Table 2.
Microbial metal bioavailability assays.
| Promotera (origin) | Element | Reporter geneb | Host | Linear response (µM) | Time of induction | Reference |
|---|---|---|---|---|---|---|
| arsB | As3+ | blaZ | Staphylococcus aureus | 1–10 | 60 min | Ji and Silver (1992) |
| As5+ | 10–100 | |||||
| Bi | 100–1000 | |||||
| Sb | 0.2–1 | |||||
| As | luxAB (V. fischeri) | E. coli | 0.01–1 | 120 min | Cai and Dubow (1997) | |
| arsR | As | lucFF(Firefly) | E. coli | 0.01–1 | 8 h | Hakkila et al. (2002) |
| As | luxCDABE (V. fischeri) | 0.01–1 | ||||
| As | lacZ | E. coli | 0.1–100 | 30 min | Ramanathan et al. (1998) | |
| Sb | 0.005–10 | |||||
| As3+ | lucFF (Firefly) | E. coli | 0.033–1 | 90 min | Tauriainen et al. (1999) | |
| As5+ | 33–33 000 | |||||
| Cd | 10–10 000 | |||||
| Sb | 0.1–100 | |||||
| As | luxAB (V. fischeri) | E. coli | 0.1–0.8 | 60 min | Stocker et al. (2003) | |
| As | luxAB (V. fischeri) | E. coli | 0.1–0.4 | Trang et al. (2005) | ||
| As | gfp (A. Victoria) | E. coli | 0.13–133 | 12 h | Roberto et al. (2002) | |
| arsR (E. coli) | As | lucGR (P. plagiophthalamus) | P. fluorescens | 0.1–10 | 120 min | Petanen et al. (2001) |
| arsR | Cd | lucFF (Firefly) | S. aureus | 0.5–5 | 120 min | Tauriainen et al. (1997) |
| Sb | 0.1–10 | |||||
| As3+ | gfp (A. Victoria) | E. coli | 0.4–25 | 120 min | Liao and Ou (2005) | |
| As5+ | 1–50 | |||||
| Sb | 0.75–8 | |||||
| arsRD | As3+ | lacZ | E. coli | 0.5–100 | 17 h | Scott et al. (1997) |
| Sb | 0.1–10 | |||||
| cadAC | Cd | blaZ | S. aureus | 0.5–100 | 90 min | Yoon et al. (1991) |
| cadC (S. aureus) | Cd | lucFF (Firefly) | Bacillus subtilis | 0.003–0.1 | 180 min | Tauriainen et al. (1998) |
| Pb | 1–10 | |||||
| Sb | 0.033–3.3 | |||||
| Sn | 33–1000 | |||||
| Zn | 1–33 | |||||
| Cd | gfp (A. Victoria) | E. coli | 0.0001–500 | 120 min | Liao et al. (2006) | |
| Pb | 0.01–10 | |||||
| Sb | 0.0001–10 | |||||
| chrB | Cr | lacZ | C. metallidurans | 0.001–50 | 8 h | Peitzsch et al. (1998) |
| chrB | Cr3+ | luxCDABE (V. fischeri) | C. metallidurans | 5–80 | 90 min | Corbisier et al. (1999) |
| Cr6+ | 2.5–40 | |||||
| chrAB | Cr3+ | lucFF (Firefly) | C. metallidurans | 2–100 | 120 min | Ivask et al. (2002) |
| Cr6+ | 0.04–1 | |||||
| cnrXYH | Co | luxDABE (V. fischeri) | C. metallidurans | 9–400 | 16 h | Tibazarwa et al. (2001) |
| Ni | 0.1–60 | |||||
| copA | Ag | luxCDABE (V. fischeri) | E. coli | 0.3–3 | 80 min | Riether et al. (2001) |
| Cu | 3–30 | |||||
| Ag | lucFF (Firefly) | E. coli | 0.003–0.3 | 120 min | Hakkila et al. (2004) | |
| Cu | 0.3–300 | |||||
