Genetically-encoded nanosensor for quantitative monitoring of methionine in bacterial and yeast cells

Biosensors and Bioelectronics

Volumn 59, Issue , 2014, Pages 358-364

  Mohsin, Mohd ^a   Ahmad, Altaf ^a  

^a HAMDARD UNIVERSITY   (India)

Author keywords

Fluorescence resonance energy transfer; Fluorescent proteins; Genetically encoded nanosensor; Imaging; Methionine

Indexed keywords

BACTERIA; BIOTECHNOLOGY; ENERGY TRANSFER; ESCHERICHIA COLI; FLUORESCENCE; IMAGING TECHNIQUES; METABOLIC ENGINEERING; METABOLITES; NANOSENSORS; PH EFFECTS; PROTEINS;

CYAN FLUORESCENT PROTEIN; ESCHERICHIA COLI (E. COLI); FLUORESCENCE RESONANCE ENERGY TRANSFER; FLUORESCENT PROTEIN; INDUSTRIAL BIOTECHNOLOGY; METHIONINE; QUANTITATIVE MONITORING; YELLOW FLUORESCENT PROTEINS;

AMINO ACIDS;

ADENOSINE TRIPHOSPHATASE; BACTERIAL PROTEIN; CYAN FLUORESCENT PROTEIN; ESCHERICHIA COLI PROTEIN; GREEN FLUORESCENT PROTEIN; METHIONINE; METN PROTEIN, E COLI; PHOTOPROTEIN; RECOMBINANT PROTEIN; YELLOW FLUORESCENT PROTEIN, BACTERIA;

CHEMICAL STRUCTURE; ESCHERICHIA COLI; FLUORESCENCE RESONANCE ENERGY TRANSFER; GENETIC PROCEDURES; GENETICS; METABOLISM; MOLECULAR CLONING; PROCEDURES; PROTEIN ENGINEERING; SACCHAROMYCES CEREVISIAE;

ADENOSINE TRIPHOSPHATASES; BACTERIAL PROTEINS; BIOSENSING TECHNIQUES; CLONING, MOLECULAR; ESCHERICHIA COLI; ESCHERICHIA COLI PROTEINS; FLUORESCENCE RESONANCE ENERGY TRANSFER; GREEN FLUORESCENT PROTEINS; LUMINESCENT PROTEINS; METHIONINE; MODELS, MOLECULAR; PROTEIN ENGINEERING; RECOMBINANT PROTEINS; SACCHAROMYCES CEREVISIAE;

EID: 84899014842     PISSN: 09565663     EISSN: 18734235     Source Type: Journal    
DOI: 10.1016/j.bios.2014.03.066     Document Type: Article

References (38)

