真正的两全其美：融合谱系特异性和通用探针试剂盒，以最大限度地进行系统发育基因组推断。

Truly the best of both worlds: Merging lineage-specific and universal probe kits to maximize phylogenomic inference.

作者信息

Fonseca Luiz Henrique M, Asselman Pieter, Goodrich Katherine R, Nge Francis J, Soulé Vincent, Mercier Kathryn, Couvreur Thomas L P, Chatrou Lars W

机构信息

Systematic and Evolutionary Botany Laboratory, Department of Biology Ghent University Ghent Belgium.

Department of Biology Widener University Chester Pennsylvania USA.

出版信息

Appl Plant Sci. 2024 Sep 25;12(6):e11615. doi: 10.1002/aps3.11615. eCollection 2024 Nov-Dec.

DOI:10.1002/aps3.11615

PMID:39628541

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11610415/

Abstract

PREMISE

Hybridization capture kits are now commonly used for reduced representation approaches in genomic sequencing, with both universal and clade-specific kits available. Here, we present a probe kit targeting 799 low-copy genes for the plant family Annonaceae.

METHODS

This new version of the kit combines the original 469 genes from the previous Annonaceae kit with 334 genes from the universal Angiosperms353 kit. We also compare the results obtained using the original Angiosperms353 kit with our custom approach using a subset of specimens. Parsimony-informative sites and the results of maximum likelihood phylogenetic inference were assessed for combined matrices using the genera and .

RESULTS

The Annonaceae799 genes derived from the Angiosperms353 kit have extremely high recovery rates. Off-target reads were also detected. When evaluating size, the proportion of on- and off-target regions, and the number of parsimony-informative sites, the genes incorporated from the Angiosperms353 panel generally outperformed the genes from the original Annonaceae probe kit.

DISCUSSION

We demonstrated that the new sequences from the Angiosperms353 probe set are variable and relevant for future studies on species-level phylogenomics and within-species studies in the Annonaceae. The integration of kits also establishes a connection between projects and makes new genes available for phylogenetic and population studies.

摘要

前提

杂交捕获试剂盒目前常用于基因组测序中代表性降低的方法，有通用试剂盒和特定分支试剂盒可供选择。在此，我们展示了一种针对番荔枝科799个低拷贝基因的探针试剂盒。

方法

该试剂盒的新版本将先前番荔枝科试剂盒中的469个原始基因与通用被子植物353试剂盒中的334个基因相结合。我们还使用一部分标本，将使用原始被子植物353试剂盒获得的结果与我们的定制方法获得的结果进行比较。使用属和对组合矩阵评估简约信息位点和最大似然系统发育推断的结果。

结果

源自被子植物353试剂盒的番荔枝科799个基因具有极高的回收率。还检测到了脱靶读数。在评估大小、靶上和靶外区域的比例以及简约信息位点的数量时，从被子植物353面板中纳入的基因通常优于原始番荔枝科探针试剂盒中的基因。

讨论

我们证明，被子植物353探针集的新序列具有变异性，对番荔枝科未来的物种水平系统发育基因组学研究和种内研究具有相关性。试剂盒的整合还在项目之间建立了联系，并为系统发育和群体研究提供了新的基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/99c6/11610415/d1740d9d951d/APS3-12-e11615-g004.jpg

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真正的两全其美：融合谱系特异性和通用探针试剂盒，以最大限度地进行系统发育基因组推断。

Truly the best of both worlds: Merging lineage-specific and universal probe kits to maximize phylogenomic inference.

作者信息

机构信息

出版信息

PREMISE

METHODS

RESULTS

DISCUSSION

前提

方法

结果

讨论

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