The X-ray crystal structures of superfolder green fluorescent protein (sfGFP) containing the spectroscopic reporter unnatural amino acids (UAAs) 4-cyano-L-phenylalanine (pCNF) or 4-ethynyl-L-phenylalanine (pCCF) at two unique sites in the protein have been determined. These UAAs were genetically incorporated into sfGFP in a solvent-exposed loop region and/or a partially buried site on the β-barrel of the protein. The crystal structures containing the UAAs at these two sites permit the structural implications of UAA incorporation for the native protein structure to be assessed with high resolution and permit a direct correlation between the structure and spectroscopic data to be made. The structural implications were quantified by comparing the root-mean-square deviation (r.m.s.d.) between the crystal structure of wild-type sfGFP and the protein constructs containing either pCNF or pCCF in the local environment around the UAAs and in the overall protein structure. The results suggest that the selective placement of these spectroscopic reporter UAAs permits local protein environments to be studied in a relatively nonperturbative fashion with site-specificity.
The X-ray crystal structures of two superfolder green fluorescent protein (sfGFP) constructs containing a genetically incorporated spectroscopic reporter unnatural amino acid, 4-nitro-l-phenylalanine (pNO 2 F), at two unique sites in the protein have been determined. Amber codon-suppression methodology was used to site-specifically incorporate pNO 2 F at a solvent-accessible (Asp133) and a partially buried (Asn149) site in sfGFP. The Asp133pNO 2 F sfGFP construct crystallized with two molecules per asymmetric unit in space group P3 2 21 and the crystal structure was refined to 2.05 Å resolution. Crystals of Asn149pNO 2 F sfGFP contained one molecule of sfGFP per asymmetric unit in space group P4 1 22 and the structure was refined to 1.60 Å resolution. The alignment of Asp133pNO 2 F or Asn149pNO 2 F sfGFP with wild-type sfGFP resulted in small root-mean-square deviations, illustrating that these residues do not significantly alter the protein structure and supporting the use of pNO 2 F as an effective spectroscopic reporter of local protein structure and dynamics.
Obscurin (720-900 kD) is a giant sarcomeric signaling protein that plays a crucial role in the arrangement of the basic contractile unit of muscle. Mutations to Obscurin and to Obscurin binding partners have been linked to human muscle diseases such as hypertrophic cardiomyopathies and muscular dystrophy. These diseases likely occur due to the rescindment of specific molecular interactions necessary for suitable function. The modular arrangement of the independently folding domains of Obscurin allows for select analysis of each of these independent binding events. Here, we present the high-resolution crystal structure of the Obscurin Ig2 domain. This region binds to the extreme Cterminus of MBPC-slow variant, although how it does this is unknown. This structure is a canonical Ig-like fold, consisting of two beta sheets coming together to form a beta sandwich.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.