The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)

The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)

<p>Abstract</p> <p>Background</p> <p>The Protein Disulfide Isomerase (PDI) gene family encodes several PDI and PDI-like proteins containing thioredoxin domains and controlling diversified metabolic functions, including disulfide bond formation and isomerisation during p...

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Main Authors: Porceddu Enrico, Tanzarella Oronzo A, Dhanapal Arun P, Paolacci Anna R, d'Aloisio Elisa, Ciaffi Mario
Format: Article
Language:English
Published: BMC 2010-06-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/10/101
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spelling doaj-d8ef65c8c0884ea09fbc7429a89363f62020-11-25T00:23:56ZengBMCBMC Plant Biology1471-22292010-06-0110110110.1186/1471-2229-10-101The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)Porceddu EnricoTanzarella Oronzo ADhanapal Arun PPaolacci Anna Rd'Aloisio ElisaCiaffi Mario<p>Abstract</p> <p>Background</p> <p>The Protein Disulfide Isomerase (PDI) gene family encodes several PDI and PDI-like proteins containing thioredoxin domains and controlling diversified metabolic functions, including disulfide bond formation and isomerisation during protein folding. Genomic, cDNA and promoter sequences of the three homoeologous wheat genes encoding the "typical" PDI had been cloned and characterized in a previous work. The purpose of present research was the cloning and characterization of the complete set of genes encoding PDI and PDI like proteins in bread wheat (<it>Triticum aestivum </it>cv Chinese Spring) and the comparison of their sequence, structure and expression with homologous genes from other plant species.</p> <p>Results</p> <p>Eight new non-homoeologous wheat genes were cloned and characterized. The nine PDI and PDI-like sequences of wheat were located in chromosome regions syntenic to those in rice and assigned to eight plant phylogenetic groups. The nine wheat genes differed in their sequences, genomic organization as well as in the domain composition and architecture of their deduced proteins; conversely each of them showed high structural conservation with genes from other plant species in the same phylogenetic group. The extensive quantitative RT-PCR analysis of the nine genes in a set of 23 wheat samples, including tissues and developmental stages, showed their constitutive, even though highly variable expression.</p> <p>Conclusions</p> <p>The nine wheat genes showed high diversity, while the members of each phylogenetic group were highly conserved even between taxonomically distant plant species like the moss <it>Physcomitrella patens</it>. Although constitutively expressed the nine wheat genes were characterized by different expression profiles reflecting their different genomic organization, protein domain architecture and probably promoter sequences; the high conservation among species indicated the ancient origin and diversification of the still evolving gene family. The comprehensive structural and expression characterization of the complete set of <it>PDI </it>and <it>PDI</it>-like wheat genes represents a basis for the functional characterization of this gene family in the hexaploid context of bread wheat.</p> http://www.biomedcentral.com/1471-2229/10/101
collection DOAJ
language English
format Article
sources DOAJ
author Porceddu Enrico
Tanzarella Oronzo A
Dhanapal Arun P
Paolacci Anna R
d'Aloisio Elisa
Ciaffi Mario
spellingShingle Porceddu Enrico
Tanzarella Oronzo A
Dhanapal Arun P
Paolacci Anna R
d'Aloisio Elisa
Ciaffi Mario
The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
BMC Plant Biology
author_facet Porceddu Enrico
Tanzarella Oronzo A
Dhanapal Arun P
Paolacci Anna R
d'Aloisio Elisa
Ciaffi Mario
author_sort Porceddu Enrico
title The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
title_short The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
title_full The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
title_fullStr The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
title_full_unstemmed The Protein Disulfide Isomerase gene family in bread wheat (<it>T. aestivum L</it>.)
title_sort protein disulfide isomerase gene family in bread wheat (<it>t. aestivum l</it>.)
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2010-06-01
description <p>Abstract</p> <p>Background</p> <p>The Protein Disulfide Isomerase (PDI) gene family encodes several PDI and PDI-like proteins containing thioredoxin domains and controlling diversified metabolic functions, including disulfide bond formation and isomerisation during protein folding. Genomic, cDNA and promoter sequences of the three homoeologous wheat genes encoding the "typical" PDI had been cloned and characterized in a previous work. The purpose of present research was the cloning and characterization of the complete set of genes encoding PDI and PDI like proteins in bread wheat (<it>Triticum aestivum </it>cv Chinese Spring) and the comparison of their sequence, structure and expression with homologous genes from other plant species.</p> <p>Results</p> <p>Eight new non-homoeologous wheat genes were cloned and characterized. The nine PDI and PDI-like sequences of wheat were located in chromosome regions syntenic to those in rice and assigned to eight plant phylogenetic groups. The nine wheat genes differed in their sequences, genomic organization as well as in the domain composition and architecture of their deduced proteins; conversely each of them showed high structural conservation with genes from other plant species in the same phylogenetic group. The extensive quantitative RT-PCR analysis of the nine genes in a set of 23 wheat samples, including tissues and developmental stages, showed their constitutive, even though highly variable expression.</p> <p>Conclusions</p> <p>The nine wheat genes showed high diversity, while the members of each phylogenetic group were highly conserved even between taxonomically distant plant species like the moss <it>Physcomitrella patens</it>. Although constitutively expressed the nine wheat genes were characterized by different expression profiles reflecting their different genomic organization, protein domain architecture and probably promoter sequences; the high conservation among species indicated the ancient origin and diversification of the still evolving gene family. The comprehensive structural and expression characterization of the complete set of <it>PDI </it>and <it>PDI</it>-like wheat genes represents a basis for the functional characterization of this gene family in the hexaploid context of bread wheat.</p>
url http://www.biomedcentral.com/1471-2229/10/101
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