The bacteriophage phi 29 DNA polymerase, involved both in the protein-primed initiation and elong... more The bacteriophage phi 29 DNA polymerase, involved both in the protein-primed initiation and elongation steps of the viral DNA replication, displays a very processive 3',5'-exonuclease activity acting preferentially on single-stranded DNA. This exonucleolytic activity showed a marked preference for excision of a mismatched versus a correctly paired 3' terminus. These characteristics enable the phi 29 DNA polymerase to act as a proofreading enzyme. A comparative analysis of the wild-type phi 29 DNA polymerase and a mutant lacking 3',5'-exonuclease activity indicated that a productive coupling between the exonuclease and polymerase activities is necessary to prevent fixation of polymerization errors. Based on these data, the phi 29 DNA polymerase, a model enzyme for protein-primed DNA replication, appears to share the same mechanism for the editing function as that first proposed for T4 DNA polymerase and Escherichia coli DNA polymerase I on the basis of functional and structural studies.
The cloning and complete sequencing of gene 2 from four independently isolated temperature-sensit... more The cloning and complete sequencing of gene 2 from four independently isolated temperature-sensitive mutants in the phage phi 29 DNA polymerase (ts2 mutants) is reported. The results obtained indicate that, in vivo, the mutations only affect the initial steps of the replication process. Interestingly, three of these mutations consist in the single amino acid change Ala to Val at position 492 of the protein. The ts2(24) and ts2(98) mutant phi 29 DNA polymerases were expressed, purified and their thermosensitivity was studied at two different steps of DNA replication: 1) protein-primed initiation and 2) elongation of the DNA chain. Whereas the ts2(24) mutation gave rise to a temperature-sensitive phenotype in both reactions, the ts2(98) mutant protein was rather insensitive to the temperature increase. In addition, the ts2(98) mutant protein showed clear differences in the activation by divalent cations. The relationship of these results with structural and functional domains in the p...
Mesenchymal stem cells (MSCs) possess unique paracrine and immunosuppressive properties, which ma... more Mesenchymal stem cells (MSCs) possess unique paracrine and immunosuppressive properties, which make them useful candidates for cellular therapy. Here, we address how cellular senescence influences the therapeutic potential of human MSCs (hMSCs). Senescence was induced in bone marrow-derived hMSC cultures with gamma irradiation. Control and senescent cells were tested for their immunoregulatory activity in vitro and in vivo, and an extensive molecular characterization of the phenotypic changes induced by senescence was performed. We also compared the gene expression profiles of senescent hMSCs with a collection of hMSCs used in an ongoing clinical study of Graft Versus Host disease (GVHD). Our results show that senescence induces extensive phenotypic changes in hMSCs and abrogates their protective activity in a murine model of LPS-induced lethal endotoxemia. Although senescent hMSCs retain an ability to regulate the inflammatory response on macrophages in vitro, and, in part retain t...
The bacteriophage phi 29 DNA polymerase, involved both in the protein-primed initiation and elong... more The bacteriophage phi 29 DNA polymerase, involved both in the protein-primed initiation and elongation steps of the viral DNA replication, displays a very processive 3',5'-exonuclease activity acting preferentially on single-stranded DNA. This exonucleolytic activity showed a marked preference for excision of a mismatched versus a correctly paired 3' terminus. These characteristics enable the phi 29 DNA polymerase to act as a proofreading enzyme. A comparative analysis of the wild-type phi 29 DNA polymerase and a mutant lacking 3',5'-exonuclease activity indicated that a productive coupling between the exonuclease and polymerase activities is necessary to prevent fixation of polymerization errors. Based on these data, the phi 29 DNA polymerase, a model enzyme for protein-primed DNA replication, appears to share the same mechanism for the editing function as that first proposed for T4 DNA polymerase and Escherichia coli DNA polymerase I on the basis of functional and structural studies.
The cloning and complete sequencing of gene 2 from four independently isolated temperature-sensit... more The cloning and complete sequencing of gene 2 from four independently isolated temperature-sensitive mutants in the phage phi 29 DNA polymerase (ts2 mutants) is reported. The results obtained indicate that, in vivo, the mutations only affect the initial steps of the replication process. Interestingly, three of these mutations consist in the single amino acid change Ala to Val at position 492 of the protein. The ts2(24) and ts2(98) mutant phi 29 DNA polymerases were expressed, purified and their thermosensitivity was studied at two different steps of DNA replication: 1) protein-primed initiation and 2) elongation of the DNA chain. Whereas the ts2(24) mutation gave rise to a temperature-sensitive phenotype in both reactions, the ts2(98) mutant protein was rather insensitive to the temperature increase. In addition, the ts2(98) mutant protein showed clear differences in the activation by divalent cations. The relationship of these results with structural and functional domains in the p...
Mesenchymal stem cells (MSCs) possess unique paracrine and immunosuppressive properties, which ma... more Mesenchymal stem cells (MSCs) possess unique paracrine and immunosuppressive properties, which make them useful candidates for cellular therapy. Here, we address how cellular senescence influences the therapeutic potential of human MSCs (hMSCs). Senescence was induced in bone marrow-derived hMSC cultures with gamma irradiation. Control and senescent cells were tested for their immunoregulatory activity in vitro and in vivo, and an extensive molecular characterization of the phenotypic changes induced by senescence was performed. We also compared the gene expression profiles of senescent hMSCs with a collection of hMSCs used in an ongoing clinical study of Graft Versus Host disease (GVHD). Our results show that senescence induces extensive phenotypic changes in hMSCs and abrogates their protective activity in a murine model of LPS-induced lethal endotoxemia. Although senescent hMSCs retain an ability to regulate the inflammatory response on macrophages in vitro, and, in part retain t...
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Papers by Antonio Bernad