Purification and Characterization of NAD-Dependent n-Butanol Dehydrogenase from Solvent-Tolerant n-Butanol-Degrading Enterobacter sp. VKGH12 |
Veeranagouda, Y.
(Department of Biochemistry, Gulbarga University)
Benndorf, Dirk (Department of Bioremediation, UFZ - Helmholtz Centre for Environmental Research Leipzig-Halle) Heipieper, Hermann J. (Department of Bioremediation, UFZ - Helmholtz Centre for Environmental Research Leipzig-Halle) Karegoudar, T.B. (Department of Biochemistry, Gulbarga University) |
1 | EPA. 1994. Chemicals in the Environment: 1-Butanol. Environmental Protection Agency, Office of Pollution Prevention and Toxics, Washington DC |
2 | Grit, Z., T. Schraderr, and J. R. Andreesen. 1997. Degradation of tetrahydrofurfuryl alcohol by Ralstonia eutropha is initiated by an inducible pyrroloquinoline quinone-dependent alcohol dehydrogenase. Appl. Microbiol. Biotechnol. 63: 4891-4898 |
3 | Neumann, G., Y. Veeranagouda, T. B Karegoudar, O. Sahin, I. Mausezahl, N. Kabelitz, U. Kappelmeyer, and H. J. Heipieper. 2005. Cells of Pseudomonas and Enterobacter sp. adapt to the presence of toxic organic compounds by increasing their cell size. Extremophiles 9: 63-68 |
4 | Ramos, J. L., M. T. Gallegos, S. Marques, M. I. Ramos- Gonzalez, M. Espinosa-Urgel, and A. Segura. 2001. Responses of Gram-negative bacteria to certain environmental stresses. Curr. Opin. Microbiol. 4: 166-171 DOI ScienceOn |
5 | Singer, M. E. and W. R. Finnerty. 1985. Alcohol dehydrogenase in Acinetobacter sp. strain H01-N: Role in hexadecane and hexadecanol metabolism. J. Bacteriol. 164: 1017-1024 |
6 | Alisa, V. S., J. D. Arp, and L. A. Sayavedra-Soto. 2002. Two distinct alcohol dehydrogenases participate in butane metabolism by Pseudomonas butanovora. J. Bacteriol. 184: 1916-1924 DOI ScienceOn |
7 | Anthony, C. 1993. Methanol dehydrogenase in Gram-negative bacteria, pp. 17-45. In V. L. Davidson (ed.), Principles and Applications of Quinoproteins. Marcel Dekker, Inc., New York, N.Y. |
8 | Ashraf, W. and J. C. Murrell. 1992. Genetic, biochemical and immunological evidence for the involvement of two alcohol dehydrogenases in the metabolism of propane by Rhodococcus rhodochrous PNKb1. Arch. Microbiol. 157: 488-492 |
9 | Beardmore-Gray, M. and C. Anthony. 1986. The oxidation of glucose by Acinetobacter calcoaceticus: Interaction of the quinoprotein glucose dehydrogenase with the electron transport chain. J. Gen. Microbiol. 132: 1257-1268 |
10 | Matsushita, K., H. Toyama, and O. Adashi. 1994. Respiratory chains and bioenergetics of acetic acid bacteria. Adv. Microbiol. Physiol. 36: 247-301 DOI |
11 | Beers, P. J. 1988. The diversity of alcohol dehydrogenases in Pseudomonas butanovora and their role in alkane metabolism. MSc thesis, University of Warwick |
12 | Madyastha, K. M. and T. L. Gururaja. 1995. Purification and some properties of a novel secondary alcohol dehydrogenase from Alcaligenes eutrophus. Biochem. Biophys. Res. Commun. 211: 540-546 DOI ScienceOn |
13 | Jendrossek, D., N. Kruger, and A. Steinbuchel. 1990. Characterization of alcohol dehydrogenase genes of derepressible wild-type Alcaligenes eutrophus H16 and constitutive mutants. J. Bacteriol. 172: 4844-4851 DOI |
14 | Coleman, J. P. and J. J. Perry. 1985. Purification and characterization of the secondary alcohol dehydrogenase from propane-utilizing Mycobacterium vaccae strain JOB5. J. Gen. Microbiol. 131: 2901-2907 |
15 | Shim, E. J., J. Sang-hoon, and K. Kwang-Hoon. 2003. Overexpression, purification, and biochemical characterization of the thermostable NAD-dependent alcohol dehydrogenase from Bacillus stearothermophilus. J. Microbiol. Biotechnol. 13: 738- 744 |
16 | Shevchenko, A., M. Wilm, O. Vorm, and M. Mann. 1996. Mass spectrometric sequencing of proteins from silver-stained polyacrylamide gels. Anal. Chem. 68: 850-858 DOI ScienceOn |
17 | Toyama, H. A., K. Fujii, E. Matsushita, M. Shinagawa, and A. O. Ameyama. 1995. Three distinct quinoprotein alcohol dehydrogenases are expressed when Pseudomonas putida is grown on different alcohols. J. Bacteriol. 177: 2442-2450 DOI |
18 | Ashraf, W. and J. C. Murrell. 1990. Purification and characterization of a -dependent secondary alcohol dehydrogenase from propane-grown Rhodococcus rhodochrous PNKb1. Arch. Microbiol. 153: 163-168 DOI |
19 | Lowry, O. H., M. J. Rosebrough, A. Farr, and R. J. Randall. 1951. Protein measurement with folin phenol reagent. J. Biol. Chem. 193: 265-275 |
20 | Veeranagouda, Y., T. B. Karegoudar, G. Neumann, and H. J. Heipieper. 2006. Enterobacter sp. VKGH12 growing with nbutanol as sole carbon source and cells to which the alcohol is added as pure toxin show great differences in their adaptive responses. FEMS Microbiol. Lett. 254: 48-54 DOI ScienceOn |
21 | Anthony, C. 1998. The pyrroloquinoline quinone (PQQ)-containing quinoprotein dehydrogenases. Biochem. Soc. Trans. 26: 413- 417 DOI |
22 | Sikkema, J., B. J. De Bont, and B. Poolman. 1995. Mechanisms of membrane toxicity of hydrocarbons. Microbiol. Rev. 59: 201- 222 |
23 | Veeranagouda, Y., M. H. Vijaykumar, P. K. Neelakanteshwar, S. N. Anand, and T. B. Karegoudar. 2006. Degradation of 1-butanol by solvent tolerant Enterobacter sp. VKGH12. Int. Biodeterior. Biodegradation 57: 186-189 DOI ScienceOn |
24 | Alisa, V. S. and J. D Arp. 2001. An inducible 1-butanol dehydrogenase, a quinohaemoprotein, is involved in the oxidation of butane by Pseudomonas butanovora. Microbiology 147: 745- 756 DOI |