Investigating of the polymorphism of &lt;i&gt;Solanaceae&lt;/i&gt; R2R3 Myb and &lt;i&gt;Brassica Myb114&lt;/i&gt; genes of transcription factors in connection with the anthocyanin biosynthesis regulation

Babak, O. G.; Anisimova, N. A.; Nikitinskaya, T. V.; Некрашевич, Н. А.; Yatsevich, K. K.; Drozd, L. V.; Фатеев, Д. А.; Berensen, F. A.; Artemyeva, A. M.; Kilchevsky, A. V.

doi:10.29235/1561-8323-2022-66-4-414-424

Dokl. Akad. nauk

2022

DOI: 10.29235/1561-8323-2022-66-4-414-424

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Investigating of the polymorphism of <i>Solanaceae</i> R2R3 Myb and <i>Brassica Myb114</i> genes of transcription factors in connection with the anthocyanin biosynthesis regulation

O. G. Babak

N. A. Anisimova

T. V. Nikitinskaya

et al.

Abstract: Based on comparison of R2R3 Myb genes in Solanaceae (S. lycopersicum: Ant1, Ant2, S. melongena: Myb1, C. annuum: Myb113-like1 and Myb113-like2) and Brassicaceae crops, a search for orthologous sequences was The sequences encoding Myb114 TF in Brassica oleracea and Brassica rapa was found to be the closest in a nucleotide structure to the previously investigated genes in Solanaceae. Тhе polymorphism in the promoter region of the Capsicum annuum Myb113-like1 gene that regulates anthocyanin biosynthesis: an addit… Show more

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2024

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A Key R2R3‐MYB Transcription Factor Activates Anthocyanin Biosynthesis and Leads to Leaf Reddening in Poplar Mutants

Li,

Che

et al. 2024

Plant Cell & Environment

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Colorful woody plants are highly valued for their ornamental qualities, and are commonly used in garden landscape design. We previously cultivated several ornamental poplar varieties from bud mutants of Populus sp. Linn. ‘2025’ (ZL2025), each with different leaf colors. Based on transcriptome data from these varieties with varying anthocyanin pigmentation, we identified and named an R2R3‐MYB gene, PdMYB113. The mRNA of PdMYB113 accumulated in the leaves of the red‐leaf mutants ‘QHY’ and ‘LHY’, but barely expressed in the leaves of ‘ZL2025’. The anthocyanin biosynthesis genes were upregulated, resulting in high levels of red anthocyanins (particularly Peonidin‐3‐O‐rutinoside, Cyanidin‐3‐O‐rutinoside, and Cyanidin‐3‐O‐glucoside) in both OE‐PdMYB113 tobacco and poplar plants. This upregulation caused a color change in the tissues from green to red or dark purple. Yeast one‐hybrid and luciferase assays demonstrated that PdMYB113 activates the expression of anthocyanin biosynthesis genes, including the early anthocyanin biosynthetic gene PdCHS and the late anthocynin biosynthetic gene PdANS. Consequently, PdMYB113 is identified as a key regulator of red coloration in poplar. Additionally, PdMYB113 does not dwarf transgenic plants under normal lighting conditions. This study elucidates the regulatory mechanisms of color change in ZL2025 and highlights a crucial gene for breeding new varieties of woody plants.

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A Key R2R3‐MYB Transcription Factor Activates Anthocyanin Biosynthesis and Leads to Leaf Reddening in Poplar Mutants

Li,

Che

et al. 2024

Plant Cell & Environment

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Modern trends and innovative development areas of biological science in Belarus (To the 95th anniversary of the foundation of the National Academy of Sciences of Belarus)

Baranov,

Rassadina,

Anisova

2024

Vescì Akademìì navuk Belarusì. Seryâ biâlagičnyh navuk

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An analysis of scientific publications and information materials on the main areas of academic biological scientific school activity is presented (for the National Academy of Sciences of Belarus). The principles, structure and system of fundamental and applied research design in the field of biology is shown. The obtained results, their implementation and significance for various economy sectors are discussed. Promising areas for innovative development of biological science based on interdisciplinary interaction have been identified.

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Investigating of the polymorphism of <i>Solanaceae</i> R2R3 Myb and <i>Brassica Myb114</i> genes of transcription factors in connection with the anthocyanin biosynthesis regulation

Cited by 2 publications

References 11 publications

A Key R2R3‐MYB Transcription Factor Activates Anthocyanin Biosynthesis and Leads to Leaf Reddening in Poplar Mutants

A Key R2R3‐MYB Transcription Factor Activates Anthocyanin Biosynthesis and Leads to Leaf Reddening in Poplar Mutants

Modern trends and innovative development areas of biological science in Belarus (To the 95th anniversary of the foundation of the National Academy of Sciences of Belarus)

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