Difference between revisions of "Part:BBa K4090002"
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===References=== | ===References=== | ||
| − | [1]Hale, L. V., Ma, Y. F. & Santerre, R. F. Semi-quantitative fuorescence analysis of calcein binding as a measurement of in vitro mineralization. Calcif. Tissue Int. 67, 80–84 (2000).Ramachandran S K, | + | [1]Hale, L. V., Ma, Y. F. & Santerre, R. F. Semi-quantitative fuorescence analysis of calcein binding as a measurement of in vitro mineralization. Calcif. Tissue Int. 67, 80–84 (2000).Ramachandran S K, <br> |
| − | [2]Dick J, Windt W D, Graef B D, et al. Bio-deposition of a calcium carbonate layer on degraded limestone by Bacillus species[J].Biodegradation,2016(4):357-367. | + | [2]Dick J, Windt W D, Graef B D, et al. Bio-deposition of a calcium carbonate layer on degraded limestone by Bacillus species[J].Biodegradation,2016(4):357-367.<br> |
[3]Qian C X, Chen H C, Ren L F, et al. Self-healing of early age cracks in cement-based materials by mineralization of carbonic anhydrase microorganism[J].Frontiers in Microbiology,2015(6):1-9. | [3]Qian C X, Chen H C, Ren L F, et al. Self-healing of early age cracks in cement-based materials by mineralization of carbonic anhydrase microorganism[J].Frontiers in Microbiology,2015(6):1-9. | ||
Revision as of 10:16, 17 October 2021
Mfp5
Mfp5 is a kind of mineralized protein that helps to form hydroxycalcium phosphate.
Data
Sequence and Features
Assembly Compatibility:
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BamHI site found at 73
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
References
[1]Hale, L. V., Ma, Y. F. & Santerre, R. F. Semi-quantitative fuorescence analysis of calcein binding as a measurement of in vitro mineralization. Calcif. Tissue Int. 67, 80–84 (2000).Ramachandran S K,
[2]Dick J, Windt W D, Graef B D, et al. Bio-deposition of a calcium carbonate layer on degraded limestone by Bacillus species[J].Biodegradation,2016(4):357-367.
[3]Qian C X, Chen H C, Ren L F, et al. Self-healing of early age cracks in cement-based materials by mineralization of carbonic anhydrase microorganism[J].Frontiers in Microbiology,2015(6):1-9.