Tightening the knot in phytochrome by single-molecule atomic force microscopy

Thomas Bornschlögl, David M. Anstrom, Elisabeth Mey, Joachim Dzubiella, Matthias Rief, Katrina T. Forest

Publikation: Beitrag in FachzeitschriftArtikelBegutachtung

71 Zitate (Scopus)

Abstract

A growing number of proteins have been shown to adopt knotted folds. Yet the biological roles and biophysical properties of these knots remain poorly understood. We used protein engineering and atomic force microscopy to explore the single-molecule mechanics of the figure-eight knot in the chromophore-binding domain of the red/far-red photoreceptor, phytochrome. Under load, apo phytochrome unfolds at forces of ∼47 pN, whereas phytochrome carrying its covalently bound tetrapyrrole chromophore unfolds at ∼73 pN. These forces are not unusual in mechanical protein unfolding, and thus the presence of the knot does not automatically indicate a superstable protein. Our experiments reveal a stable intermediate along the mechanical unfolding pathway, reflecting the sequential unfolding of two distinct subdomains in phytochrome, potentially the GAF and PAS domains. For the first time (to the best of our knowledge), our experiments allow a direct determination of knot size under load. In the unfolded chain, the tightened knot is reduced to 17 amino acids, resulting in apparent shortening of the polypeptide chain by 6.2 nm. Steered molecular-dynamics simulations corroborate this number. Finally, we find that covalent phytochrome dimers created for these experiments retain characteristic photoreversibility, unexpectedly arguing against a dramatic rearrangement of the native GAF dimer interface upon photoconversion.

OriginalspracheEnglisch
Seiten (von - bis)1508-1514
Seitenumfang7
FachzeitschriftBiophysical Journal
Jahrgang96
Ausgabenummer4
DOIs
PublikationsstatusVeröffentlicht - 18 Feb. 2009

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