Investigating Polymer Flipping and Lattice Disruptions in TELSAM-Facilitated Protein Crystallization
Ethan Noakes, MJ Pedroza Romo, Joseph Gonzalez, Alihi Keliiliki, Eli Anderson, James D Moody

TL;DR
This paper investigates how TELSAM polymers disrupt crystal lattices during crystallization and proposes a new device to reduce these disruptions.
Contribution
A novel device is introduced to reduce polymer flipping and improve crystal quality in TELSAM-mediated crystallization.
Findings
High R-values in structure solution suggest lattice disruptions in TELSAM-mediated crystals.
Polymer flipping occurs in sequences of three or four normal polymers before flipping.
A new device was developed to reduce flipping and improve crystal quality.
Abstract
TELSAM, the sterile alpha motif (SAM) domain of the human translocation ETS leukemia protein (TEL), spontaneously forms 6-fold helical polymers at low pH. Previously, TELSAM was fused to the CMG2 vWA domain via a Threonine–Valine linker to create the 1TEL-TV-vWA construct. This construct was crystallized, mounted in-house, and analyzed using synchrotron X-ray diffraction. Despite successful crystallization, structure solution consistently yielded high R-values. Reciprocal lattice analysis revealed three domains, indicating a break in lattice periodicity. The observed intensity pattern—normal reflections at h-k=3n and streaky reflections at h-k=3n±1—suggests a unit cell shift equivalent to one-third of the P65 unit cell’s h-k length. This aligns with the polymer packing seen in the solved structure, where regular crystals show a repeating pattern of two normal polymers followed by a…
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Taxonomy
TopicsEnzyme Structure and Function · Polymer crystallization and properties · RNA Research and Splicing
