Evolution of coding and non-coding genes in HOX clusters of a marsupial

Evolution of coding and non-coding genes in HOX clusters of a marsupial

<p>Abstract</p> <p>Background</p> <p>The HOX gene clusters are thought to be highly conserved amongst mammals and other vertebrates, but the long non-coding RNAs have only been studied in detail in human and mouse. The sequencing of the kangaroo genome provides an oppor...

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Main Authors: Yu Hongshi, Lindsay James, Feng Zhi-Ping, Frankenberg Stephen, Hu Yanqiu, Carone Dawn, Shaw Geoff, Pask Andrew J, O’Neill Rachel, Papenfuss Anthony T, Renfree Marilyn B
Format: Article
Language:English
Published: BMC 2012-06-01
Series:BMC Genomics
Subjects:
Marsupial
<it>HOX</it> cluster
MicroRNAs
Long non-coding RNAs
Online Access:http://www.biomedcentral.com/1471-2164/13/251
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spelling doaj-a791fd19f96b4369a8bdcf1f56d1235d2020-11-25T00:29:09ZengBMCBMC Genomics1471-21642012-06-0113125110.1186/1471-2164-13-251Evolution of coding and non-coding genes in HOX clusters of a marsupialYu HongshiLindsay JamesFeng Zhi-PingFrankenberg StephenHu YanqiuCarone DawnShaw GeoffPask Andrew JO’Neill RachelPapenfuss Anthony TRenfree Marilyn B<p>Abstract</p> <p>Background</p> <p>The HOX gene clusters are thought to be highly conserved amongst mammals and other vertebrates, but the long non-coding RNAs have only been studied in detail in human and mouse. The sequencing of the kangaroo genome provides an opportunity to use comparative analyses to compare the HOX clusters of a mammal with a distinct body plan to those of other mammals.</p> <p>Results</p> <p>Here we report a comparative analysis of <it>HOX</it> gene clusters between an Australian marsupial of the kangaroo family and the eutherians. There was a strikingly high level of conservation of <it>HOX</it> gene sequence and structure and non-protein coding genes including the microRNAs <it>miR-196a</it>, <it>miR-196b</it>, <it>miR-10a</it> and <it>miR-10b</it> and the long non-coding RNAs <it>HOTAIR</it>, <it>HOTAIRM1</it> and <it>HOX</it>A11AS that play critical roles in regulating gene expression and controlling development. By microRNA deep sequencing and comparative genomic analyses, two conserved microRNAs (<it>miR-10a</it> and <it>miR-10b</it>) were identified and one new candidate microRNA with typical hairpin precursor structure that is expressed in both fibroblasts and testes was found. The prediction of microRNA target analysis showed that several known microRNA targets, such as <it>miR-10</it>, <it>miR-414</it> and <it>miR-464</it>, were found in the tammar <it>HOX</it> clusters. In addition, several novel and putative miRNAs were identified that originated from elsewhere in the tammar genome and that target the tammar <it>HOXB</it> and <it>HOXD</it> clusters.</p> <p>Conclusions</p> <p>This study confirms that the emergence of known long non-coding RNAs in the HOX clusters clearly predate the marsupial-eutherian divergence 160 Ma ago. It also identified a new potentially functional microRNA as well as conserved miRNAs. These non-coding RNAs may participate in the regulation of <it>HOX</it> genes to influence the body plan of this marsupial.</p> http://www.biomedcentral.com/1471-2164/13/251Marsupial<it>HOX</it> clusterMicroRNAsLong non-coding RNAs
collection DOAJ
language English
format Article
sources DOAJ
author Yu Hongshi
Lindsay James
Feng Zhi-Ping
Frankenberg Stephen
Hu Yanqiu
Carone Dawn
Shaw Geoff
Pask Andrew J
O’Neill Rachel
Papenfuss Anthony T
Renfree Marilyn B
spellingShingle Yu Hongshi
Lindsay James
Feng Zhi-Ping
Frankenberg Stephen
Hu Yanqiu
Carone Dawn
Shaw Geoff
Pask Andrew J
O’Neill Rachel
Papenfuss Anthony T
Renfree Marilyn B
Evolution of coding and non-coding genes in HOX clusters of a marsupial
BMC Genomics
Marsupial
<it>HOX</it> cluster
MicroRNAs
Long non-coding RNAs
author_facet Yu Hongshi
Lindsay James
Feng Zhi-Ping
Frankenberg Stephen
Hu Yanqiu
Carone Dawn
Shaw Geoff
Pask Andrew J
O’Neill Rachel
Papenfuss Anthony T
Renfree Marilyn B
author_sort Yu Hongshi
title Evolution of coding and non-coding genes in HOX clusters of a marsupial
title_short Evolution of coding and non-coding genes in HOX clusters of a marsupial
title_full Evolution of coding and non-coding genes in HOX clusters of a marsupial
title_fullStr Evolution of coding and non-coding genes in HOX clusters of a marsupial
title_full_unstemmed Evolution of coding and non-coding genes in HOX clusters of a marsupial
title_sort evolution of coding and non-coding genes in hox clusters of a marsupial
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2012-06-01
description <p>Abstract</p> <p>Background</p> <p>The HOX gene clusters are thought to be highly conserved amongst mammals and other vertebrates, but the long non-coding RNAs have only been studied in detail in human and mouse. The sequencing of the kangaroo genome provides an opportunity to use comparative analyses to compare the HOX clusters of a mammal with a distinct body plan to those of other mammals.</p> <p>Results</p> <p>Here we report a comparative analysis of <it>HOX</it> gene clusters between an Australian marsupial of the kangaroo family and the eutherians. There was a strikingly high level of conservation of <it>HOX</it> gene sequence and structure and non-protein coding genes including the microRNAs <it>miR-196a</it>, <it>miR-196b</it>, <it>miR-10a</it> and <it>miR-10b</it> and the long non-coding RNAs <it>HOTAIR</it>, <it>HOTAIRM1</it> and <it>HOX</it>A11AS that play critical roles in regulating gene expression and controlling development. By microRNA deep sequencing and comparative genomic analyses, two conserved microRNAs (<it>miR-10a</it> and <it>miR-10b</it>) were identified and one new candidate microRNA with typical hairpin precursor structure that is expressed in both fibroblasts and testes was found. The prediction of microRNA target analysis showed that several known microRNA targets, such as <it>miR-10</it>, <it>miR-414</it> and <it>miR-464</it>, were found in the tammar <it>HOX</it> clusters. In addition, several novel and putative miRNAs were identified that originated from elsewhere in the tammar genome and that target the tammar <it>HOXB</it> and <it>HOXD</it> clusters.</p> <p>Conclusions</p> <p>This study confirms that the emergence of known long non-coding RNAs in the HOX clusters clearly predate the marsupial-eutherian divergence 160 Ma ago. It also identified a new potentially functional microRNA as well as conserved miRNAs. These non-coding RNAs may participate in the regulation of <it>HOX</it> genes to influence the body plan of this marsupial.</p>
topic Marsupial
<it>HOX</it> cluster
MicroRNAs
Long non-coding RNAs
url http://www.biomedcentral.com/1471-2164/13/251
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