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The CHAP domain contains two invariant residues, a cysteine and a histidine. These residues form part of the putative active site of CHAP domain containing proteins. Secondary structure predictions show that the CHAP domain belongs to the alpha + beta structural class, with the N-terminal half largely containing predicted alpha helices and the ...
The two thioether linkages are typically made by cysteine residues of the protein. These linkages do not allow the heme C to easily dissociate from the holoprotein , cytochrome c , compared with the more easily dissociated heme B that may dissociate from the holoprotein, the heme-protein complex, even under mild conditions.
In molecular biology, palmitoylation is the covalent attachment of fatty acids, such as palmitic acid, to cysteine (S-palmitoylation) and less frequently to serine and threonine (O-palmitoylation) residues of proteins, which are typically membrane proteins. [2] The precise function of palmitoylation depends on the particular protein being ...
Inside the cell, disulfide bridges between cysteine residues within a polypeptide support the protein's tertiary structure. Insulin is an example of a protein with cystine crosslinking, wherein two separate peptide chains are connected by a pair of disulfide bonds.
Papain-like proteases share a common catalytic dyad active site featuring a cysteine amino acid residue that acts as a nucleophile. [1] The human genome encodes eleven cysteine cathepsins which have a broad range of physiological functions. [3] In some parasites papain-like proteases have roles in host invasion, such as cruzipain from ...
They are localized to the membrane of the Golgi apparatus. MTs have the capacity to bind both physiological (such as zinc, copper, selenium) and xenobiotic (such as cadmium, mercury, silver, arsenic, lead) heavy metals through the thiol group of its cysteine residues, which represent nearly 30% of its constituent amino acid residues. [2]
The formation of disulfide bonds from cysteine residues may also be referred to as a post-translational modification. [3] For instance, the peptide hormone insulin is cut twice after disulfide bonds are formed, and a propeptide is removed from the middle of the chain; the resulting protein consists of two polypeptide chains connected by ...
This is made possible by a 21 kDa inner membrane protein, called DsbB, which has two pairs of cysteine residues. A mixed disulfide is formed between a cysteine residue of DsbB and one of DsbA. Eventually, this cross-link between the two proteins is broken by a nucleophilic attack of the second cystein residue in the DsbA active site.