Difference between revisions of "Part:BBa K1092005:Design"
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===Design Notes=== | ===Design Notes=== | ||
| − | We codon optimized laccase gene from Bacillus sp. HR03 | + | We codon optimized laccase gene from Bacillus sp. HR03. |
===Source=== | ===Source=== | ||
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===References=== | ===References=== | ||
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[1] Hadibarata, T. and Kristanti, R.A., 2012. identification of metabolites from benzo[a]pyrene oxidation by ligninolytic enzymes of polyporus sp. s133. journal of environmental management, 111(0), pp. 115-119. | [1] Hadibarata, T. and Kristanti, R.A., 2012. identification of metabolites from benzo[a]pyrene oxidation by ligninolytic enzymes of polyporus sp. s133. journal of environmental management, 111(0), pp. 115-119. | ||
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[2] Hadibarata, T., Teh, Z., Rubiyatno, Zubir, M., Khudhair, A., Yusoff, A., Salim, M. and Hidayat, T., 2013. identification of naphthalene metabolism by white rot fungus pleurotus eryngii. bioprocess and biosystems engineering, 36(10), pp. 1455-1461. | [2] Hadibarata, T., Teh, Z., Rubiyatno, Zubir, M., Khudhair, A., Yusoff, A., Salim, M. and Hidayat, T., 2013. identification of naphthalene metabolism by white rot fungus pleurotus eryngii. bioprocess and biosystems engineering, 36(10), pp. 1455-1461. | ||
| + | |||
[3] Mohammadian, M., Fathi-roudsari, M., Mollania, N., Badoei-dalfard, A., khajeh, k., 2010. enhanced expression of a recombinant bacterial laccase at low temperature and microaerobic conditions: purification and biochemical characterization. journal of industrial microbiology & biotechnology, 37(8), pp. 863-869. | [3] Mohammadian, M., Fathi-roudsari, M., Mollania, N., Badoei-dalfard, A., khajeh, k., 2010. enhanced expression of a recombinant bacterial laccase at low temperature and microaerobic conditions: purification and biochemical characterization. journal of industrial microbiology & biotechnology, 37(8), pp. 863-869. | ||
| + | |||
[4] Mollania, N., Khajeh, K., Ranjbar, B., Rashno, F., Akbari, N. and Fathi-roudsari, m., 2013. an efficient in vitro refolding of recombinant bacterial laccase in escherichia coli. enzyme and microbial technology, 52(6–7), pp. 325-330. | [4] Mollania, N., Khajeh, K., Ranjbar, B., Rashno, F., Akbari, N. and Fathi-roudsari, m., 2013. an efficient in vitro refolding of recombinant bacterial laccase in escherichia coli. enzyme and microbial technology, 52(6–7), pp. 325-330. | ||
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[5] Sharma, P., Goel, R. and Capalash, N., 2007. bacterial laccases. world journal of microbiology and biotechnology, 23(6), pp. 823-832. | [5] Sharma, P., Goel, R. and Capalash, N., 2007. bacterial laccases. world journal of microbiology and biotechnology, 23(6), pp. 823-832. | ||
| + | |||
[6] Zeng, J., Lin, X., Zhang, J., Zhu, H., Chen, H. and Wong, M., 2013. successive transformation of benzo[a]pyrene by laccase of trametes versicolor and pyrene-degrading mycobacterium strains. applied microbiology and biotechnology, 97(7), pp. 3183-3194. | [6] Zeng, J., Lin, X., Zhang, J., Zhu, H., Chen, H. and Wong, M., 2013. successive transformation of benzo[a]pyrene by laccase of trametes versicolor and pyrene-degrading mycobacterium strains. applied microbiology and biotechnology, 97(7), pp. 3183-3194. | ||
| + | |||
[7] Huang H., Cai R., Du Y., Zeng T., 1996. The automatic kinetic spectrophotometric assay for laccase activity usingo-phenylenediamine. Laboratory Robotics and Automation, 8(4), pp 231–235. | [7] Huang H., Cai R., Du Y., Zeng T., 1996. The automatic kinetic spectrophotometric assay for laccase activity usingo-phenylenediamine. Laboratory Robotics and Automation, 8(4), pp 231–235. | ||
Revision as of 04:07, 28 September 2013
T7-RBS-Laccase
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 1386
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 1547
Design Notes
We codon optimized laccase gene from Bacillus sp. HR03.
Source
Gene synthesis
References
[1] Hadibarata, T. and Kristanti, R.A., 2012. identification of metabolites from benzo[a]pyrene oxidation by ligninolytic enzymes of polyporus sp. s133. journal of environmental management, 111(0), pp. 115-119.
[2] Hadibarata, T., Teh, Z., Rubiyatno, Zubir, M., Khudhair, A., Yusoff, A., Salim, M. and Hidayat, T., 2013. identification of naphthalene metabolism by white rot fungus pleurotus eryngii. bioprocess and biosystems engineering, 36(10), pp. 1455-1461.
[3] Mohammadian, M., Fathi-roudsari, M., Mollania, N., Badoei-dalfard, A., khajeh, k., 2010. enhanced expression of a recombinant bacterial laccase at low temperature and microaerobic conditions: purification and biochemical characterization. journal of industrial microbiology & biotechnology, 37(8), pp. 863-869.
[4] Mollania, N., Khajeh, K., Ranjbar, B., Rashno, F., Akbari, N. and Fathi-roudsari, m., 2013. an efficient in vitro refolding of recombinant bacterial laccase in escherichia coli. enzyme and microbial technology, 52(6–7), pp. 325-330.
[5] Sharma, P., Goel, R. and Capalash, N., 2007. bacterial laccases. world journal of microbiology and biotechnology, 23(6), pp. 823-832.
[6] Zeng, J., Lin, X., Zhang, J., Zhu, H., Chen, H. and Wong, M., 2013. successive transformation of benzo[a]pyrene by laccase of trametes versicolor and pyrene-degrading mycobacterium strains. applied microbiology and biotechnology, 97(7), pp. 3183-3194.
[7] Huang H., Cai R., Du Y., Zeng T., 1996. The automatic kinetic spectrophotometric assay for laccase activity usingo-phenylenediamine. Laboratory Robotics and Automation, 8(4), pp 231–235.