Role of Protein Charge Density on Hepatitis B Virus Capsid Formation. Academic Article

abstract

• The role of electrostatic interactions in the viral capsid assembly process was studied by comparing the assembly process of a truncated hepatitis B virus capsid protein Cp149 with its mutant protein D2N/D4N, which has the same conformational structure but four fewer charges per dimer. The capsid protein self-assembly was investigated under a wide range of protein surface charge densities by changing the protein concentration, buffer pH, and solution ionic strength. Lowering the protein charge density favored the capsid formation. However, lowering charge beyond a certain point resulted in capsid aggregation and precipitation. Interestingly, both the wild-type and D2N/D4N mutant displayed identical assembly profiles when their charge densities matched each other. These results indicated that the charge density was optimized by nature to ensure an efficient and effective capsid proliferation under the physiological pH and ionic strength.

authors

• Wei, Yinan

published proceedings

• ACS Omega

altmetric score

• 0.5

author list (cited authors)

• Sun, X., Li, D., Wang, Z., Yin, P., Hu, R., Li, H., ... Liu, T.

citation count

• 8

complete list of authors

• Sun, Xinyu||Li, Dong||Wang, Zhaoshuai||Yin, Panchao||Hu, Rundong||Li, Hui||Liu, Qiao||Gao, Yunyi||Ren, Baiping||Zheng, Jie||Wei, Yinan||Liu, Tianbo

publication date

• April 2018

publisher

• American Chemical Society (ACS)  Publisher

published in

• ACS Omega  Journal

keywords

• 2 Aetiology
• 2.2 Factors Relating To The Physical Environment
• 3 Good Health And Well Being
• Digestive Diseases
• Hepatitis
• Infectious Diseases
• Liver Disease

PubMed Central ID

• 31458664

Digital Object Identifier (DOI)

• 10.1021/acsomega.8b00021

start page

• 4384

end page

• 4391

volume

• 3

issue

• 4

URL

• http://dx.doi.org/10.1021/acsomega.8b00021