1. Bailey J.E. Science 1991, 252:1668-1674.
2. Bellamy M.F., McDowell I.F.W., Ramsey M.W., Brownlee M., Bones C., Newcombe R.G., Lewis M.J. Circulation 1998, 98:1848-1852.
3. Bennett B.D., Kimball E.H., Gao M., Osterhout R., Van-Dien S.J., Rabinowitz J.D. Nat. Chem. Biol. 2009, 5:593-599.
4. Bogner M., Ludewig U. J. Fluoresc. 2007, 17:350-360.
5. Burkovski, A., 2008. Caister Academic Press, Norfolk UK.
6. Burkovski A., Kramer R. Appl. Microbiol. Biotechnol. 2002, 58:265-274.
7. Café M.B., Waldroup P.W. Int. J. Poult. Sci. 2006, 5:1008-1015.
8. de Lorimier R.M., Smith J.J., Dwyer M.A., Looger L.L., Sali K.M., Paavola C.D., Rizk S.S., Sadigov S., Conrad D.W., Loew L., Hellinga H.W. Protein Sci. 2002, 11:2655-2675.
9. Deuschle K., Fehr M., Hilpert M., Lager I., Lalonde S., Looger L.L., Okumoto S., Persson J., Schmidt A., Frommer W.B. Cytom. A 2005, 64:3-9.
10. Eggeling L. Basic Biotechnology 2001, 281-303. Cambridge University Press, London. C. Ratledge, B. Kristiansen (Eds.).
11. Eggeling, L., Bott, M., 2005. Academic Press, Inc., Boca Raton, FL.
12. Fehr M., Frommer W.B., Lalonde S. Proc. Natl. Acad. Sci. USA 2002, 99:9846-9851.
13. Fehr M., Lalonde S., Lager I., Wolff M.W., Frommer W.B. J. Biol. Chem. 2003, 278:19127-19133.
14. Fendt S.M., Buescher J.M., Rudroff F., Picotti P., Zamboni N., Sauer U. Mol. Syst. Biol. 2010, 6:356.
15. Gruenwald K., Holland J.T., Stromberg V., Ahmad A., Watcharakichkorn D., Okumoto S. PLoS One 2012, 7:e38591.
16. Gu H., Lalonde S., Okumoto S., Looger L.L., Scharff-Poulsen A.M., Grossman A.R., Kossmann J., Jakobsen I., Frommer W.B. FEBS Lett. 2006, 580:5885-5893.
17. Honda A., Adams S.R., Sawyer C.L., Lev-Ram V., Tsien R.Y., Dostmann W.R. Proc. Natl. Acad. Sci. USA 2001, 98:2437-2442.
18. Ikeda M. Adv. Biochem. Eng. Biotechnol. 2003, 79:1-35.
19. Kadaba N.S., Kaiser J.T., Johnson E., Lee A., Rees D.C. Science 2008, 321:250-253.
20. Kaper T., Lager I., Looger L.L., Chermak D., Frommer W.B. Biotechnol. Biofuels 2008, 1:11.
21. Kaper T., Looger L.L., Takanaga H., Platten M., Steinman L., Frommer W.B. PLoS Biol. 2007, 5:2201-2210.
22. Lager I., Fehr M., Frommer W.B., Lalonde S. FEBS Lett. 2003, 553:85-89.
23. Lidstrom M.E., Konopka M.C. Nat. Chem. Biol. 2010, 6:705-712.
24. Ma S.M., Li J.W.H., Choi J.W., Zhou H., Lee K.K.M., Moorthie V.A., Xie X., Kealey J.T., Da Silva N.A., Vederas J.C., Tang Y. Science 2009, 326:589-592.
25. Mato J.M., Martinez-Chantar M.L., Lu S.C. Ann. Rev. Nutr. 2008, 28:273-293.
26. Michener J.K., Thodey K., Liang J.C., Smolke C.D. Metab. Eng. 2012, 4:212-222.
27. Miyawaki A., Llopis J., Heim R., McCaffery J.M., Adams J.A., Ikura M., Tsien R.Y. Nature 1997, 388:882-887.
28. Mohsin M., Abdin M.Z., Nischal L., Kardam H., Ahmad A. Biosens. Bioelectron. 2013, 50:72-77.
29. Mustafi N., Grunberger A., Kohlheyer D., Bott M., Frunzke J. Metab. Eng. 2012, 14:449-457.
30. Okumoto S., Looger L.L., Micheva K.D., Reimer R.J., Smith S.J., Frommer W.B. Proc. Natl. Acad. Sci. USA 2005, 102:8740-8745.
31. Orij R., Postmus J., Beek A.T., Brul S., Smits G.J. Microbiology 2009, 155:268-278.
32. Park S.D., Lee J.Y., Sim S.Y., Kim Y., Lee H.S. Metab. Eng. 2007, 9:327-336.
33. Sreekumar A., Poisson L.M., Rajendiran T.M., Khan A.P., Cao Q., Yu J., Laxman B., Mehra R., Lonigro R.J., Li Y., Nyati M.K., Ahsan A., Kalyana-Sundaram S., Han B., Cao X., Byun J., Omenn G.S., Ghosh D., Pennathur S., Alexander D.C., Berger A., Shuster J.R., Wei J.T., Varambally S., Beecher C., Chinnaiyan A.M. Nature 2009, 457:910-914.
34. Tabe L.M., Wardley-Richardson T., Ceriotti A., Aryan A., McNabb W., Moore A., Higgins T.J. J. Anim. Sci. 1995, 73:2752-2759.
35. Tang B., Mustafa A., Gupta S., Melnyk S., James S.J., Kruger W.D. Nutrition 2010, 26:1170-1175.
36. Xu S., Harrison J., Chalupa W., Sniffen C., Julien W., Sato H., Fujieda T., Watanabe K., Ueda T., Suzuki H. J. Dairy Sci. 1998, 81:1062-1077.
37. Yadav V.G., Mey M.D., Lim C.G., Ajikumar P.K., Stephanopoulos G. Metab. Eng. 2012, 14:233-241.
38. Zhang J., Campbell R.E., Ting A.Y., Tsien R.Y. Nat. Rev. Mol. Cell Biol. 2002, 3:906-918.