M.T. Liskov scite author profile

We have synthesized the unnatural amino acid (UAA), 4-azidomethyl-Lphenylalanine (pN3CH2Phe), to serve as an effective vibrational reporter of local protein environments. The position, extinction coefficient, and sensitivity to local environment of the azide asymmetric stretch vibration of pN3CH2Phe are compared to the vibrational reporters: 4-cyano-L-phenylalanine (pCNPhe) and 4-azido-L-phenylalanine (pN3Phe). This UAA was genetically incorporated in a site-specific manner utilizing an engineered, orthogonal aminoacyl-tRNA synthetase in response to an amber codon with high efficiency and fidelity into two distinct sites in superfolder green fluorescent protein (sfGFP). This allowed for the dependence of the azide asymmetric stretch vibration of pN3CH2Phe to different protein environments to be measured. The photo-stability of pN3CH2Phe was also measured relative to the photoreactive UAA, pN3Phe.

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Expanding the Utility of 4-Cyano-l-Phenylalanine As a Vibrational Reporter of Protein Environments

Bazewicz

Lipkin

Smith

et al. 2012

J. Phys. Chem. B

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The ability to genetically incorporate amino acids modified with spectroscopic reporters site-specifically into proteins with high efficiency and fidelity has greatly enhanced the ability to probe local protein structure and dynamics. Here, we have synthesized the unnatural amino acid (UAA), 4-cyano-L-phenylalanine (pCNPhe), containing the nitrile vibrational reporter and three isotopomers ((15)N, (13)C, (13)C(15)N) of this UAA to enhance the ability of pCNPhe to study local protein environments. Each pCNPhe isotopic variant was genetically incorporated in an efficient, site-specific manner into superfolder green fluorescent protein (sfGFP) in response to an amber codon with high fidelity utilizing an engineered, orthogonal aminoacyl-tRNA synthetase. The isotopomers of 4-cyano-L-phenylalanine permitted the nitrile symmetric stretch vibration of these UAAs to be unambiguously assigned utilizing the magnitude and direction of the isotopic shift of this vibration. The sensitivity of the nitrile symmetric stretching frequency of each isotopic variant to the local environment was measured by individually incorporating the probes into two distinct local environments of sfGFP. The UAAs were also utilized in concert to probe multiple local environments in sfGFP simultaneously to increase the utility of 4-cyano-L-phenylalanine.

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Expanding the Utility of 4-Cyano-L-Phenylalanine as a Vibrational Reporter of Protein Environments

Bazewicz

Liskov

Hines

et al. 2013

Biophysical Journal

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We present a number of theoretical results concerning the properties of and differences amongst several red fluorescent proteins (RFPs). RFPs are an extraordinarily useful group of fluorescent proteins that fluoresce at red-shifted wavelengths compared to GFP, thereby extending the color palette of fluorescent proteins for use in applications like FRET and multi-channel imaging. This redder fluorescence is caused by the extension of the pi-conjugated chain through oxidation of a second backbone bond of either Phenylalanine or Isoleucine, depending on the particular RFP. Our work has focused on the RFPs mCherry, mPlum, and DsRed, which share a common chromophore. Since these RFPs share a chromophore, differences in their photophysical properties must be due to differences in their chromophore environments. We performed a series of 100 ns molecular dynamics simulations followed by ZINDO semiempirical quantum mechanical calculations in an effort to explore variables such as excitation wavelength, quantum yield, and photostability in these RFPs. The ZINDO calculations were performed on MD simulation frames at 1 ps resolution. This fine resolution allowed for the observation of rare conformational states that suggest reasons for the known differences in quantum yield amongst the proteins. Notably, the electric field contributions from every nonchromophore protein atom and ion, and the~14,000 simulation cell water molecules, were used as a perturbation in the ZINDO calculations, which allowed us to query the electrostatic environmental influence on the chromophore.

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Probing the effectiveness of spectroscopic reporter unnatural amino acids: a structural study

Dippel

Olenginski

Maurici

et al. 2016

Acta Cryst Sect D Struct Biol

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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.

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sfGFP mutant - 149 p-cyano-L-phenylalanine

Dippel¹,

Olenginski²,

Maurici³

et al. 2016

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M.T. Liskov

Sensitive, Site-Specific, and Stable Vibrational Probe of Local Protein Environments: 4-Azidomethyl-l-Phenylalanine

Expanding the Utility of 4-Cyano-l-Phenylalanine As a Vibrational Reporter of Protein Environments

Expanding the Utility of 4-Cyano-L-Phenylalanine as a Vibrational Reporter of Protein Environments

Probing the effectiveness of spectroscopic reporter unnatural amino acids: a structural study

sfGFP mutant - 149 p-cyano-L-phenylalanine

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