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<i>Betula platyphylla BpHOX2</i> transcription factor binds to different cis‐acting elements and confers osmotic tolerance

Zilong Tan, Xuejing Wen, Yucheng Wang

2020Journal of Integrative Plant Biology37 citationsDOI

Abstract

The homeodomain-leucine zipper (HD-Zip) proteins play crucial roles in plant developmental and environmental responses. However, how they mediate gene expression to facilitate abiotic stress tolerance remains unknown. In the present study, we characterized BpHOX2 (encoding a HD-Zip I family protein) from birch (Betula platyphylla). BpHOX2 is predominately expressed in mature stems and leaves, but expressed at a low level in apical buds and roots, suggesting that it has tissue-specific characteristics. BpHOX2 expression was highly induced by osmotic and salt, but only slightly induced by abscisic acid. Overexpression of BpHOX2 markedly improved osmotic tolerance, while knockdown of BpHOX2 increased sensitivity to osmotic stress. BpHOX2 could induce the expression of pyrroline-5-carboxylate synthase, peroxidase, and superoxide dismutase genes to improve proline levels and the reactive oxygen species scavenging capability. Chromatin immunoprecipitation sequencing combined with RNA sequencing showed that BpHOX2 could bind to at least four cis-acting elements, including dehydration-responsive element "RCCGAC", Myb-p binding box "CCWACC," and two novel cis-acting elements with the sequences of "AAGAAG" and "TACGTG" (termed HBS1 and HBS2, respectively) to regulate gene expression. Our results suggested that BpHOX2 is a transcription factor that binds to different cis-acting elements to regulate gene expression, ultimately improving osmotic tolerance in birch.

Topics & Concepts

MYBTranscription factorBiologyAbscisic acidBetula platyphyllaProlineOsmotic shockGeneGene expressionBiochemistryAbiotic stressGene knockdownChromatin immunoprecipitationPromoterDrought toleranceCell biologyMolecular biologyBotanyAmino acidPlant Stress Responses and TolerancePlant Molecular Biology ResearchPlant Gene Expression Analysis
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