BARREN INFLORESCENCE2 Interaction with ZmPIN1a Suggests a Role in Auxin Transport During Maize Inflorescence Development

Andrea L. Skirpan; Angela Hendrickson Culler; Andrea Gallavotti; David Jackson; Jerry D. Cohen; Paula McSteen

doi:10.1093/pcp/pcp006

BARREN INFLORESCENCE2 Interaction with ZmPIN1a Suggests a Role in Auxin Transport During Maize Inflorescence Development

Andrea L. Skirpan(Pennsylvania State University), Angela Hendrickson Culler(University of Minnesota), Andrea Gallavotti(Cold Spring Harbor Laboratory), David Jackson(Cold Spring Harbor Laboratory), Jerry D. Cohen(University of Minnesota), Paula McSteen(Pennsylvania State University)

Plant and Cell Physiology

January 19, 2009

10.1093/pcp/pcp006

Cited by 78Open Access

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Abstract

Polar auxin transport, mediated by the PIN-FORMED (PIN) class of auxin efflux carriers, controls organ initiation in plants. In maize, BARREN INFLORESCENCE2 (BIF2) encodes a serine/threonine protein kinase co-orthologous to PINOID (PID), which regulates the subcellular localization of AtPIN1 in Arabidopsis. We show that BIF2 phosphorylates ZmPIN1a, a maize homolog of AtPIN1, in vitro and regulates ZmPIN1a subcellular localization in vivo, similar to the role of PID in Arabidopsis. In addition, bif2 mutant inflorescences have lower auxin levels later in development. We propose that BIF2 regulates auxin transport through direct regulation of ZmPIN1a during maize inflorescence development.

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