Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-14A5; cyp-14A4; and cyp-14A3. In C. elegans, cyp-14A5 is involved in response to gamma radiation.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-25A6; cyp-25A4; and cyp-25A3.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-25A6; cyp-25A4; and cyp-25A3.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-14A5; cyp-14A4; and cyp-14A3. In C. elegans, cyp-14A5 is involved in response to gamma radiation.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-37B1. In C. elegans, cyp-37B1 is involved in defense response to Gram-positive bacterium.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-37B1. In C. elegans, cyp-37B1 is involved in defense response to Gram-positive bacterium.
Predicted to enable heme binding activity; iron ion binding activity; and oxidoreductase activity. Is an ortholog of C. elegans cyp-37B1. In C. elegans, cyp-37B1 is involved in defense response to Gram-positive bacterium.
Predicted to enable GTP binding activity and GTPase activity. Is an ortholog of C. elegans rab-35. In C. elegans, rab-35 is involved in endocytic recycling.