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  • Title: RNA ligase reaction products in plasmolyzed Escherichia coli cells infected by T4 bacteriophage.
    Author: David M, Vekstein R, Kaufmann G.
    Journal: Proc Natl Acad Sci U S A; 1979 Nov; 76(11):5430-4. PubMed ID: 392502.
    Abstract:
    Searching for a physiological role of T4 RNA ligase [polyribonucleotide synthetase (ATP); poly(ribonucleotide):poly(ribonucleotide) ligase (AMP-forming), EC 6.5.1.3] activity, we developed an acellular system of plasmolyzed Escherichia coli cells infected by T4 bacteriophage. Upon incubation of this system with [gamma-32P]ATP, 32P was transferred into a large number of polyribonucleotides, mostly up to 300-400 residues long. The bulk of 32P in the product polyribonucleotides was found in 5'-terminal phosphate groups, suggesting that they originated by a phosphorylation reaction catalyzed by the endogenous polynucleotide kinase (EC 2.7.1.78). Indeed, these products were not seen in an acellular system from uninfected cells, and their amount and complexity increased with the progress of infection. Analysis of the 32P-labeled polyribonucleotide products by gel electrophoresis, either before or after digestion with alkaline phosphatase (EC 3.1.3.1), revealed that a small fraction of the 32P resided in phosphodiester bonds of several tRNA-sized chains. This specific 32P transfer from [gamma-32P]ATP into phosphodiester bonds was apparently catalyzed by successive polynucleotide kinase and RNA ligase reactions. The possible relationship of the 32P transfer to RNA ligase was investigated next by using a system from cells infected with T4 am M69 (an amber mutant deficient in RNA ligase). Transfer of 32P from [gamma-32P]ATP into phosphodiester bonds was not detected in the am M69 system. However, addition of purified RNA ligase to the am M69 system restored the specific 32P transfer. A system from cells infected with T4 psu-b delta 33 (a deletion mutant lacking the entire tRNA region) sustained the specific 32P transfer into tRNA-sized products, indicating that they were not derived from transcripts of T4 tRNA genes. These data may reflect a role of RNA ligase in posttranscriptional conversion of presumably host polyribonucleotides into novel tRNA species during T4 infection.
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