Distribution and inheritance of β-amylase alleles in north European barley varieties

Development-dependent changes in the tight DNA-protein complexes of barley on chromosome and gene level

BACKGROUND

The tightly bound to DNA proteins (TBPs) is a protein group that remains attached to DNA with covalent or non-covalent bonds after its deproteinisation. The functional role of this group is as yet not completely understood. The main goal of this study was to evaluate tissue specific changes in the TBP distribution in barley genes and chromosomes in different phases of shoot and seed development. We have: 1. investigated the TBP distribution along Amy32b and Bmy1 genes encoding low pI alpha-amylase A and endosperm specific beta-amylase correspondingly using oligonucleotide DNA arrays; 2. characterized the polypeptide spectrum of TBP and proteins with affinity to TBP-associated DNA; 3. localized the distribution of DNA complexes with TBP (TBP-DNA) on barley 1H and 7H chromosomes using mapped markers; 4. compared the chromosomal distribution of TBP-DNA complexes to the distribution of the nuclear matrix attachment sites.

RESULTS

In the Amy32b gene transition from watery ripe to the milky ripeness stage of seed development was followed by the decrease of TBP binding along the whole gene, especially in the promoter region and intron II. Expression of the Bmy1 gene coupled to ripening was followed by release of the exon III and intron III sequences from complexes with TBPs. Marker analysis revealed changes in the association of chromosome 1H and 7H sites with TBPs between first leaf and coleoptile and at Zadoks 07 and Zadoks 10 stages of barley shoot development. Tight DNA-protein complexes of the nuclear matrix and those detected by NPC-chromatography were revealed as also involved in tissue- and development-dependent transitions, however, in sites different from TBP-DNA interactions. The spectrum of TBPs appeared to be organ and developmental-stage specific. Development of the first leaf and root system (from Zadoks 07 to Zadoks 10 stage) was shown as followed by a drastic increase in the TBP number in contrast to coleoptile, where the TBPs spectrum became poor during senescence. It was demonstrated that a nuclear protein of low molecular weight similar to the described TBPs possessed a high affinity to the DNA involved in TBP-DNA complexes.

CONCLUSION

Plant development is followed by redistribution of TBP along individual genes and chromosomes.

Genetic variation of Bmy1 alleles in barley (Hordeum vulgare L.) investigated by CAPS analysis

The enzyme beta-amylase is one of the most important hydrolytic enzymes in the grain of malting barley and is encoded by the gene Bmy1. To learn more about its structure and function, a total of 657 barley accessions including 541 Hordeum vulgare ssp. vulgare (HV), and 116 H. vulgare ssp. spontaneum (HS) were selected for the cleaved amplified polymorphic sequence (CAPS) analysis. These materials, covering all the 16 kinds of beta-amylase phenotypes screened from more than 8,500 accessions of the world barley germplasm, were classified into 13 CAPS types in the present study. A combined assay of phenotypes and CAPS types revealed extensive genetic variation at the Bmy1 locus, and in total 23 Bmy1 allele types were identified. The newly identified alleles (A-I-11, A-II-6, A-II-7, A-II-10, B-I-3, B-I-12 and B-I-13) provided us with a novel resource for barley breeding and Bmy1 study. In HV barley, six out of seven major allele types (C-II-1, B-II-2, B-Ia-3, A-II-5, A-II-6, and A-II-7) were shared with HS barley; the B-I-8 allele, which was predominant in north European cultivated barley, was found to be unique. Remarkably, very low Bmy1 genetic variation was detected in Tibetan barleys, which puts the validity of the hypothesis that Tibet is one of the original centers of cultivated barley into question.

Novel haplotype description and structural background of the eventual functional significance of the barley beta-amylase gene intron III rearrangements

To extend the knowledge on the haplotype variability of the Bmy1 gene, region of the intron III was sequenced in a set of 20 Latvian accessions and Danish variety Maja, the data were compared to the previously reported allelic variants of the structural gene. Taking into account the polymorphisms of 59 loci and the microsatellite (MS) motif, 11 Latvian varieties turned out to have haplotype similar to cultivar Adorra, 1 - to Haruna Nijo, and 8 - to the newly described Abava Bmy1 intron III haplotype. High level of polymorphisms of (TG)(m) as well as (G)(n) component of MS was revealed for all the haplotypes studied. We conclude that the MS motif rather than the MS size length polymorphism correlates with mutations in the coding region of the beta-amylase gene. Five graphical haplotype-specific intron III structures were constructed on the basis of the co-localization of the transcription factor binding sites (TFBSs), remnants of the transposable elements, and intron III polymorphic loci. Inter- and intrahaplotype variability was analyzed on the eventual functional significance of the Bmy1 intron III rearrangements. Novel data on the intron III nucleotide sequences of the Bmy1 gene were deposited in the GenBank (http://www.ncbi.nlm.nih.gov/) under accession numbers DQ316895-DQ316905.