Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans

Abstract Background Understanding the evolution and development of morphological traits of the last common bilaterian ancestor is a major goal of the evo-devo discipline. The reconstruction of this “urbilaterian” is mainly based on comparative studies of common molecular patterning mechanisms in rec...

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Main Authors: Sandra Treffkorn, Laura Kahnke, Lars Hering, Georg Mayer
Format: Article
Language:English
Published: BMC 2018-07-01
Series:EvoDevo
Subjects:
Online Access:http://link.springer.com/article/10.1186/s13227-018-0105-2
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spelling doaj-0c6b5ac6d73747bf8e1e92a85f155a362020-11-24T21:28:26ZengBMCEvoDevo2041-91392018-07-019113210.1186/s13227-018-0105-2Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoansSandra Treffkorn0Laura Kahnke1Lars Hering2Georg Mayer3Department of Zoology, Institute of Biology, University of KasselDepartment of Zoology, Institute of Biology, University of KasselDepartment of Zoology, Institute of Biology, University of KasselDepartment of Zoology, Institute of Biology, University of KasselAbstract Background Understanding the evolution and development of morphological traits of the last common bilaterian ancestor is a major goal of the evo-devo discipline. The reconstruction of this “urbilaterian” is mainly based on comparative studies of common molecular patterning mechanisms in recent model organisms. The NK homeobox genes are key players in many of these molecular pathways, including processes regulating mesoderm, heart and neural development. Shared features seen in the expression patterns of NK genes have been used to determine the ancestral bilaterian characters. However, the commonly used model organisms provide only a limited view on the evolution of these molecular pathways. To further investigate the ancestral roles of NK cluster genes, we analyzed their expression patterns in the onychophoran Euperipatoides rowelli. Results We identified nine transcripts of NK cluster genes in E. rowelli, including single copies of NK1, NK3, NK4, NK5, Msx, Lbx and Tlx, and two copies of NK6. All of these genes except for NK6.1 and NK6.2 are expressed in different mesodermal organs and tissues in embryos of E. rowelli, including the anlagen of somatic musculature and the heart. Furthermore, we found distinct expression patterns of NK3, NK5, NK6, Lbx and Msx in the developing nervous system. The same holds true for the NKL gene NK2.2, which does not belong to the NK cluster but is a related gene playing a role in neural patterning. Surprisingly, NK1, Msx and Lbx are additionally expressed in a segment polarity-like pattern early in development—a feature that has been otherwise reported only from annelids. Conclusion Our results indicate that the NK cluster genes were involved in mesoderm and neural development in the last common ancestor of bilaterians or at least nephrozoans (i.e., bilaterians to the exclusion of xenacoelomorphs). By comparing our data from an onychophoran to those from other bilaterians, we critically review the hypothesis of a complex “urbilaterian” with a segmented body, a pulsatile organ or heart, and a condensed mediolaterally patterned nerve cord.http://link.springer.com/article/10.1186/s13227-018-0105-2Homeobox genesNK genesNK-linked genesGene expressionVelvet wormsOnychophora
collection DOAJ
language English
format Article
sources DOAJ
author Sandra Treffkorn
Laura Kahnke
Lars Hering
Georg Mayer
spellingShingle Sandra Treffkorn
Laura Kahnke
Lars Hering
Georg Mayer
Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
EvoDevo
Homeobox genes
NK genes
NK-linked genes
Gene expression
Velvet worms
Onychophora
author_facet Sandra Treffkorn
Laura Kahnke
Lars Hering
Georg Mayer
author_sort Sandra Treffkorn
title Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
title_short Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
title_full Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
title_fullStr Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
title_full_unstemmed Expression of NK cluster genes in the onychophoran Euperipatoides rowelli: implications for the evolution of NK family genes in nephrozoans
title_sort expression of nk cluster genes in the onychophoran euperipatoides rowelli: implications for the evolution of nk family genes in nephrozoans
publisher BMC
series EvoDevo
issn 2041-9139
publishDate 2018-07-01
description Abstract Background Understanding the evolution and development of morphological traits of the last common bilaterian ancestor is a major goal of the evo-devo discipline. The reconstruction of this “urbilaterian” is mainly based on comparative studies of common molecular patterning mechanisms in recent model organisms. The NK homeobox genes are key players in many of these molecular pathways, including processes regulating mesoderm, heart and neural development. Shared features seen in the expression patterns of NK genes have been used to determine the ancestral bilaterian characters. However, the commonly used model organisms provide only a limited view on the evolution of these molecular pathways. To further investigate the ancestral roles of NK cluster genes, we analyzed their expression patterns in the onychophoran Euperipatoides rowelli. Results We identified nine transcripts of NK cluster genes in E. rowelli, including single copies of NK1, NK3, NK4, NK5, Msx, Lbx and Tlx, and two copies of NK6. All of these genes except for NK6.1 and NK6.2 are expressed in different mesodermal organs and tissues in embryos of E. rowelli, including the anlagen of somatic musculature and the heart. Furthermore, we found distinct expression patterns of NK3, NK5, NK6, Lbx and Msx in the developing nervous system. The same holds true for the NKL gene NK2.2, which does not belong to the NK cluster but is a related gene playing a role in neural patterning. Surprisingly, NK1, Msx and Lbx are additionally expressed in a segment polarity-like pattern early in development—a feature that has been otherwise reported only from annelids. Conclusion Our results indicate that the NK cluster genes were involved in mesoderm and neural development in the last common ancestor of bilaterians or at least nephrozoans (i.e., bilaterians to the exclusion of xenacoelomorphs). By comparing our data from an onychophoran to those from other bilaterians, we critically review the hypothesis of a complex “urbilaterian” with a segmented body, a pulsatile organ or heart, and a condensed mediolaterally patterned nerve cord.
topic Homeobox genes
NK genes
NK-linked genes
Gene expression
Velvet worms
Onychophora
url http://link.springer.com/article/10.1186/s13227-018-0105-2
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AT larshering expressionofnkclustergenesintheonychophoraneuperipatoidesrowelliimplicationsfortheevolutionofnkfamilygenesinnephrozoans
AT georgmayer expressionofnkclustergenesintheonychophoraneuperipatoidesrowelliimplicationsfortheevolutionofnkfamilygenesinnephrozoans
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