https://www.selleckchem.com/products/bay-1161909.html However, the expression of phaC2 did not lead to PHBV synthesis. Moreover, PhaC, PhaC1, and PhaC3 exhibited distinct substrate specificity as the 3HV content in PHBV copolymers was different. The EMSA result showed that PPS-like protein might be a negative regulator of phaC1 gene by binding to its promoter region. Taken together, PhaC1 had the most pronounced effect on PHBV synthesis in ΔEPSΔpps-like geneΔphaC mutant and deletion of pps-like gene released the negative effect from phaC1 expression and thereby restored PHBV accumulating ability in ΔphaC mutant. KEY POINTS • Cryptic phaC genes were activated by pps-like gene deletion. • PPS-like protein probably regulated phaC1 expression by binding to its promoter. • Both PhaC1 and PhaC3 formed active PHA synthase with PhaE.Reactive Black 5 (RB5) is a typical refractory azo dye. Widespread utilization of RB5 has caused a variety of environmental and health problems. The enzymatic degradation of RB5 can be a promising solution due to its superiority as an eco-friendly and cost-competitive process. Bacterial CotA-laccase shows great application prospect to eliminate hazardous dyes from wastewater. However, efficient decolorization of RB5 CotA-laccase generally requires the participation of costly, toxic mediators. In the present study, we modified the amino acids Thr415 and Thr418 near the type 1 copper site and the amino acid Gln442 at the entrance of the substrate-binding pocket of Bacillus pumilus W3 CotA-laccase to boost its RB5 decolorization activity based on molecular docking analysis and site-saturation mutagenesis. Through the strategies, two double site mutants T415D/Q442A and T418K/Q442A obtained demonstrated 43.94 and 52.64% RB5 decolorization rates in the absence of a mediator at pH 10.0, respectively, which were about 3.70- and 4.43-fold higher compared with the wild-type CotA-laccase. Unexpectedly, the catalytic efficiency of the T418K/Q442A to ABTS wa