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- <li> Crystal Violet assay </li> As shown in the crystal violet assay in the characterization section of pRha+CsgA & pTet+RFP (<a hr9 KB (1,377 words) - 22:50, 18 September 2015
- ...ice crystal and follow an adsorption-inhibition mechanism, preventing ice crystal growth. Its function is allowed by two main properties: thermal hysteresis ...ce crystal blocking ice crystal growth along the c-axis and protecting the crystal from growth down to lower freezing temperatures (10).4 KB (624 words) - 22:00, 26 October 2020
- The N-terminal domain of ice crystal nucleoprotein (INP-N) can carry passenger proteins and anchor on the surfac ===Application of ice crystal nucleoprotein and cell surface display technology===11 KB (1,749 words) - 06:50, 21 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup13 KB (2,018 words) - 23:23, 21 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup11 KB (1,772 words) - 16:03, 11 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup13 KB (2,014 words) - 23:07, 21 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup11 KB (1,753 words) - 13:39, 20 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup13 KB (2,018 words) - 23:25, 21 October 2021
- ...ister K, DeVries AL, Duman JG, Guo S, Bakker HJ, et al. Blocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteins. Proc Natl ...ss, AFPs are believed to attach irreversibly to the plane of a growing ice crystal. As the protein adsorbs to the growing ice plane, growth at the site is sup11 KB (1,755 words) - 13:55, 20 October 2021
- ...will bind to eilOc and inhibit the translation of the downstream gene. If crystal violet is present, it will primarily bind to EilR and change its structure940 B (142 words) - 11:49, 8 October 2022
- ...can reflect the degradation effect of the protein on AHLs. The results of crystal violet staining show that AidH and AidH A147G/AidH A147V have good degradat <h4>2. 96-well microtiter plate assay (Crystal violet staining of biofilms)[3]</h4>13 KB (2,057 words) - 03:26, 12 October 2023
- In genetic and biochemical studies as well as through the crystal structure it has been shown, that the carboxy-terminal domain of the cI pro [1] S. Stayrook, P. Jaru-Ampornpan, J. Ni, A. Hochschild, M. Lewis, Crystal structure of the lambda repressor and a model for pairwise cooperative oper9 KB (1,423 words) - 16:17, 10 May 2013
- ...mes such as change in pH, excipient damage/crystallization, as well as ice crystal formation. Therefore, there exists a need for a method of stabilization. Su ...sphate chemicals. We have shown the active site in the OPH protein, in its crystal dimer form. </p>7 KB (1,072 words) - 00:46, 11 October 2022
- 2)</b> crystal violet staining of biofilm formed on polystyrene in 24 wells-plates, <b></b ...in order to stain the cells and the wells were washed with water to remove crystal violet in excess (<a href="https://static.igem.org/mediawiki/2014/e/ef/Crys12 KB (1,871 words) - 02:49, 18 October 2014
- 2)</b> crystal violet staining of biofilm formed on polystyrene in 24 wells-plates, <b></b ...in order to stain the cells and the wells were washed with water to remove crystal violet in excess (<a href="https://static.igem.org/mediawiki/2014/e/ef/Crys12 KB (1,878 words) - 02:49, 18 October 2014
- 2)</b> crystal violet staining of biofilm formed on polystyrene in 24 wells-plates, <b></b ...in order to stain the cells and the wells were washed with water to remove crystal violet in excess (<a href="https://static.igem.org/mediawiki/2014/e/ef/Crys12 KB (1,884 words) - 02:49, 18 October 2014
- Crystal Violet Assay ...al violet is incubated with the culture, the supernatant is removed, bound crystal violet is mobilised with an acetic acid solution and the absorption is dete1 KB (229 words) - 23:41, 2 November 2014
- Crystal Violet Assay ...al violet is incubated with the culture, the supernatant is removed, bound crystal violet is mobilised with an acetic acid solution and the absorption is dete1 KB (234 words) - 23:17, 2 November 2014
- <li> Crystal Violet assay </li> As shown in the crystal violet assay in the characterization section of pRha+CsgA & pTet+RFP (<a hr15 KB (2,322 words) - 22:44, 18 September 2015
- <li> Crystal Violet assay </li> <h4> Crystal violet assay </h4>9 KB (1,337 words) - 21:54, 18 September 2015