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Open Access. Powered by Scholars. Published by Universities.®

2006

Selected Works

Brad M. Binder

Articles 1 - 4 of 4

Full-Text Articles in Life Sciences

The Exoribonuclease Xrn4 Is A Component Of The Ethylene Response Pathway In Arabidopsis, Brad Binder, Thomas Potuschak, Amérin Vansiri, Esther Lechner, Richard Vierstra, Pascal Genschik Oct 2006

The Exoribonuclease Xrn4 Is A Component Of The Ethylene Response Pathway In Arabidopsis, Brad Binder, Thomas Potuschak, Amérin Vansiri, Esther Lechner, Richard Vierstra, Pascal Genschik

Brad M. Binder

EXORIBONUCLEASE4 (XRN4), the Arabidopsis thaliana homolog of yeast XRN1, is involved in the degradation of several unstable mRNAs. Although a role for XRN4 in RNA silencing of certain transgenes has been reported, xrn4 mutant plants were found to lack any apparent visible phenotype. Here, we show that XRN4 is allelic to the unidentified components of the ethylene response pathway ETHYLENE-INSENSITIVE5/ACC-INSENSITIVE1 (EIN5/AIN1) and EIN7. xrn4 mutant seedlings are ethylene-insensitive as a consequence of the upregulation of EIN3 BINDING F-BOX PROTEIN1 (EBF1) and EBF2 mRNA levels, which encode related F-box proteins involved in the turnover of EIN3 protein, a crucial ...


Ethylene-Stimulated Nutations Do Not Require Etr1 Receptor Histidine Kinase Activity, Brad Binder Oct 2006

Ethylene-Stimulated Nutations Do Not Require Etr1 Receptor Histidine Kinase Activity, Brad Binder

Brad M. Binder

Ethylene influences the growth and development of plants through the action of receptors that have homology to bacterial two-component receptors. In bacteria these receptors function via autophosphorylation of a His residue in the kinase domain followed by phosphotransfer to a conserved Asp residue in a response regulator protein. In Arabidopsis, two of the five receptor isoforms are capable of His kinase activity. However, the role of His kinase activity and phosphotransfer is unclear in ethylene signaling. A previous study showed that ethylene stimulates nutations of the hypocotyl in etiolated Arabidopsis seedlings that are dependent on the ETR1 receptor isoform. The ...


Identification Of Important Regions For Ethylene Binding And Signaling In The Transmembrane Domain Of The Etr1 Ethylene Receptor Of Arabidopsis, Brad Binder, Wuyi Wang, Jeff Esch, Shin-Han Shiu, Hasi Agula, Caren Chang, Sara Patterson, Anthony Bleecker Dec 2005

Identification Of Important Regions For Ethylene Binding And Signaling In The Transmembrane Domain Of The Etr1 Ethylene Receptor Of Arabidopsis, Brad Binder, Wuyi Wang, Jeff Esch, Shin-Han Shiu, Hasi Agula, Caren Chang, Sara Patterson, Anthony Bleecker

Brad M. Binder

The ethylene binding domain (EBD) of the Arabidopsis thaliana ETR1 receptor is modeled as three membrane-spanning helices. We surveyed ethylene binding activity in different kingdoms and performed a bioinformatic analysis of the EBD. Ethylene binding is confined to land plants, Chara, and a group of cyanobacteria but is largely absent in other organisms, consistent with our finding that EBD-like sequences are overrepresented among plant and cyanobacterial species. We made amino acid substitutions in 37 partially or completely conserved residues of the EBD and assayed their effects on ethylene binding and signaling. Mutations primarily in residues in Helices I and II ...


Ethylene Stimulates Nutations That Are Dependent On The Etr1 Receptor, Brad M. Binder, Ronan C. O'Malley, Wuyi Wang, Tobias C. Zutz, Anthony B. Bleeker Dec 2005

Ethylene Stimulates Nutations That Are Dependent On The Etr1 Receptor, Brad M. Binder, Ronan C. O'Malley, Wuyi Wang, Tobias C. Zutz, Anthony B. Bleeker

Brad M. Binder

Ethylene influences a number of processes in Arabidopsis (Arabidopsis thaliana) through the action of five receptors. In this study, we used high-resolution, time-lapse imaging to examine the long-term effects of ethylene on growing, etiolated Arabidopsis seedlings. These measurements revealed that ethylene stimulates nutations of the hypocotyls with an average delay in onset of over 6 h. The nutation response was constitutive in ctr1-2 mutants maintained in air, whereas ein2-1 mutants failed to nutate when treated with ethylene. Ethylene-stimulated nutations were also eliminated in etr1-7 loss-of-function mutants. Transformation of the etr1-7 mutant with a wild-type genomic ETR1 transgene rescued the nutation ...