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A Collinearity-Incorporating Homology Inference Strategy for Connecting Emerging Assemblies in the Triticeae Tribe as a Pilot Practice in the Plant Pangenomic Era

Plant genome sequencing has dramatically increased, and some species even have multiple high-quality reference versions. Demands for clade-specific homology inference and analysis have increased in the pangenomic era. Here we present a novel method, GeneTribe (https://chenym1.github.io/genetribe/),...

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Published in:	Molecular plant 2020-12, Vol.13 (12), p.1694-1708
Main Authors:	Chen, Yongming, Song, Wanjun, Xie, Xiaoming, Wang, Zihao, Guan, Panfeng, Peng, Huiru, Jiao, Yuannian, Ni, Zhongfu, Sun, Qixin, Guo, Weilong
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Language:	English
Subjects:	collinearity homology inference pangenome polyploid Triticeae tribe
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creator	Chen, Yongming Song, Wanjun Xie, Xiaoming Wang, Zihao Guan, Panfeng Peng, Huiru Jiao, Yuannian Ni, Zhongfu Sun, Qixin Guo, Weilong
description	Plant genome sequencing has dramatically increased, and some species even have multiple high-quality reference versions. Demands for clade-specific homology inference and analysis have increased in the pangenomic era. Here we present a novel method, GeneTribe (https://chenym1.github.io/genetribe/), for homology inference among genetically similar genomes that incorporates gene collinearity and shows better performance than traditional sequence-similarity-based methods in terms of accuracy and scalability. The Triticeae tribe is a typical allopolyploid-rich clade with complex species relationships that includes many important crops, such as wheat, barley, and rye. We built Triticeae-GeneTribe (http://wheat.cau.edu.cn/TGT/), a homology database, by integrating 12 Triticeae genomes and 3 outgroup model genomes and implemented versatile analysis and visualization functions. With macrocollinearity analysis, we were able to construct a refined model illustrating the structural rearrangements of the 4A-5A-7B chromosomes in wheat as two major translocation events. With collinearity analysis at both the macro- and microscale, we illustrated the complex evolutionary history of homologs of the wheat vernalization gene Vrn2, which evolved as a combined result of genome translocation, duplication, and polyploidization and gene loss events. Our work provides a useful practice for connecting emerging genome assemblies, with awareness of the extensive polyploidy in plants, and will help researchers efficiently exploit genome sequence resources. This work reports the development of a novel method incorporating collinearity for homology inference among genetically similar genomes, with improved performance and scalability. A comprehensive homology database is built for the tribe Triticeae. With macro- and microcollinearity analysis, the authors proposed a refined model of the chromosome 4A-5A-7B translocations and illustrated the complex evolutionary history of the TaVrn2 homologs.
doi_str_mv	10.1016/j.molp.2020.09.019
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With collinearity analysis at both the macro- and microscale, we illustrated the complex evolutionary history of homologs of the wheat vernalization gene Vrn2, which evolved as a combined result of genome translocation, duplication, and polyploidization and gene loss events. Our work provides a useful practice for connecting emerging genome assemblies, with awareness of the extensive polyploidy in plants, and will help researchers efficiently exploit genome sequence resources. This work reports the development of a novel method incorporating collinearity for homology inference among genetically similar genomes, with improved performance and scalability. A comprehensive homology database is built for the tribe Triticeae. 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subjects	collinearity homology inference pangenome polyploid Triticeae tribe
title	A Collinearity-Incorporating Homology Inference Strategy for Connecting Emerging Assemblies in the Triticeae Tribe as a Pilot Practice in the Plant Pangenomic Era
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