Post-translational modification

PTMs involving addition of functional groups

Addition by an enzyme ''in vivo''

Hydrophobic groups for membrane localization

• myristoylation, attachment of myristate, a C₁₄ saturated acid
• palmitoylation, attachment of palmitate, a C₁₆ saturated acid
• isoprenylation or prenylation, the addition of an isoprenoid group
• * farnesylation
• * geranylgeranylation
• glipyatyon, glycosylphosphatidylinositol anchor formation via an amide bond to C-terminal tail

  Cofactors for enhanced enzymatic activity

• lipoylation, attachment of a lipoate functional group
• flavin moiety may be covalently attached
• heme C attachment via thioether bonds with cysteines
• phosphopantetheinylation, the addition of a 4'-phosphopantetheinyl moiety from coenzyme A, as in fatty acid, polyketide, non-ribosomal peptide and leucine biosynthesis
• retinylidene Schiff base formation

  Modifications of translation factors

• diphthamide formation
• ethanolamine phosphoglycerol attachment
• hypusine formation and aIF5A )
• beta-Lysine addition on a conserved lysine of the elongation factor P in most bacteria. EFP is a homolog to eIF5A and aIF5A .

  Smaller chemical groups

• acylation, e.g. O-acylation, N-acylation, S-acylation
• * acetylation, the addition of an acetyl group, either at the N-terminus of the protein or at lysine residues. See also histone acetylation. The reverse is called deacetylation.
• * formylation
• alkylation, the addition of an alkyl group, e.g. methyl, ethyl
• * methylation the addition of a methyl group, usually at lysine or arginine residues. The reverse is called demethylation.
• amidation at C-terminus. Formed by oxidative dissociation of a C-terminal Gly residue.
• amide bond formation
• * amino acid addition
• ** arginylation, a tRNA-mediation addition
• ** polyglutamylation, covalent linkage of glutamic acid residues to the N-terminus of tubulin and some other proteins.
• ** polyglycylation, covalent linkage of one to more than 40 glycine residues to the tubulin C-terminal tail
• butyrylation
• gamma-carboxylation dependent on Vitamin K
• glycosylation, the addition of a glycosyl group to either arginine, asparagine, cysteine, hydroxylysine, serine, threonine, tyrosine, or tryptophan resulting in a glycoprotein. Distinct from glycation, which is regarded as a nonenzymatic attachment of sugars.
• *O-GlcNAc, addition of N-acetylglucosamine to serine or threonine residues in a β-glycosidic linkage
• *polysialylation, addition of polysialic acid, PSA, to NCAM
• malonylation
• hydroxylation: addition of an oxygen atom to the side-chain of a Pro or Lys residue
• iodination: addition of an iodine atom to the aromatic ring of a tyrosine residue
• nucleotide addition such as ADP-ribosylation
• phosphate ester or phosphoramidate formation
• * phosphorylation, the addition of a phosphate group, usually to serine, threonine, and tyrosine, or histidine
• * adenylylation, the addition of an adenylyl moiety, usually to tyrosine, or histidine and lysine
• * uridylylation, the addition of an uridylyl-group, usually to tyrosine
• propionylation
• pyroglutamate formation
• S-glutathionylation
• S-nitrosylation
• S-sulfenylation, reversible covalent addition of one oxygen atom to the thiol group of a cysteine residue
• S-sulfinylation, normally irreversible covalent addition of two oxygen atoms to the thiol group of a cysteine residue
• S-sulfonylation, normally irreversible covalent addition of three oxygen atoms to the thiol group of a cysteine residue, resulting in the formation of a cysteic acid residue
• succinylation addition of a succinyl group to lysine
• sulfation, the addition of a sulfate group to a tyrosine.

  Non-enzymatic additions ''in vivo''

• glycation, the addition of a sugar molecule to a protein without the controlling action of an enzyme.
• carbamylation the addition of Isocyanic acid to a protein's N-terminus or the side-chain of Lys.
• carbonylation the addition of carbon monoxide to other organic/inorganic compounds.
• spontaneous isopeptide bond formation, as found in many surface proteins of Gram-positive bacteria.

  Non-enzymatic additions ''in vitro''

• biotinylation: covalent attachment of a biotin moiety using a biotinylation reagent, typically for the purpose of labeling a protein.
• carbamylation: the addition of Isocyanic acid to a protein's N-terminus or the side-chain of Lys or Cys residues, typically resulting from exposure to urea solutions.
• oxidation: addition of one or more Oxygen atoms to a susceptible side-chain, principally of Met, Trp, His or Cys residues. Formation of disulfide bonds between Cys residues.
• pegylation: covalent attachment of polyethylene glycol using a pegylation reagent, typically to the N-terminus or the side-chains of Lys residues. Pegylation is used to improve the efficacy of protein pharmaceuticals.

  Other proteins or peptides

• ISGylation, the covalent linkage to the ISG15 protein
• SUMOylation, the covalent linkage to the SUMO protein
• ubiquitination, the covalent linkage to the protein ubiquitin.
• neddylation, the covalent linkage to Nedd
• pupylation, the covalent linkage to the prokaryotic ubiquitin-like protein

  Chemical modification of amino acids

• citrullination, or deimination, the conversion of arginine to citrulline
• deamidation, the conversion of glutamine to glutamic acid or asparagine to aspartic acid
• eliminylation, the conversion to an alkene by beta-elimination of phosphothreonine and phosphoserine, or dehydration of threonine and serine

  Structural changes

• disulfide bridges, the covalent linkage of two cysteine amino acids
• proteolytic cleavage, cleavage of a protein at a peptide bond
• isoaspartate formation, via the cyclisation of asparagine or aspartic acid amino-acid residues
• racemization
• * of serine by protein-serine epimerase
• * of alanine in dermorphin, a frog opioid peptide
• * of methionine in deltorphin, also a frog opioid peptide
• protein splicing, self-catalytic removal of inteins analogous to mRNA processing

  Statistics

Common PTMs by frequency

Common PTMs by residue

Databases and tools

List of resources

• PhosphoSitePlus – A database of comprehensive information and tools for the study of mammalian protein post-translational modification
• ProteomeScout – A database of proteins and post-translational modifications experimentally
• Human Protein Reference Database – A database for different modifications and understand different proteins, their class, and function/process related to disease causing proteins
• PROSITE – A database of Consensus patterns for many types of PTM’s including sites
• Protein Information Resource – A database to acquire a collection of annotations and structures for PTMs.
• dbPTM – A database that shows different PTM's and information regarding their chemical components/structures and a frequency for amino acid modified site
• has PTM information although that may be less comprehensive than in more specialized databases.

  Tools

• PyMOL – introduce a set of common PTM's into protein models
• AWESOME – Interactive tool to see the role of single nucleotide polymorphisms to PTM's
• Chimera – Interactive Database to visualize molecules

  Case examples

• Cleavage and formation of disulfide bridges during the production of insulin
• PTM of histones as regulation of transcription: RNA polymerase control by chromatin structure
• PTM of RNA polymerase II as regulation of transcription
• Cleavage of polypeptide chains as crucial for lectin specificity

  Addiction