Sandbox Reserved 1562
From Proteopedia
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== Function and Bioligical Relevance == | == Function and Bioligical Relevance == | ||
| - | Bap1 is one of the major extracellular matrix proteins found in the bacterium ''Vibrio Cholerae'' and functions in biofilm architecture and surface attachment. ''V. Cholerae'' is involved in the progression of cholera. Bap1 is composed of two domains, a β-propeller domain, and a β-prism domain. The main role of the protein is to bind citrate and carbohydrates, which occurs in the binding pocket of the β-prism domain. | + | Bap1 is one of the major extracellular matrix proteins along with RbmA and RbmC. These proteins are found in the bacterium ''Vibrio Cholerae'' and functions in biofilm architecture and surface attachment. ''V. Cholerae'' is involved in the progression of cholera. Bap1 is composed of two domains, a β-propeller domain, and a β-prism domain. The main role of the protein is to bind citrate and carbohydrates, which occurs in the binding pocket of the β-prism domain. |
== Implications == | == Implications == | ||
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Bap1 is a two-domain assembly which is made up of an eight-bladed β-propeller interrupted by a β-prism domain. The β-propeller domain is the larger of the two domains while the β-prism is the smaller of the two. The β-propeller is composed of 8 β-sheets with 3 greek keys present in between β-sheets 5 and 6 of the propeller. It is believed the lectin binding site is in the β-prism domain. | Bap1 is a two-domain assembly which is made up of an eight-bladed β-propeller interrupted by a β-prism domain. The β-propeller domain is the larger of the two domains while the β-prism is the smaller of the two. The β-propeller is composed of 8 β-sheets with 3 greek keys present in between β-sheets 5 and 6 of the propeller. It is believed the lectin binding site is in the β-prism domain. | ||
| - | <scene name='82/823086/ | + | <scene name='82/823086/Important_aa/1'>Key Amino Acids in Binidng Site</scene> |
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| + | There has not been a catalytic triad found for Bap1, but several amino acids are believed to play a role in the binding of citrate and carbohydrates. There are 6 amino acids believed to bind carbohydrates: Gly-344, Ala-345, Val-346 Asp-348, His-500, and Lys-501. With the exception of His-500, the other amino acids are structurally the same as the binding site of carbohydrates in RbmC. The binding site for citrate and carbohydrates is at the end of the β-prism which has a positively charged, <scene name='82/823086/Lys_in_active_site/1'>lysine-rich central cavity</scene>. | ||
<scene name='82/823086/Ligand_bap1/1'>Metal Binding Sites</scene> | <scene name='82/823086/Ligand_bap1/1'>Metal Binding Sites</scene> | ||
The metal-binding sites in Bap1 are believed to only have a structural purpose and little to no effect on the function of the protein. | The metal-binding sites in Bap1 are believed to only have a structural purpose and little to no effect on the function of the protein. | ||
| - | '''Catalytic Triad''' | ||
| - | There has not been a catalytic triad found for Bap1. | ||
== Energy Transformation == | == Energy Transformation == | ||
Revision as of 04:50, 9 December 2019
| This Sandbox is Reserved from Aug 26 through Dec 12, 2019 for use in the course CHEM 351 Biochemistry taught by Bonnie_Hall at the Grand View University, Des Moines, USA. This reservation includes Sandbox Reserved 1556 through Sandbox Reserved 1575. |
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Biofilm Associated Protein 1 (Bap1)
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