dfam 和 RepeatModeler 数据集,掩蔽碱基分别从 C. gasar 的 9.41% 到 C. rhizophorae 的 10.05% 和 C. gasar 的 42.85% 到 C. rhizophorae 的 44.44% 不等。使用 eggNog 进行功能注释后,根瘤藻类中注释了 34,693 个蛋白质,而 C. gasar 中则注释了 26,328 个蛋白质。BUSCO 分析表明,与软体动物同源基因数据集(mollusca_odb10)相比,几乎 99% 的基因(5,295 个)是完整的。
The draft genomes of Crassostrea gasar and Crassostrea rhizophorae: key resources for leveraging oyster cultivation in the Southwest Atlantic.
Objectives: The two oyster species studied hold considerable economic importance for artisanal harvest (Crassostrea rhizophorae) and aquaculture (Crassostrea gasar). Their draft genomes will play an important role in the application of genomic methods such as RNAseq, population-based genomic scans aiming at addressing expression responses to pollution stress, adaptation to salinity and temperature variation, and will also permit investigating the genetic bases and enable marker-assisted selection of economically important traits like shell and mantle coloration and resistance to temperature and disease.
Data description: The draft assembly size of Crassostrea gasar is 506 Mbp, and of Crassostrea rhizophorae is 584 Mbp with scaffolds N50 of 11,3 Mbp and 4,9 Mbp, respectively. The general masked bases by RepeatMasker in both genomes were highly similar using different datasets. The masked bases varied from 9.41% in C. gasar to 10.05% in C. rhizophorae and 42.85% in C. gasar to 44.44% in C. rhizophorae using Dfam and RepeatModeler datasets, respectively. Functional annotation with eggNog resulted in 34,693 annotated proteins in C. rhizophorae and 26,328 in C. gasar. BUSCO analysis shows that almost 99% of genes (5,295) are complete in relation to the mollusk orthologous genes dataset (mollusca_odb10).
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