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  • Title: Autocatalytic processing of the 223-kDa protein of blueberry scorch carlavirus by a papain-like proteinase.
    Author: Lawrence DM, Rozanov MN, Hillman BI.
    Journal: Virology; 1995 Feb 20; 207(1):127-35. PubMed ID: 7871721.
    Abstract:
    The first open reading frame of the blueberry scorch carlavirus (BBScV) genome encodes a putative replication-associated protein of 223 kDa (p223). A pulse-chase analysis of viral RNA translated in vitro in rabbit reticulocyte lysate revealed that p223 was proteolytically processed. Using a full-length ORF 1 cDNA clone in a coupled in vitro transcription/translation reaction, we confirmed that the ORF 1 gene product of BBScV processes autocatalytically. From sequence alignments with phylogenetically related viruses, including tymoviruses, we predicted that p223 contained a papain-like proteinase domain with a putative catalytic cysteine994 and histidine1075. A second possible proteinase domain, which contained cysteine895 and histidine984 residues with similar spacing but was otherwise less similar to the viral papain-like proteinases, was identified immediately upstream of the predicted catalytic site. The cleavage site of the proteinase was predicted to be between the putative helicase and the polymerase domains, possibly between or close to glycine1472 and alanine1473. Supporting these predictions, deletion of the 2091 nucleotides encoding the C-terminal region of p223, which contained the putative RNA polymerase domain and the putative cleavage site of the polyprotein, abolished autoproteolysis. Deletion of the 2061 nucleotides encoding the N-terminal region, which contained the putative methyltransferase domain, did not affect autoproteolysis. Alteration of cysteine994, histidine1075, or glycine1472 abolished autoproteolysis in vitro, supporting the involvement of these residues at the catalytic site and cleavage site. Alteration of the upstream cysteine895 and histidine984 residues did not affect processing in vitro. Capped BBScV full-length transcripts containing mutations in the codons for either cysteine994 or histidine1075 were not infectious in the systemic host plants Chenopodium quinoa and C. amaranticolor, whereas alteration of glycine1472 signficantly decreased but did not abolish infectivity. Transcripts containing mutations in the codons for either cysteine895 or histidine984 also were infectious, but resulted in delayed symptom expression in plants.
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