TY - JOUR
T1 - The far side of auxin signaling
T2 - Fundamental cellular activities and their contribution to a defined growth response in plants
AU - Retzer, Katarzyna
AU - Butt, Haroon
AU - Korbei, Barbara
AU - Luschnig, Christian
N1 - Funding Information:
The authors are indebted to Jürgen Kleine-Vehn (BOKU, Vienna) for valuable comments on the manuscript. Work in the lab of C.L. is supported by the Austrian Science Fund FWF (P25931), K.R. is supported by a Doc fforte fellowship from the Austrian Academy of Sciences, B.K. holds a Hertha Firnberg fellowship from the FWF (T477), and H.B. was supported by a fellowship from the Pakistani Commission for Higher Education (HEC).
PY - 2014/7
Y1 - 2014/7
N2 - Recent years have provided us with spectacular insights into the biology of the plant hormone auxin, leaving the impression of a highly versatile molecule involved in virtually every aspect of plant development. A combination of genetics, biochemistry, and cell biology has established auxin signaling pathways, leading to the identification of two distinct modes of auxin perception and downstream regulatory cascades. Major targets of these signaling modules are components of the polar auxin transport machinery, mediating directional distribution of the phytohormone throughout the plant body, and decisively affecting plant development. Alterations in auxin transport, metabolism, or signaling that occur as a result of intrinsic as well as environmental stimuli, control adjustments in morphogenetic programs, giving rise to defined growth responses attributed to the activity of the phytohormone. Some of the results obtained from the analysis of auxin, however, do not fit coherently into a picture of highly specific signaling events, but rather suggest mutual interactions between auxin and fundamental cellular pathways, like the control of intracellular protein sorting or translation. Crosstalk between auxin and these basic determinants of cellular activity and how they might shape auxin effects in the control of morphogenesis are the subject of this review.
AB - Recent years have provided us with spectacular insights into the biology of the plant hormone auxin, leaving the impression of a highly versatile molecule involved in virtually every aspect of plant development. A combination of genetics, biochemistry, and cell biology has established auxin signaling pathways, leading to the identification of two distinct modes of auxin perception and downstream regulatory cascades. Major targets of these signaling modules are components of the polar auxin transport machinery, mediating directional distribution of the phytohormone throughout the plant body, and decisively affecting plant development. Alterations in auxin transport, metabolism, or signaling that occur as a result of intrinsic as well as environmental stimuli, control adjustments in morphogenetic programs, giving rise to defined growth responses attributed to the activity of the phytohormone. Some of the results obtained from the analysis of auxin, however, do not fit coherently into a picture of highly specific signaling events, but rather suggest mutual interactions between auxin and fundamental cellular pathways, like the control of intracellular protein sorting or translation. Crosstalk between auxin and these basic determinants of cellular activity and how they might shape auxin effects in the control of morphogenesis are the subject of this review.
KW - Auxin
KW - Cytoskeleton
KW - Plasma membrane
KW - Protein sorting
KW - Translational control
UR - http://www.scopus.com/inward/record.url?scp=84902810780&partnerID=8YFLogxK
U2 - 10.1007/s00709-013-0572-1
DO - 10.1007/s00709-013-0572-1
M3 - Review article
C2 - 24221297
AN - SCOPUS:84902810780
SN - 0033-183X
VL - 251
SP - 731
EP - 746
JO - Protoplasma
JF - Protoplasma
IS - 4
ER -