A major isoform of the maize plasma membrane H super(+)-ATPase: Characterization and induction by auxin in coleoptiles

A major isoform of the maize plasma membrane H super(+)-ATPase: Characterization and induction by auxin in coleoptiles

The plasma membrane (PM) H super(+)-ATPase has been proposed to play important transport and regulatory roles in plant physiology, including its participation in auxin-induced acidification in coleoptile segments. This enzyme is encoded by a family of genes differing in tissue distribution, regulati...

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Published in:The Plant cell Vol. 8; no. 9; pp. 1533 - 1544
Main Authors: Frias, I, Caldeira, M T, Perez-Castineira, J R, Navarro-Avino, J P, Culianez-Macia, F A, Kuppinger, O, Stransky, H, Pages, M, Hager, A, Serrano, R
Format: Journal Article
Language:English
Published: 01-09-1996
Subjects:
Zea mays
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Summary:The plasma membrane (PM) H super(+)-ATPase has been proposed to play important transport and regulatory roles in plant physiology, including its participation in auxin-induced acidification in coleoptile segments. This enzyme is encoded by a family of genes differing in tissue distribution, regulation, and expression level. A major expressed isoform of the maize PM H super(+)-ATPase (MHA2) has been characterized. RNA gel blot analysis indicated that MHA2 is expressed in all maize organs, with highest levels being in the roots. In situ hybridization of sections from maize seedlings indicated enriched expression of MHA2 in stomatal guard cells, phloem cells, and root epidermal cells. MHA2 mRNA was induced threefold when nonvascular parts of the coleoptile segments were treated with auxin. This induction correlates with auxin-triggered proton extrusion by the same part of the segments. The PM H super(+)-ATPase in the vascular bundles does not contribute significantly to auxin-induced acidification, is not regulated by auxin, and masks the auxin effect in extracts of whole coleoptile segments. We conclude that auxin-induced acidification in coleoptile segments most often occurs in the nonvascular tissue and is mediated, at least in part, by increased levels of MHA2.
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ISSN:1040-4651