== Function of your Protein == the protein Epa1ACBL2Epa9–Galb1-4Glc is from Candida glabrata, which is a human fungal pathogen. . The protein is a receptor. It interacts with calcium ions, chloride ions, and sodium ions.
== Biological relevance and broader implications == The protein is associated with the fungus Candida Glabrata. It is a natural yeast fungus that, if it enters the bloodstream, can have life-threatening complications for people with suppressed or weakened immune systems. The protein is important to study because it can help to determine how diverse structural hot spots effect host cell binding and ligand binding specificity.
== Important amino acids == the ligands play a vital role in the protein because they give signals that determine the specificity of how the protein binds.
the protein lacks a cataytic triad as it is a lectin and lacks enzymatic activity
Structural highlights
alpha helix in red, beta strand in yellow, turn in purple, coil/loop in white
the spacefill view of the protein allows for a view of the intermolecular forces in the protein and to be able to see the size of the protein. Can also see where the ligands bind to the receptor areas in the protein
The macromolecule content of the protein shows that it has a total structure weight of 29.92 kDa, the residue count is 232, and it has one unique protein chain., The A chains of the protein has a sequence length of 262. The protein has 4 helices. There are 14 parts to the beta strand. the ligands each bind to the protein through ionic bonding.
Other important features
the protein contains structural motifs that it has in common with other proteins of the epa family. it also shares motif loops such as CBL2, and DcisD. these are both structural loops of the protein. CBL2 is important for determining ligand binding specificity. many of the motifs are used to maintain protein structure.
The protein interacts with other proteins of its protein family. these interactions are important because they allow for larger protein interactions.
The dimerization interface of the protein which allows for it to make larger structure is important because it allows for the protein to stabilize its structure.
