Pil Puerarin

July 13, 2017

reconstituted in the insect expression system in the absence of at least the p12 subunit. Maintaining high-fidelity chromosomal DNA replication is essential for the preservation of genomic integrity and avoidance of the mutations that can lead to disease. Mammalian cells respond to DNA damage by a host of defense mechanisms that include activation of cell cycle checkpoints and DNA repair mechanisms. Among these responses, it has been found that the p12 subunit is degraded when cells are subjected to DNA damage or replication stress, converting Pol d from the tetrameric form to the trimeric form consisting of the core+p68. These findings raise a number of questions about the buy MSC1936369B fundamental properties of the core enzyme and what contributions of the p12 and p68 subunits make to PCNA-dependent functions of Pol d in DNA replication. In this work, we describe the use of an expression system that allows the reconstitution of the core p125/p50 dimer, the core+p68 and the core+p12 in active forms. This has allowed us to compare the enzyme activities of Pol d and its subassemblies, as well as their binding affinities for PCNA, which has not been examined all together in the same experiments before. used for the transfection of insect cells for the generation of viral stocks. Preparation of bacmid DNAs and transfection of Sf9 cells were carried out according to protocols in the Bac-to-BacTM Baculoviorus Expression Systems Manual. Using the methods described in, each single subunit was inserted into the MCS1 multiple cloning site of pFBDM between the BamHI and XbaI sites to generate pFBDM-p125, pFBDM-p50, pFBDM-p68 and pFBDM-p12, respectively. The entire expression cassettes were then excised by PmeI and AvrII digestion and inserted into the multiplication module of a pFBDM derivative containing further gene via PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22190027 SpeI/BstZ17I sites. SpeI produces a cohesive end compatible with AvrII, while BstZ17I and PmeI are blunt-cutters. The involved restriction sites were eliminated in the process and multiplication was repeated iteratively using the module present in the inserted cassette. Thus, we constructed recombinant transfer vector pFBDM- and a set of subassemblies, pFBDM-, pFBDM-, pFBDM-, and pFBDM-. For viral stock preparation, constructed pFBDM derivatives were introduced into MultiBac baculoviral DNA in DH10MultiBacCre E. coli cells by Tn7 transposition. Isolated Bacmid DNAs from the white clones, identified by blue/white screening and PCR analysis, were transfected into Sf9 insect cells. Recombinant baculoviruses for the catalytic subunit p125, the Pol d core, the two trimers, and the holoenzyme were generated by this method. Plasmid Construction for His-tagged subunits The construction vectors for expression of His-tagged individual subunits was as previously described. For wild type Histagged p125 and p50, the full-length p125 or p50 cDNA sequence was inserted between the NdeI and BamHI sites of the pET33b vector, respectively. For wild type His-tagged p12, the full-length p12 cDNA sequence was inserted between the NdeI and BamHI sites of the pET15b vector. While for wild type His-tagged p68, the full-length p68 cDNA sequence was inserted between the NdeI and HindIII sites of the pTacTac vector with eight histidine residues added at its N terminus. Materials and Methods Materials All reagents and chemicals used in this study were purchased from Sigma-Aldrich, GE Healthcare, Gibco-BRL, and Invitrogen except as otherwise indicated. Sf9 cells were obta