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You may include any references to papers as in: the use of JSmol in Proteopedia [1] or to the article describing Jmol [2] to the rescue.
Function of your protein
The function of this protein is an L-amino acid that involved in Staphylococcal sulfur amino acid
metabolism.
The role of this amino protein is that predominately catalyze the ATP Ligation of various carboxylate and amine substrates.
Biological relevance and broader implications
This paper focused on the biological aspect of this protein because the protein is found in bacteria. The essence of this protein to be understood as biological is due to the fact that it's a promising target for the development of antibiotics.
This protein is associated with gram-positive bacteria that are responsible for pathogens.
This protein is very important in the science world as a whole because it assists scientists in combating antibiotic resistance.
Important amino acids
The ligand for this molecule is ADP: ADENOSINE-5'-DIPHOSPHATE .
Structural highlights
These secondary structural features are important for stabilizing the overall structure of the LdmS protein and also play a role in protein interactions or ligand binding. For example, alpha helices form amphipathic surfaces that interact with lipid membranes or other proteins, while beta strands form beta sheets that provide structural rigidity and can also participate in hydrogen bonding with ligands.
The tertiary structure of the protein refers to the three-dimensional arrangement of its secondary structural elements as you can see here in the image and is determined by the interactions between amino acid side chains and the protein backbone.
The quaternary structure refers to the arrangement of multiple protein subunits into a larger complex and can play a role in modulating protein function. In this case, the presence of two subunits may enable cooperative binding of ligands or other proteins to the enzyme's active site.
Here is a space-filling view of the protein, which provides information about the three-dimensional arrangement of amino acid side chains and the overall shape of the protein. This can be important for understanding protein function, as certain domains or regions of the protein may be more exposed and accessible to ligands or other proteins. In this example, the cleft between the two subunits represents the active site of the enzyme, which may be important for substrate binding and catalysis. Additionally, the presence of large loops or domains on the surface of the protein may be indicative of regions that play a role in protein-protein interactions or signaling. To be specific two large loop regions in this paper are, the P-loop (Res. 175–186) and an N-terminal loop region, herein referred to as the N-loop (Res. 28–38).
This is a sample scene created with SAT to by Group, and another to make of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.
