Abstract
BackgroundThe clawed African frog Xenopus laevis has been one of the main vertebrate models for studies in developmental biology. However, for genetic studies, Xenopus tropicalis has been the experimental model of choice because it shorter life cycle and due to a more tractable genome that does not result from genome duplication as in the case of X. laevis. Today, although still organized in a large number of scaffolds, nearly 85 % of X. tropicalis and 89 % of X. laevis genomes have been sequenced. There is expectation for a comparative physical map that can be used as a Rosetta Stone between X. laevis genetic studies and X. tropicalis genomic research.ResultsIn this work, we have mapped using coarse-grained alignment the 18 chromosomes of X. laevis, release 9.1, on the 10 reference scaffolds representing the haploid genome of X. tropicalis, release 9.0. After validating the mapping with theoretical data, and estimating reference averages of genome sequence identity, 37 to 44 % between the two species, we have carried out a synteny analysis for 2,112 orthologous genes. We found that 99.6 % of genes are in the same organization.ConclusionsTaken together, our results make possible to establish the correspondence between 62 and 65.5 % of both genomes, percentage of identity, synteny and automatic annotation of transcripts of both species, providing a new and more comprehensive tool for comparative analysis of these two species, by allowing to bridge molecular genetics data among them.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-2440-9) contains supplementary material, which is available to authorized users.
Highlights
The clawed African frog Xenopus laevis has been one of the main vertebrate models for studies in developmental biology
In this work we have performed a comparative analysis between the two frog genomes after mapping by a coarsegrain alignment method the chromosome sequences of X. laevis on the chromosome sequences from X. tropicalis and semi automatic annotation of their transcripts (Fig. 1) to complement the map information
The analyses include a validation of the map, estimations of percentage of sequence identity, repetitions, inversions and synteny between the two genomes
Summary
The clawed African frog Xenopus laevis has been one of the main vertebrate models for studies in developmental biology. X. laevis has been considered one of the main animal models for developmental, cell, electrophysiology and biomedical studies [3,4,5]. This species presents a challenge for genomics analyses and genetics due to the allotetraploid nature of its genome and its long life cycle. Current assembly of the X. laevis genome consists in 402,501 scaffolds in the Xenbase release 9.1 (XLA9.1) [6] This release includes the identification of L (Long) and S (Short) chromosomes from the new nomenclature by Matsuda et al [7]
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