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The auxin receptor TIR1 is an F-box protein functioning in a ubiquitin ligase complex to target repressors for degradation. It is itself an unstable protein, but newly identified mutations protect both TIR1 and its substrates from degradation. These mutations could help in identifying the substrates for hundreds of other F-box proteins.

Plant research projects are increasingly producing large systematic collections of phenotype data. But how can it be stored so that others can easily use it and that proper credit goes to the creators of the data?

The nitrate transporter NRT1.1 is a versatile plasma-membrane protein that mediates not only nitrate uptake in roots, but also nitrate sensing and signalling. A study of the structural features of NRT1.1 reveals how this protein can coordinate a range of physiological and morphological responses to nitrate.

Animal microRNAs appear to either cleave or repress the translation of target messenger RNAs depending on complementarity between the two. Contrastingly, the biogenesis of plant microRNAs seems to dictate their mode of action.

Agricultural research is experiencing a resurgence. The Gates Foundation is leading the charge in the hopes of solving food security in the developing world.

The protein content of plant cells is constantly being updated. Proteomic analyses are revealing the cellular processes that contribute to protein synthesis and degradation in plants, and their sensitivity to developmental and environmental change.

Live-cell imaging and finite-element modelling shows how the plant's cytoskeleton gives shape to trichomes. The actin-related protein (ARP)2/3 complex generates an actin meshwork that directs growth through cell-wall anisotropy and organelle transport control.

Herbivorous insects influence forest structure and function. Experiments at the Aspen FACE facility in the US suggest that elevated concentrations of carbon dioxide enhance insect-induced reductions in forest productivity, whereas elevated concentrations of ozone have the opposite effect.

In Arabidopsis the plasma membrane nitrate transceptor (transporter/receptor) NRT1.1 governs many physiological and developmental responses to nitrate. Point mutations in two key residues of the transceptor differentially affect several of the NRT1.1-dependent responses to nitrate, suggesting that NRT1.1 activates independent signalling pathways.

The plant auxin receptor TIR1 needs to associate with the SCF complex to be functional and target substrates. Newly discovered mutations that can block this interaction suggest that TIR1 is autocatalytically degraded once assembled in the SCF complex.

Touch can lead to a reduction in plant growth and a delay in flowering time. Experiments with wild-type Arabidopsis plants, and mutants impaired in gibberellin signalling and breakdown, suggest that touch-induced changes in plant morphology depend on gibberellin catabolism.

Little is known about the selection of regulatory mechanisms for plant microRNAs. Now a Dicer partnering protein, DRB2, is reported to determine translational inhibition and repress transcript cleavage, allowing the selection of the two mechanisms.

Transposons are a major component of many plant genomes. A comparison of two related species differing in genome size and transposon content provides an opportunity to study how transposons contribute to shaping the genome and epigenome.

Asymmetric cell divisions establish the patterning of stomata in maize. PAN receptor-like kinases were thought to start a signalling cascade leading to pre-mitotic polarization of the cell. Re-analysis of mutants now reveals that the SCAR/WAVE complex is involved in the early initiation of polarity in mother cells.

The development of a new jasmonate reporter further extends the tools that add greater detail to the investigation of plant hormones. Such reporters for the various types of plant hormones, exploiting different aspects of their activity, will help us to eventually study hormone signalling, distribution and dynamics in intact tissue.