Auxin: small molecule, big impact

Auxin research touches on a very wide variety of processes in plant development, and correspondingly a range of systems and approaches is revealing new understanding. This special issue spans this range, from research on mosses and liverworts which is revealing evolutionary aspects to the exquisite detail of signalling processes shown in Arabidopsis and agronomic potential in crops. As well as compiling and analyzing our current knowledge on auxin action, the reviews also provide a roadmap for future research.

[1]  Ildoo Hwang,et al.  Integration of multiple signaling pathways shapes the auxin response , 2018, Journal of experimental botany.

[2]  B. Kunkel,et al.  The roles of auxin during interactions between bacterial plant pathogens and their hosts. , 2018, Journal of experimental botany.

[3]  Jun Yu Li,et al.  A cheminformatics review of auxins as herbicides. , 2018, Journal of experimental botany.

[4]  Mattias Thelander,et al.  Auxin-mediated developmental control in the moss Physcomitrella patens , 2018, Journal of experimental botany.

[5]  Ying Wang,et al.  Auxin and above-ground meristems , 2018, Journal of experimental botany.

[6]  T. Kohchi,et al.  Evolution of nuclear auxin signaling: lessons from genetic studies with basal land plants. , 2018, Journal of experimental botany.

[7]  H. Robert,et al.  Auxin production as an integrator of environmental cues for developmental growth regulation. , 2018, Journal of experimental botany.

[8]  B. Scheres,et al.  Lateral root formation and the multiple roles of auxin , 2018, Journal of experimental botany.

[9]  Tao Zhang,et al.  Recent advances in auxin research in rice and their implications for crop improvement. , 2018, Journal of experimental botany.

[10]  Matias D. Zurbriggen,et al.  Multiple links between shade avoidance and auxin networks , 2018, Journal of experimental botany.

[11]  K. Palme,et al.  Naphthylphthalamic acid and the mechanism of polar auxin transport , 2018, Journal of experimental botany.

[12]  S. Braybrook,et al.  Acid growth: an ongoing trip. , 2018, Journal of experimental botany.

[13]  L. Strader,et al.  Roles for IBA-derived auxin in plant development. , 2018, Journal of experimental botany.

[14]  E. Deinum,et al.  Auxin transport, metabolism, and signalling during nodule initiation: indeterminate and determinate nodules , 2018, Journal of experimental botany.

[15]  D. Weijers,et al.  Auxin Response Factors — output control in auxin biology , 2017, bioRxiv.

[16]  Q. Ma,et al.  Auxin signaling: a big question to be addressed by small molecules , 2017, Journal of experimental botany.

[17]  I. Grosse,et al.  Diversity of cis-regulatory elements associated with auxin response in Arabidopsis thaliana , 2017, Journal of experimental botany.

[18]  D. Weijers,et al.  Auxin response cell-autonomously controls ground tissue initiation in the early Arabidopsis embryo , 2017, Proceedings of the National Academy of Sciences.

[19]  F. Frugier,et al.  How Auxin and Cytokinin Phytohormones Modulate Root Microbe Interactions , 2016, Front. Plant Sci..

[20]  F. Parcy,et al.  A Glimpse beyond Structures in Auxin-Dependent Transcription. , 2016, Trends in plant science.

[21]  D. Wagner,et al.  Transcriptional Responses to the Auxin Hormone. , 2016, Annual review of plant biology.

[22]  J. Friml,et al.  PIN-Dependent Auxin Transport: Action, Regulation, and Evolution , 2015, Plant Cell.

[23]  G. Krouk,et al.  A map of cell type-specific auxin responses , 2013, Molecular systems biology.

[24]  L. Strader,et al.  Auxin biosynthesis and storage forms. , 2013, Journal of experimental botany.

[25]  Joanne Chory,et al.  Crosstalk in cellular signaling: background noise or the real thing? , 2011, Developmental cell.

[26]  K. Thimann,et al.  Identity of the Growth-Promoting and Root-Forming Substances ofPlants , 1935, Nature.