A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block

BACKGROUND: The complexity of the wheat genome has resulted from waves of retrotransposable element insertions. Gene deletions and disruptions generated by the fast replacement of repetitive elements in wheat have resulted in disruption of colinearity at a micro (sub-megabase) level among the cereal...

Descripción completa

Detalles Bibliográficos
Autores principales: Breen, James, Wicker, Thomas, Kong, Xiuying, Zhang, Juncheng, Ma, Wujun, Paux, Etienne, Feuillet, Catherine, Appels, Rudi, Bellgard, Matthew
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2010
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3017796/
https://www.ncbi.nlm.nih.gov/pubmed/20507561
http://dx.doi.org/10.1186/1471-2229-10-98
_version_ 1782195951959539712
author Breen, James
Wicker, Thomas
Kong, Xiuying
Zhang, Juncheng
Ma, Wujun
Paux, Etienne
Feuillet, Catherine
Appels, Rudi
Bellgard, Matthew
author_facet Breen, James
Wicker, Thomas
Kong, Xiuying
Zhang, Juncheng
Ma, Wujun
Paux, Etienne
Feuillet, Catherine
Appels, Rudi
Bellgard, Matthew
author_sort Breen, James
collection PubMed
description BACKGROUND: The complexity of the wheat genome has resulted from waves of retrotransposable element insertions. Gene deletions and disruptions generated by the fast replacement of repetitive elements in wheat have resulted in disruption of colinearity at a micro (sub-megabase) level among the cereals. In view of genomic changes that are possible within a given time span, conservation of genes between species tends to imply an important functional or regional constraint that does not permit a change in genomic structure. The ctg1034 contig completed in this paper was initially studied because it was assigned to the Sr2 resistance locus region, but detailed mapping studies subsequently assigned it to the long arm of 3B and revealed its unusual features. RESULTS: BAC shotgun sequencing of the hexaploid wheat (Triticum aestivum cv. Chinese Spring) genome has been used to assemble a group of 15 wheat BACs from the chromosome 3B physical map FPC contig ctg1034 into a 783,553 bp genomic sequence. This ctg1034 sequence was annotated for biological features such as genes and transposable elements. A three-gene island was identified among >80% repetitive DNA sequence. Using bioinformatics analysis there were no observable similarity in their gene functions. The ctg1034 gene island also displayed complete conservation of gene order and orientation with syntenic gene islands found in publicly available genome sequences of Brachypodium distachyon, Oryza sativa, Sorghum bicolor and Zea mays, even though the intergenic space and introns were divergent. CONCLUSION: We propose that ctg1034 is located within the heterochromatic C-band region of deletion bin 3BL7 based on the identification of heterochromatic tandem repeats and presence of significant matches to chromodomain-containing gypsy LTR retrotransposable elements. We also speculate that this location, among other highly repetitive sequences, may account for the relative stability in gene order and orientation within the gene island. Sequence data from this article have been deposited with the GenBank Data Libraries under accession no. GQ422824
format Text
id pubmed-3017796
institution National Center for Biotechnology Information
language English
publishDate 2010
publisher BioMed Central
record_format MEDLINE/PubMed
spelling pubmed-30177962011-01-10 A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block Breen, James Wicker, Thomas Kong, Xiuying Zhang, Juncheng Ma, Wujun Paux, Etienne Feuillet, Catherine Appels, Rudi Bellgard, Matthew BMC Plant Biol Research Article BACKGROUND: The complexity of the wheat genome has resulted from waves of retrotransposable element insertions. Gene deletions and disruptions generated by the fast replacement of repetitive elements in wheat have resulted in disruption of colinearity at a micro (sub-megabase) level among the cereals. In view of genomic changes that are possible within a given time span, conservation of genes between species tends to imply an important functional or regional constraint that does not permit a change in genomic structure. The ctg1034 contig completed in this paper was initially studied because it was assigned to the Sr2 resistance locus region, but detailed mapping studies subsequently assigned it to the long arm of 3B and revealed its unusual features. RESULTS: BAC shotgun sequencing of the hexaploid wheat (Triticum aestivum cv. Chinese Spring) genome has been used to assemble a group of 15 wheat BACs from the chromosome 3B physical map FPC contig ctg1034 into a 783,553 bp genomic sequence. This ctg1034 sequence was annotated for biological features such as genes and transposable elements. A three-gene island was identified among >80% repetitive DNA sequence. Using bioinformatics analysis there were no observable similarity in their gene functions. The ctg1034 gene island also displayed complete conservation of gene order and orientation with syntenic gene islands found in publicly available genome sequences of Brachypodium distachyon, Oryza sativa, Sorghum bicolor and Zea mays, even though the intergenic space and introns were divergent. CONCLUSION: We propose that ctg1034 is located within the heterochromatic C-band region of deletion bin 3BL7 based on the identification of heterochromatic tandem repeats and presence of significant matches to chromodomain-containing gypsy LTR retrotransposable elements. We also speculate that this location, among other highly repetitive sequences, may account for the relative stability in gene order and orientation within the gene island. Sequence data from this article have been deposited with the GenBank Data Libraries under accession no. GQ422824 BioMed Central 2010-05-27 /pmc/articles/PMC3017796/ /pubmed/20507561 http://dx.doi.org/10.1186/1471-2229-10-98 Text en Copyright ©2010 Breen et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Breen, James
Wicker, Thomas
Kong, Xiuying
Zhang, Juncheng
Ma, Wujun
Paux, Etienne
Feuillet, Catherine
Appels, Rudi
Bellgard, Matthew
A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title_full A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title_fullStr A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title_full_unstemmed A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title_short A highly conserved gene island of three genes on chromosome 3B of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
title_sort highly conserved gene island of three genes on chromosome 3b of hexaploid wheat: diverse gene function and genomic structure maintained in a tightly linked block
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3017796/
https://www.ncbi.nlm.nih.gov/pubmed/20507561
http://dx.doi.org/10.1186/1471-2229-10-98
work_keys_str_mv AT breenjames ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT wickerthomas ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT kongxiuying ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT zhangjuncheng ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT mawujun ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT pauxetienne ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT feuilletcatherine ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT appelsrudi ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT bellgardmatthew ahighlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT breenjames highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT wickerthomas highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT kongxiuying highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT zhangjuncheng highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT mawujun highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT pauxetienne highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT feuilletcatherine highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT appelsrudi highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock
AT bellgardmatthew highlyconservedgeneislandofthreegenesonchromosome3bofhexaploidwheatdiversegenefunctionandgenomicstructuremaintainedinatightlylinkedblock

Ejemplares similares