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Rescue of protein splicing activity from a Magnetospirillum magnetotacticum intein-like element

2004; Portland Press; Volume: 32; Issue: 2 Linguagem: Inglês

10.1042/bst0320250

1470-8752

Maurice W. Southworth, Jian Yin, Francine B. Perler,

RNA Research and Splicing

The self-catalytic protein splicing mechanism is mediated by the intein plus the first amino acid following the intein C-terminus (termed the +1 residue). Although polymorphisms of conserved residues elsewhere in inteins have been widely reported, no splicing-competent intein has been observed without a Ser, Thr or Cys in this functionally essential +1 position. This residue is the nucleophile in two steps of the protein splicing pathway: ligation of the extein fragments during transesterification and formation of a peptide bond between the exteins by an acyl rearrangement. An intein-like element in a hypothetical protein (gene Magn8951) from Magnetospirillum magnetotacticum has all intein signature sequences except the +1 residue, where it has a Tyr. Although the Tyr side-chain hydroxyl can potentially mediate the transesterification reaction, an acyl shift has never been observed with this residue. When the activities of this bacterial intein-like element were studied, protein splicing was not observed and N-terminal cleavage predominated. Mutation of Tyr+1 to Phe or Ala indicated that the Tyr side-chain hydroxyl was not necessary for N-terminal cleavage. Protein splicing activity could be rescued by "reversion" of Tyr+1 to Cys.