Elucidation of kinetic mechanisms of human translesion DNA polymerase [kappa] using tryptophan mutants
To investigate the conformational dynamics of human DNA polymerase [kappa] (hpol [kappa]), we generated two mutants, Y50W (N-clasp region) and Y408W (linker between the thumb and little finger domains), using a Trp-null mutant (W214Y/W392H) of the hpol [kappa] catalytic core enzyme. These mutants re...
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description | To investigate the conformational dynamics of human DNA polymerase [kappa] (hpol [kappa]), we generated two mutants, Y50W (N-clasp region) and Y408W (linker between the thumb and little finger domains), using a Trp-null mutant (W214Y/W392H) of the hpol [kappa] catalytic core enzyme. These mutants retained catalytic activity and similar patterns of selectivity for bypassing the DNA adduct 7,8-dihydro-8-oxo-2'-deoxyguanosine, as indicated by the results of steady-state and pre-steady-state kinetic experiments. Stopped-flow kinetic assays with hpol [kappa] Y50W and T408W revealed a decrease in Trp fluorescence with the template G:dCTP pair but not for any mispairs. This decrease in fluorescence was not rate-limiting and is considered to be related to a conformational change necessary for correct nucleotidyl transfer. When a free 3'-hydroxyl was present on the primer, the Trp fluorescence returned to the baseline level at a rate similar to the observed kcat, suggesting that this change occurs during or after nucleotidyl transfer. However, polymerization rates (kpol) of extended-product formation were fast, indicating that the slow fluorescence step follows phosphodiester bond formation and is rate-limiting. Pyrophosphate formation and release were fast and are likely to precede the slower relaxation step. The available kinetic data were used to fit a simplified minimal model. The extracted rate constants confirmed that the conformational change after phosphodiester bond formation was rate-limiting for hpol [kappa] catalysis with the template G:dCTP pair. [PUBLICATION ABSTRACT] |
doi_str_mv | 10.1111/febs.12947 |
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These mutants retained catalytic activity and similar patterns of selectivity for bypassing the DNA adduct 7,8-dihydro-8-oxo-2'-deoxyguanosine, as indicated by the results of steady-state and pre-steady-state kinetic experiments. Stopped-flow kinetic assays with hpol [kappa] Y50W and T408W revealed a decrease in Trp fluorescence with the template G:dCTP pair but not for any mispairs. This decrease in fluorescence was not rate-limiting and is considered to be related to a conformational change necessary for correct nucleotidyl transfer. When a free 3'-hydroxyl was present on the primer, the Trp fluorescence returned to the baseline level at a rate similar to the observed kcat, suggesting that this change occurs during or after nucleotidyl transfer. However, polymerization rates (kpol) of extended-product formation were fast, indicating that the slow fluorescence step follows phosphodiester bond formation and is rate-limiting. Pyrophosphate formation and release were fast and are likely to precede the slower relaxation step. The available kinetic data were used to fit a simplified minimal model. The extracted rate constants confirmed that the conformational change after phosphodiester bond formation was rate-limiting for hpol [kappa] catalysis with the template G:dCTP pair. 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These mutants retained catalytic activity and similar patterns of selectivity for bypassing the DNA adduct 7,8-dihydro-8-oxo-2'-deoxyguanosine, as indicated by the results of steady-state and pre-steady-state kinetic experiments. Stopped-flow kinetic assays with hpol [kappa] Y50W and T408W revealed a decrease in Trp fluorescence with the template G:dCTP pair but not for any mispairs. This decrease in fluorescence was not rate-limiting and is considered to be related to a conformational change necessary for correct nucleotidyl transfer. When a free 3'-hydroxyl was present on the primer, the Trp fluorescence returned to the baseline level at a rate similar to the observed kcat, suggesting that this change occurs during or after nucleotidyl transfer. However, polymerization rates (kpol) of extended-product formation were fast, indicating that the slow fluorescence step follows phosphodiester bond formation and is rate-limiting. Pyrophosphate formation and release were fast and are likely to precede the slower relaxation step. The available kinetic data were used to fit a simplified minimal model. The extracted rate constants confirmed that the conformational change after phosphodiester bond formation was rate-limiting for hpol [kappa] catalysis with the template G:dCTP pair. 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These mutants retained catalytic activity and similar patterns of selectivity for bypassing the DNA adduct 7,8-dihydro-8-oxo-2'-deoxyguanosine, as indicated by the results of steady-state and pre-steady-state kinetic experiments. Stopped-flow kinetic assays with hpol [kappa] Y50W and T408W revealed a decrease in Trp fluorescence with the template G:dCTP pair but not for any mispairs. This decrease in fluorescence was not rate-limiting and is considered to be related to a conformational change necessary for correct nucleotidyl transfer. When a free 3'-hydroxyl was present on the primer, the Trp fluorescence returned to the baseline level at a rate similar to the observed kcat, suggesting that this change occurs during or after nucleotidyl transfer. However, polymerization rates (kpol) of extended-product formation were fast, indicating that the slow fluorescence step follows phosphodiester bond formation and is rate-limiting. Pyrophosphate formation and release were fast and are likely to precede the slower relaxation step. The available kinetic data were used to fit a simplified minimal model. The extracted rate constants confirmed that the conformational change after phosphodiester bond formation was rate-limiting for hpol [kappa] catalysis with the template G:dCTP pair. [PUBLICATION ABSTRACT]</abstract><cop>Oxford</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1111/febs.12947</doi></addata></record> |
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title | Elucidation of kinetic mechanisms of human translesion DNA polymerase [kappa] using tryptophan mutants |
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