Recognition motif and mechanism of ripening inhibitory peptides in plant hormone receptor ETR1

Li X, Hao G, Wang Q, Chen Z, Ding Y, Yu L, Hu D, Song B.

Scientific Reports
2018 Mar 1;8(1):3890. doi: 10.1038/s41598-018-21952-3

Abstract

Synthetic peptides derived from ethylene-insensitive protein 2 (EIN2), a central regulator of ethylene signalling, were recently shown to delay fruit ripening by interrupting protein-protein interactions in the ethylene signalling pathway. Here, we show that the inhibitory peptide NOP-1 binds to the GAF domain of ETR1 - the prototype of the plant ethylene receptor family. Site-directed mutagenesis and computational studies reveal the peptide interaction site and a plausible molecular mechanism for the ripening inhibition.

View Publication

Topics: Plant proteins, Monolith – MicroScale Thermophoresis, MST, Proteins, Publications

Binding of the geldanamycin derivative 17 DMAG to Hsp90 measured with fluorescence label and label free

Up next

Microscale Thermophoresis measurements on in vitro synthesized proteins

Ready to characterize your most challenging interactions?

Discover tools to measure binding affinity

Learn more

Return to education center

Recognition motif and mechanism of ripening inhibitory peptides in plant hormone receptor ETR1

Previous

Up next

See more related content

The tool you choose to measure affinities should tackle a diverse range of targets and ligands that come your way — such as GPCRs, IDPs, or cancer-related proteins. And, you should get data that help

To understand signaling pathways, Spectral Shift technology allows for accurate bindings affinity measurements of membrane proteins like GPCRs in close to native conditions.

Drug Discovery Chemistry is an annual event that focuses solely on early drug discovery, where scientists from around the world gather to showcase their research and participate in thoughtful...

NanoTemper Technologies introduced Monolith X, adding breakthrough Spectral Shift technology to their top-selling Monolith product line.

NanoTemper’s newest Monolith instrument has been awarded the Red Dot Award, an internationally recognized seal of excellence in design. Both bold aesthetics and user-friendly design have always...

If you’re new to the world of TPD or you’re trying to keep up with all developments in this fast-moving field, here are some terms and definitions that will help you.

The desire to use technology that allows you to study membrane proteins in close-to-native conditions is specifically important when it comes to interaction measurements. It’s always a question how mu

Targeted protein degradation using molecular glues or proteolysis-targeting chimeras (PROTACs) is an increasingly important therapeutic modality, especially for undruggable targets. Even with candidat

One advantage of PROTACs is their unique mode of action — the induced proximity of an E3 ligase and the protein of interest (POI) triggers the ubiquitination and then degradation of the POI by the...

SARS-CoV-2, the causative agent of COVID-19, has an ssRNA genome of almost 30kb that encodes for a total of 26 proteins. Among the four structural viral protein, in particular the S protein stands out

Explore the complexities and drivers of molecular interactions with Dr. Tom Laue from the University of New Hampshire. He presented as a keynote speaker in the Protein Stability & Function: Can't have

Dr. Leah Pandiscia and Dr. Daniel Turman review how to integrate the Prometheus Panta and Monolith instruments in a characterization workflow demonstration, showing how to maximize stability and funct

NanoTemper’s newest Monolith instrument has been awarded the globally renowned iF DESIGN AWARD 2021. User-friendly design has always been a core focus in NanoTemper’s product development....