Table 5.
Comparisons of enzymatic properties of Lip54q with several lipolytic enzymes also derived from compost habitats.
| Lipolytic enzymes | Optimal pH | pH stability | Optimaltemperature | Thermostability | Optimal substrates | Family of lipolytic enzymes | References |
|---|---|---|---|---|---|---|---|
| Lip54q | 9 | pH 8.0–11.0 for 6 h, the residual activity ≥40% |
47°C | ≤50°C for 5 h, the residual activity >75% |
C10 | VIII | This study |
| Est13L | 10 | ND | 40°C | The half-life at 60 ° C was 3.2 min | C6 | VIII | Park et al. (2021) |
| EstCS3 | 8 | Stable within the pH range of 7.0–10.0 | 55°C | ND | C4 | VIII | Park et al. (2020b) |
| Est2 | 9 | pH = 10, the residual activity = 20% |
70°C | 50°C for 5 d, the residual activity = 52% |
C5 | VIII | Lu et al. (2019) |
| Est8L | 9 | ND | 40°C | The half-life at 50 ° C was 3.2 min | C4 | IV | Park et al. (2021) |
| EstCS1 | 8 | ND | 50°C | ND | C3 and C6 | IV | Park et al. (2020a) |
| Est56 | 8 | pH 6.0–8.0 for 24 h, | 50°C | 50°C for 0.5 h, | C4 | IV | Lu and Daniel (2021) |
| the residual activity >90% | the residual activity =50% | ||||||
| Est1 | 7 | pH = 10, the residual activity = 10% |
80°C | 50°C for 7 d, the residual activity>80% |
C4 | V | Lu et al. (2019) |
ND: no detected.