NanoLuc (NLuc) is an artificial coelenterazine-dependent luciferase generated from the deep-sea shrimp Oplophorus gracilirostris. Its peculiar properties─small size and long-lasting bright bioluminescence triggered with the synthetic substrate furimazine─have made this enzyme popular as a reporter in a variety of analytical systems. Basically, to ensure the assay specificity, NLuc is genetically fused to the polypeptide with affinity for the corresponding target. The approach, however, has a limitation for non-protein biospecific molecules, thus forcing the production of biospecific luciferase derivatives via chemical conjugation. Unfortunately, it yields a heterogeneous product and often results in the loss of a significant part of bioluminescence activity. Here, we report on NLuc site-directed conjugation by combining these two approaches: several luciferase derivatives, genetically extended with hexapeptides carrying a unique Cys residue, were obtained, and the variant with activity equal to that of the intact NLuc was found. Biospecific molecules of the most commonly used types (low-weight hapten, oligonucleotide, antibody, and DNA aptamer) were chemically attached to this NLuc variant through the unique Cys using an orthogonal conjugation approach. The resulting conjugates were tested as labels in the bioluminescence assay and were shown to detect the corresponding molecular targets (e.g., cardiac markers) with high sensitivity.