Biology Open
(Oct 2015)
AINTEGUMENTA and the D-type cyclin CYCD3;1 regulate root secondary growth and respond to cytokinins
Ricardo S. Randall,
Shunsuke Miyashima,
Tiina Blomster,
Jing Zhang,
Annakaisa Elo,
Anna Karlberg,
Juha Immanen,
Kaisa Nieminen,
Ji-Young Lee,
Tatsuo Kakimoto,
Karolina Blajecka,
Charles W. Melnyk,
Annette Alcasabas,
Celine Forzani,
Miho Matsumoto-Kitano,
Ari Pekka Mähönen,
Rishikesh Bhalerao,
Walter Dewitte,
Ykä Helariutta,
James A. H. Murray
Affiliations
Ricardo S. Randall
Department of Molecular Biosciences, Cardiff School of Biosciences, Cardiff University, Cardiff, Wales CF10 3AX, UK
Shunsuke Miyashima
Department of Biological Sciences, Osaka University, Graduate School of Science, 1-1 Machikaneyama-cho, Toyonaka, Osaka 560-0043, Japan
Tiina Blomster
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Jing Zhang
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Annakaisa Elo
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Anna Karlberg
Department of Plant Physiology, Umeå University, Umeå SE-901 87, Sweden
Juha Immanen
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Kaisa Nieminen
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Ji-Young Lee
School of Biological Sciences, College of Natural Science, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 08826, Korea
Tatsuo Kakimoto
Department of Biological Sciences, Osaka University, Graduate School of Science, 1-1 Machikaneyama-cho, Toyonaka, Osaka 560-0043, Japan
Karolina Blajecka
Sainsbury Laboratory, Cambridge University, Bateman Street, Cambridge CB2 1LR, UK
Charles W. Melnyk
Sainsbury Laboratory, Cambridge University, Bateman Street, Cambridge CB2 1LR, UK
Annette Alcasabas
Department of Molecular Biosciences, Cardiff School of Biosciences, Cardiff University, Cardiff, Wales CF10 3AX, UK
Celine Forzani
Department of Molecular Biosciences, Cardiff School of Biosciences, Cardiff University, Cardiff, Wales CF10 3AX, UK
Miho Matsumoto-Kitano
Department of Biological Sciences, Osaka University, Graduate School of Science, 1-1 Machikaneyama-cho, Toyonaka, Osaka 560-0043, Japan
Ari Pekka Mähönen
Department of Biosciences, Institute of Biotechnology, Viikinkaari 1 (P.O.Box 65), 00014, University of Helsinki, Helsinki, Finland
Rishikesh Bhalerao
Department of Plant Physiology, Umeå University, Umeå SE-901 87, Sweden
Walter Dewitte
Department of Molecular Biosciences, Cardiff School of Biosciences, Cardiff University, Cardiff, Wales CF10 3AX, UK
Ykä Helariutta
Sainsbury Laboratory, Cambridge University, Bateman Street, Cambridge CB2 1LR, UK
James A. H. Murray
Department of Molecular Biosciences, Cardiff School of Biosciences, Cardiff University, Cardiff, Wales CF10 3AX, UK
DOI
https://doi.org/10.1242/bio.013128
Journal volume & issue
Vol. 4,
no. 10
Abstract
Read online
Higher plant vasculature is characterized by two distinct developmental phases. Initially, a well-defined radial primary pattern is established. In eudicots, this is followed by secondary growth, which involves development of the cambium and is required for efficient water and nutrient transport and wood formation. Regulation of secondary growth involves several phytohormones, and cytokinins have been implicated as key players, particularly in the activation of cell proliferation, but the molecular mechanisms mediating this hormonal control remain unknown. Here we show that the genes encoding the transcription factor AINTEGUMENTA (ANT) and the D-type cyclin CYCD3;1 are expressed in the vascular cambium of Arabidopsis roots, respond to cytokinins and are both required for proper root secondary thickening. Cytokinin regulation of ANT and CYCD3 also occurs during secondary thickening of poplar stems, suggesting this represents a conserved regulatory mechanism.
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