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Extreme genome scrambling in marine planktonic Oikopleura dioica cryptic species

Genome structural variations within species are rare. How selective constraints preserve gene order and chromosome structure is a central question in evolutionary biology that remains unsolved. Our sequencing of several genomes of the appendicularian tunicate around the globe reveals extreme genome...

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Published in:	Genome research 2024-04, Vol.34 (3), p.426
Main Authors:	Plessy, Charles, Mansfield, Michael J, Bliznina, Aleksandra, Masunaga, Aki, West, Charlotte, Tan, Yongkai, Liu, Andrew W, Grašič, Jan, Del Río Pisula, María Sara, Sánchez-Serna, Gaspar, Fabrega-Torrus, Marc, Ferrández-Roldán, Alfonso, Roncalli, Vittoria, Navratilova, Pavla, Thompson, Eric M, Onuma, Takeshi, Nishida, Hiroki, Cañestro, Cristian, Luscombe, Nicholas M
Format:	Article
Language:	English
Subjects:	Animals Chromosome rearrangements Conservation Developmental biology Evolution, Molecular Female Gene order Genome Genomes Male Morphology Oikopleura dioica Phylogeny Rare species Synteny Urochordata - classification Urochordata - genetics
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creator	Plessy, Charles Mansfield, Michael J Bliznina, Aleksandra Masunaga, Aki West, Charlotte Tan, Yongkai Liu, Andrew W Grašič, Jan Del Río Pisula, María Sara Sánchez-Serna, Gaspar Fabrega-Torrus, Marc Ferrández-Roldán, Alfonso Roncalli, Vittoria Navratilova, Pavla Thompson, Eric M Onuma, Takeshi Nishida, Hiroki Cañestro, Cristian Luscombe, Nicholas M
description	Genome structural variations within species are rare. How selective constraints preserve gene order and chromosome structure is a central question in evolutionary biology that remains unsolved. Our sequencing of several genomes of the appendicularian tunicate around the globe reveals extreme genome scrambling caused by thousands of chromosomal rearrangements, although showing no obvious morphological differences between these animals. The breakpoint accumulation rate is an order of magnitude higher than in ascidian tunicates, nematodes, or mammals. Chromosome arms and sex-specific regions appear to be the primary unit of macrosynteny conservation. At the microsyntenic level, scrambling did not preserve operon structures, suggesting an absence of selective pressure to maintain them. The uncoupling of the genome scrambling with morphological conservation in suggests the presence of previously unnoticed cryptic species and provides a new biological system that challenges our previous vision of speciation in which similar animals always share similar genome structures.
doi_str_mv	10.1101/gr.278295.123
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How selective constraints preserve gene order and chromosome structure is a central question in evolutionary biology that remains unsolved. Our sequencing of several genomes of the appendicularian tunicate around the globe reveals extreme genome scrambling caused by thousands of chromosomal rearrangements, although showing no obvious morphological differences between these animals. The breakpoint accumulation rate is an order of magnitude higher than in ascidian tunicates, nematodes, or mammals. Chromosome arms and sex-specific regions appear to be the primary unit of macrosynteny conservation. At the microsyntenic level, scrambling did not preserve operon structures, suggesting an absence of selective pressure to maintain them. 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subjects	Animals Chromosome rearrangements Conservation Developmental biology Evolution, Molecular Female Gene order Genome Genomes Male Morphology Oikopleura dioica Phylogeny Rare species Synteny Urochordata - classification Urochordata - genetics
title	Extreme genome scrambling in marine planktonic Oikopleura dioica cryptic species
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