Structural organization of the barley D-hordein locus in comparison with its orthologous regions of wheat genomes

Structural organization of the barley D-hordein locus in comparison with its orthologous regions of wheat genomes

D hordein, a prolamin storage protein of barley endosperms, is highly homologous to the high molecular weight (HWM) glutenin subunits, which are the major determinants of bread-making quality in wheat flour. In hexaploid wheat (AABBDD), each genome contains two paralogous copies of HMW-glutenin gene...

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Veröffentlicht in:Genome 2003-12, Vol.46 (6), p.1084-1097
Hauptverfasser: Gu, Y.Q, Anderson, O.D, Londeore, C.F, Kong, X, Chibbar, R.N, Lazo, G.R
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Sequence
amino acid sequences
Barley
Base Sequence
Cereal crops
chromosome mapping
Chromosomes, Artificial, Bacterial - genetics
Cloning, Molecular
DNA, Intergenic - genetics
DNA, Plant - chemistry
DNA, Plant - genetics
Flowers & plants
Genes, Plant - genetics
Genetics
Genome, Plant
Genomics
Glutens - analogs & derivatives
Glutens - chemistry
Glutens - genetics
Grasses
hordein
Hordeum - genetics
Hordeum vulgare
loci
Molecular Sequence Data
Molecular Weight
nucleotide sequences
Plant Proteins - genetics
Proteins
repetitive sequences
Repetitive Sequences, Nucleic Acid - genetics
Retroelements - genetics
retrotransposons
Sequence Alignment
Sequence Analysis, DNA
Sequence Homology, Amino Acid
Triticum - genetics
Triticum aestivum
Wheat
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container_end_page 1097
container_issue 6
container_start_page 1084
container_title Genome
container_volume 46
creator Gu, Y.Q
Anderson, O.D
Londeore, C.F
Kong, X
Chibbar, R.N
Lazo, G.R
description D hordein, a prolamin storage protein of barley endosperms, is highly homologous to the high molecular weight (HWM) glutenin subunits, which are the major determinants of bread-making quality in wheat flour. In hexaploid wheat (AABBDD), each genome contains two paralogous copies of HMW-glutenin genes that encode the x- and y-type HMW-glutenin subunits. Previously, we reported the sequence analysis of a 102-kb genomic region that contains the HMW-glutenin locus of the D genome from Aegilops tauschii, the donor of the D genome of hexaploid wheat. Here, we present the sequence analysis of a 120-kb D-hordein region of the barley genome, a more distantly related member of the Triticeae grass tribe. Comparative sequence analysis revealed that gene content and order are generally conserved. Genes included in both of these orthologous regions are arranged in the following order: a Xa21-like receptor kinase, an endosperm globulin, an HMW prolamin, and a serine (threonine) protein kinase. However, in the wheat D genome, a region containing both the globulin and HMW-glutenin gene was duplicated, indicating that this duplication event occurred after the separation of the wheat and barley genomes. The intergenic regions are divergent with regard to the sequence and structural organization. It was found that different types of retroelements are responsible for the intergenic structure divergence in the wheat and barley genomes. In the barley region, we identified 16 long terminal repeat (LTR) retrotransposons in three distinct nested clusters. These retroelements account for 63% of the contig sequence. In addition, barley D hordein was compared with wheat HMW glutenins in terms of cysteine residue conservation and repeat domain organization.
doi_str_mv 10.1139/g03-071
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In hexaploid wheat (AABBDD), each genome contains two paralogous copies of HMW-glutenin genes that encode the x- and y-type HMW-glutenin subunits. Previously, we reported the sequence analysis of a 102-kb genomic region that contains the HMW-glutenin locus of the D genome from Aegilops tauschii, the donor of the D genome of hexaploid wheat. Here, we present the sequence analysis of a 120-kb D-hordein region of the barley genome, a more distantly related member of the Triticeae grass tribe. Comparative sequence analysis revealed that gene content and order are generally conserved. Genes included in both of these orthologous regions are arranged in the following order: a Xa21-like receptor kinase, an endosperm globulin, an HMW prolamin, and a serine (threonine) protein kinase. However, in the wheat D genome, a region containing both the globulin and HMW-glutenin gene was duplicated, indicating that this duplication event occurred after the separation of the wheat and barley genomes. The intergenic regions are divergent with regard to the sequence and structural organization. It was found that different types of retroelements are responsible for the intergenic structure divergence in the wheat and barley genomes. In the barley region, we identified 16 long terminal repeat (LTR) retrotransposons in three distinct nested clusters. These retroelements account for 63% of the contig sequence. 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The intergenic regions are divergent with regard to the sequence and structural organization. It was found that different types of retroelements are responsible for the intergenic structure divergence in the wheat and barley genomes. In the barley region, we identified 16 long terminal repeat (LTR) retrotransposons in three distinct nested clusters. These retroelements account for 63% of the contig sequence. 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In hexaploid wheat (AABBDD), each genome contains two paralogous copies of HMW-glutenin genes that encode the x- and y-type HMW-glutenin subunits. Previously, we reported the sequence analysis of a 102-kb genomic region that contains the HMW-glutenin locus of the D genome from Aegilops tauschii, the donor of the D genome of hexaploid wheat. Here, we present the sequence analysis of a 120-kb D-hordein region of the barley genome, a more distantly related member of the Triticeae grass tribe. Comparative sequence analysis revealed that gene content and order are generally conserved. Genes included in both of these orthologous regions are arranged in the following order: a Xa21-like receptor kinase, an endosperm globulin, an HMW prolamin, and a serine (threonine) protein kinase. However, in the wheat D genome, a region containing both the globulin and HMW-glutenin gene was duplicated, indicating that this duplication event occurred after the separation of the wheat and barley genomes. 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subjects Amino Acid Sequence
amino acid sequences
Barley
Base Sequence
Cereal crops
chromosome mapping
Chromosomes, Artificial, Bacterial - genetics
Cloning, Molecular
DNA, Intergenic - genetics
DNA, Plant - chemistry
DNA, Plant - genetics
Flowers & plants
Genes, Plant - genetics
Genetics
Genome, Plant
Genomics
Glutens - analogs & derivatives
Glutens - chemistry
Glutens - genetics
Grasses
hordein
Hordeum - genetics
Hordeum vulgare
loci
Molecular Sequence Data
Molecular Weight
nucleotide sequences
Plant Proteins - genetics
Proteins
repetitive sequences
Repetitive Sequences, Nucleic Acid - genetics
Retroelements - genetics
retrotransposons
Sequence Alignment
Sequence Analysis, DNA
Sequence Homology, Amino Acid
Triticum - genetics
Triticum aestivum
Wheat
title Structural organization of the barley D-hordein locus in comparison with its orthologous regions of wheat genomes
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