| copBC | Cu | luxAB (V. fischeri) | P. fluorescens | 1–100 | 180 min | Tom‐Petersen et al. (2001) |
| copSRA | Cu | luxCDABE (V. fischeri) | C. metallidurans | 1–200 | 90 min | Corbisier et al. (1999) |
| cup1 | Cu | gfp (A. Victoria) | Saccharomyces cerevisiae | 0.5–5000 | 120 min | Shetty et al. (2002) |
| isiAB | Fe | luxAB (V. fischeri) | Synechococcus | 0.001–1 | 12 h | Boyanapalli et al. (2007) |
| fliC | Al | LuxAB (Vibrio harveyi) | E. coli | 40–400 | 20 min | Guzzo et al. (1992) |
| katG | Cd | luxCDABE (V. fischeri) | E. coli | 2–35 | 90 min | Ben‐Israel et al. (1998) |
| merR (Shigella flexneri) | Cd | lucFF (Firefly) | E. coli | 1–100 | 60 min | Virta et al. (1995) |
| Hg | lucFF (Firefly) | 10−9–0.01 | ||||
| merR | Hg | gfp (A. Victoria) | E. coli | 0.005–0.5 | 8 h | Hakkila et al. (2002) |
| Hg | l lucFF (Firefly) | 0.005–0.1 | ||||
| Hg | luxCDABE (V. fischeri) | 0.0001–0.1 | ||||
| Cd | lucFF (Firefly) | P. fluorescens | 1–10 | 120 min | Petanen et al. (2001) | |
| Hg | 10−5–0.1 | |||||
| merRB | Cd | lucFF (Firefly) | E. coli | 0.27–80 | 120 min | Ivask et al. (2002) |
| Hg | 0.1–15 | |||||
| Zn | 1380–4000 | |||||
| Hg | lucFF (Firefly) | E. coli | 0.0002–0.01 | 120 min | Ivsak et al. (2001) | |
| merRT | Hg | luxCDABE (V. fischeri) | E. coli | 0.005–0.5 | 40 min | Selifonova et al. (1993) |
| Hg | luxCDABE (V. fischeri) | Vibrio anguillarum | 2.5 × 10−6–5 × 10−5 | 80 min | Golding et al. (2002) | |
| merRTPA (Pseudomonas stutzeri) | Hg | luxCDABE (V fischeri) | E. coli | 0.00005–0.0005 | Pepi et al. (2006) | |
| pbrR | Pb | luxCDABE (V. fischeri) | C. metallidurans | 500–5000 | 180 min | Corbisier et al. (1999) |
| pvd | Fe | gfp (A. Victoria) | Pseudomonas syringae | 0.1–100 | Overnight | Joyner and Steven (2000) |
| smtA | Zn | luxCDABE (V fischeri) | Synechococcus | 0.5–4 | 240 min | Huckle et al. (1993) |
| zntA | Cd | lacZ | E. coli | 0.0001–0.1 | 120 min | Shetty et al. (2003) |
| Cd | Red‐shifted gfp (A. Victoria) | 0.1–10 | ||||
| Pb | lacZ | 0.0001–0.1 | ||||
| Pb | Red‐shifted gfp (A. Victoria) | 0.1–10 | ||||
| Cd | luxCDABE (V. fischeri) | E. coli | 0.01–0.33 | 80 min | Riether et al. (2001) | |
| Zn | 3–30 | |||||
| Cr6+ | 30–300 | |||||
| Hg | 1–30 | |||||
| Pb | 0.03–1 | |||||
| Cd | lacZ | E. coil | 0.2–10 | 60 min | Biran et al. (2000) | |
| zntR | Cd | lucFF (Firefly) | E. coli | 0.05–30 | 120 min | Ivask et al. (2002) |
| Hg | 0.01–1 | |||||
| Zn | 40–15 000 |
a.
Unless mentioned otherwise, the source of the promoter is the host bacterium.
b.
Unless mentioned otherwise, the source of the reporter gene(s) is the host bacterium.