Carbon-Nanotube-Based Materials for Protein Crystallization

Citations Over TimeTop 11% of 2009 papers

Abstract

We report on the first use of carbon-nanotube-based films to produce crystals of proteins. The crystals nucleate on the surface of the film. The difficulty of crystallizing proteins is a major bottleneck in the determination of the structure and function of biological molecules. The crystallization of two model proteins and two medically relevant proteins was studied. Quantitative data on the crystallization times of the model protein lysozyme are also presented. Two types of nanotube films, one made with the surfactant Triton X-100 (TX-100) and one with gelatin, were tested. Both induce nucleation of the crystal phase at supersaturations at which the protein solution would otherwise remain clear; however, the gelatin-based film induced nucleation down to much lower supersaturations for the two model proteins with which it was used. It appears that the interactions of gelatin with the protein molecules are particularly favorable to nucleation. Crystals of the C1 domain of the human cardiac myosin-binding protein-C that diffracted to a resolution of 1.6 A were obtained on the TX-100 film. This is far superior to the best crystals obtained using standard techniques, which only diffracted to 3.0 A. Thus, both of our nanotube-based films are very promising candidates for future work on crystallizing difficult-to-crystallize target proteins.

Related Papers

• → Screening and optimization of protein crystallization conditions through gradual evaporation using a novel crystallization platform(2005)54 cited
• → Seeding Protein Crystallization with Cross-Linked Protein Crystals(2018)19 cited
• → Nucleating agents for thermoplastics(1998)7 cited
• → Improving protein crystal quality using deep eutectic solvents(2023)3 cited
• → Novel Device and Strategy for Growing Large, High-Quality Protein Crystals by Controlling Crystallization Conditions(2021)1 cited