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Identification and characterization of regulatory network components for anthocyanin synthesis in barley aleurone. / Strygina, Ksenia V.; Börner, Andreas; Khlestkina, Elena K.
In: BMC Plant Biology, Vol. 17, No. Suppl 1, 184, 14.11.2017, p. 184.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Identification and characterization of regulatory network components for anthocyanin synthesis in barley aleurone
AU - Strygina, Ksenia V.
AU - Börner, Andreas
AU - Khlestkina, Elena K.
PY - 2017/11/14
Y1 - 2017/11/14
N2 - Background: Among natural populations, there are different colours of barley (Hordeum vulgare L.). The colour of barley grains is directly related to the accumulation of different pigments in the aleurone layer, pericarp and lemma. Blue grain colour is due to the accumulation of anthocyanins in the aleurone layer, which is dependent on the presence of five Blx genes that are not sequenced yet (Blx1, Blx3 and Blx4 genes clustering on chromosome 4HL and Blx2 and Blx5 on 7HL). Due to the health benefits of anthocyanins, blue-grained barley can be considered as a source of dietary food. The goal of the current study was to identify and characterize components of the anthocyanin synthesis regulatory network for the aleurone layer in barley. Results: The candidate genes for components of the regulatory complex MBW (consisting of transcription factors MYB, bHLH/MYC and WD40) for anthocyanin synthesis in barley aleurone were identified. These genes were designated HvMyc2 (4HL), HvMpc2 (4HL), and HvWD40 (6HL). HvMyc2 was expressed in aleurone cells only. A loss-of-function (frame shift) mutation in HvMyc2 of non-coloured compared to blue-grained barley was revealed. Unlike aleurone-specific HvMyc2, the HvMpc2 gene was expressed in different tissues; however, its activity was not detected in non-coloured aleurone in contrast to a coloured aleurone, and allele-specific mutations in its promoter region were found. The single-copy gene HvWD40, which encodes the required component of the regulatory MBW complex, was expressed constantly in coloured and non-coloured tissues and had no allelic differences. HvMyc2 and HvMpc2 were genetically mapped using allele-specific developed CAPS markers developed. HvMyc2 was mapped in position between SSR loci XGBS0875-4H (3.4cM distal) and XGBM1048-4H (3.4cM proximal) matching the region chromosome 4HL where the Blx-cluster was found. In this position, one of the anthocyanin biosynthesis structural genes (HvF3'5'H) was also mapped using an allele-specific CAPS-marker developed in the current study. Conclusions: The genes involved in anthocyanin synthesis in the barley aleurone layer were identified and characterized, including components of the regulatory complex MBW, from which the MYC-encoding gene (HvMyc2) appeared to be the main factor underlying variation of barley by aleurone colour.
AB - Background: Among natural populations, there are different colours of barley (Hordeum vulgare L.). The colour of barley grains is directly related to the accumulation of different pigments in the aleurone layer, pericarp and lemma. Blue grain colour is due to the accumulation of anthocyanins in the aleurone layer, which is dependent on the presence of five Blx genes that are not sequenced yet (Blx1, Blx3 and Blx4 genes clustering on chromosome 4HL and Blx2 and Blx5 on 7HL). Due to the health benefits of anthocyanins, blue-grained barley can be considered as a source of dietary food. The goal of the current study was to identify and characterize components of the anthocyanin synthesis regulatory network for the aleurone layer in barley. Results: The candidate genes for components of the regulatory complex MBW (consisting of transcription factors MYB, bHLH/MYC and WD40) for anthocyanin synthesis in barley aleurone were identified. These genes were designated HvMyc2 (4HL), HvMpc2 (4HL), and HvWD40 (6HL). HvMyc2 was expressed in aleurone cells only. A loss-of-function (frame shift) mutation in HvMyc2 of non-coloured compared to blue-grained barley was revealed. Unlike aleurone-specific HvMyc2, the HvMpc2 gene was expressed in different tissues; however, its activity was not detected in non-coloured aleurone in contrast to a coloured aleurone, and allele-specific mutations in its promoter region were found. The single-copy gene HvWD40, which encodes the required component of the regulatory MBW complex, was expressed constantly in coloured and non-coloured tissues and had no allelic differences. HvMyc2 and HvMpc2 were genetically mapped using allele-specific developed CAPS markers developed. HvMyc2 was mapped in position between SSR loci XGBS0875-4H (3.4cM distal) and XGBM1048-4H (3.4cM proximal) matching the region chromosome 4HL where the Blx-cluster was found. In this position, one of the anthocyanin biosynthesis structural genes (HvF3'5'H) was also mapped using an allele-specific CAPS-marker developed in the current study. Conclusions: The genes involved in anthocyanin synthesis in the barley aleurone layer were identified and characterized, including components of the regulatory complex MBW, from which the MYC-encoding gene (HvMyc2) appeared to be the main factor underlying variation of barley by aleurone colour.
KW - BHLH
KW - Cytochrome P450
KW - Flavonoid biosynthesis
KW - Gene duplication
KW - Hordeum
KW - MBW
KW - MYB
KW - MYC
KW - Transcription factor
KW - WD40
KW - Endosperm/metabolism
KW - Genes, Plant
KW - Anthocyanins/biosynthesis
KW - Gene Regulatory Networks
KW - Sequence Analysis, DNA
KW - DNA, Plant
KW - Hordeum/genetics
KW - Gene Expression Regulation, Plant
KW - Real-Time Polymerase Chain Reaction
KW - PROTEIN FAMILY
KW - MARKERS
KW - bHLH
KW - GRAINS
KW - ANT1
KW - HEALTH-BENEFITS
KW - GENES
KW - PURPLE
KW - GENOME
UR - http://www.scopus.com/inward/record.url?scp=85033788265&partnerID=8YFLogxK
U2 - 10.1186/s12870-017-1122-3
DO - 10.1186/s12870-017-1122-3
M3 - Article
C2 - 29143621
AN - SCOPUS:85033788265
VL - 17
SP - 184
JO - BMC Plant Biology
JF - BMC Plant Biology
SN - 1471-2229
IS - Suppl 1
M1 - 184
ER -
ID: 9697942