Predicted to enable DNA-directed DNA polymerase activity. Involved in embryo development and error-prone translesion synthesis. Predicted to be located in nucleus. Is an ortholog of human POLK (DNA polymerase kappa).
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to be located in nucleus. Expressed in several structures, including P3.p hermaphrodite; P4.p hermaphrodite; P5.p hermaphrodite; P8.p hermaphrodite; and neurons.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.
Predicted to enable damaged DNA binding activity. Predicted to be involved in DNA repair. Is an ortholog of C. elegans polk-1. In C. elegans, polk-1 is involved in embryo development and error-prone translesion synthesis.