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Cell-free synthesis and amino acid-selective stable isotope labeling of proteins for NMR analysis (1995)

Kigawa, Takanori ; Muto, Yutaka ; Yokoyama, Shigeyuki

Springer

Journal of biomolecular NMR 6 (1995), S. 129-134

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ISSN: 1573-5001

Keywords: Protein expression ; Cell-free protein synthesis ; Selective stable isotope labeling ; Ras protein

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary For the application of multidimensional NMR spectroscopy to larger proteins, it would be useful to perform selective labeling of one of the 20 amino acids. For some amino acids, however, amino acid metabolism drastically reduces the efficiency and selectivity of labeling in in vivo expression systems. In the present study, a cell-free protein synthesis system was optimized, so that highly efficient and selective stable isotope labeling of proteins can be achieved in the absence of amino acid metabolism. The productivity of the E. coli cell-free coupled transcription-translation system was first improved, by about fivefold, by using the T7 RNA polymerase for transcription and also by improving the translation conditions. Thus, about 0.1 mg protein per 1 ml reaction mixture was synthesized. Then, this improved cell-free system was used for Asp- or Ser-selective 15N-labeling of the human c-Ha-Ras protein. With a 15 ml cell-free reaction, using less than 1 mg of 15N-labeled amino acid, 1 mg of the Ras protein was obtained. 1H-15N HSQC experiments confirmed that the Ras protein was efficiently labeled with high selectivity. These results indicate that this cell-free protein synthesis system is useful for NMR studies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00211776

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An approach to global fold determination using limited NMR data from larger proteins selectively protonated at specific residue types (1996)

Smith, Brian O. ; Ito, Yutaka ; Raine, Andrew ; [et al.]

Springer

Journal of biomolecular NMR 8 (1996), S. 360-368

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ISSN: 1573-5001

Keywords: Isotope labelling ; Deuteration ; Resonance assignment ; Global fold ; Larger proteins ; ras p21

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary A combination of calculation and experiment is used to demonstrate that the global fold of larger proteins can be rapidly determined using limited NMR data. The approach involves a combination of heteronuclear triple resonance NMR experiments with protonation of selected residue types in an otherwise completely deuterated protein. This method of labelling produces proteins with α-specific deuteration in the protonated residues, and the results suggest that this will improve the sensitivity of experiments involving correlation of side-chain (1H and 13C) and backbone (1H and 15N) amide resonances. It will allow the rapid assignment of backbone resonances with high sensitivity and the determination of a reasonable structural model of a protein based on limited NOE restraints, an application that is of increasing importance as data from the large number of genome sequencing projects accumulates. The method that we propose should also be of utility in extending the use of NMR spectroscopy to determine the structures of larger proteins.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00410335

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Dual amino acid-selective and site-directed stable-isotope labeling of the human c-Ha-Ras protein by cell-free synthesis (1998)

Yabuki, Takashi ; Kigawa, Takanori ; Dohmae, Naoshi ; [et al.]

Springer

Journal of biomolecular NMR 11 (1998), S. 295-306

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ISSN: 1573-5001

Keywords: cell-free protein synthesis ; selective labeling ; site-directed labeling ; stable isotope

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract We developed two methods for stable-isotope labeling of proteins by cell-free synthesis. Firstly, we applied cell-free synthesis to the dual amino acid-selective 13C-15N labeling method, originally developed for in vivo systems by Kainosho and co-workers. For this purpose, we took one of the advantages of a cell-free protein synthesis system; the amino acid-selective stable-isotope labeling is free of the isotope scrambling problem. The targets of selective observation were Thr35 and Ser39 in the ‘effector region’ (residues 32–40) of the Ras protein complexed with the Ras-binding domain of c-Raf-1 (Raf RBD) (the total molecular mass is about 30 kDa). Using a 15-mL Escherichia coli cell-free system, which was optimized to produce about 0.4 mg of Ras protein per 1-mL reaction, with 2 mg each of DL-[13C′]proline and L-[15N]threonine, we obtained about 6 mg of Ras protein. As the Pro–Thr sequence is unique in the Ras protein, the Thr35 cross peak of the Ras•Raf RBD complex was unambiguously identified by the 2D 1H–15N HNCO experiment. The Ser39 cross peak was similarly identified with the [13C′]Asp/[15N]Ser-selectively labeled Ras protein. There were no isotope scrambling problems in this study. Secondly, we have established a method for producing a milligram quantity of site-specifically stable-isotope labeled protein by a cell-free system involving amber suppression. The E. coli amber suppressor tRNATyr_CUA (25 mg) was prepared by in vitro transcription with T7 RNA polymerase. We aminoacylated the tRNATyr_CUA transcript with purified E. coli tyrosyl-tRNA synthetase, using 2 mg of l-[15N]tyrosine. In the gene encoding the Ras protein, the codon for Tyr32 was changed to an amber codon (TAG). This template DNA and the [15N]Tyr-tRNATyr_CUA were reacted for 30 min in 30 mL of E. coli cell-free system. The subsequent purification yielded 2.2 mg of [15N]Tyr32-Ras protein. In the 1H–15N HSQC spectrum of the labeled Ras protein, only one cross peak was observed, which was unambiguously assigned to Tyr32.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008276001545

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