ABSTRACT
Cyanobacteria is one of the promising microbial chassis in synthetic biology, which serves as a typical host for light-driven production. With the gradual depletion of fossil resources and intensification of global warming, the research on cyanobacterial cell factory using CO2 as carbon resource is ushering in a new wave. For a long time, research focus on cyanobacterial cell factory has mainly been the production of energy products, such as liquid fuels and hydrogen. One of the critical bottlenecks occurring in cyanobacterial cell factory is the poor economic performance, which is mainly caused by the inherent inefficiency of cyanobacteria. The problem is particularly prominent for these extremely cost-sensitive energy products. As an indispensable basis for modern industry, polymer monomers belong to the bulk chemicals with high added value. Therefore, increasing attention has been focused on polymer monomers which are superior in overcoming the economic barrier in commercialization of cyanobacterial cell factories. Here, we systematically review the progress on the production of polymer monomers using cyanobacteria, including the strategies for improving production, and the related technologies for the application of this important microbial cell factory. Finally, we summarize several issues in cyanobacterial synthetic biology and proposed future developing trends in this field.
Subject(s)
Cyanobacteria , Macromolecular Substances , Polymers , Synthetic BiologyABSTRACT
ABSTRACT:Objective To assess the effect of prolonged laparoscopic surgery on peritoneal mesothelial cells and fibrinolysis in humans.Methods We examined prospectively 1 6 consecutive patients who underwent laparoscopic surgery (LAP)and 2 1 patients who underwent conventional open surgery (OP)for high-medium rectal cancer with curative intent.During the procedure,biopsy of the parietal peritoneum was made before operation and at 45 min,90 min,and 120 min after operation.The tissue-type plasminogen activator (tPA)and plasminogen activator inhibitor-1 (PAI-1 )were determined by enzyme-linked immunosorbent assay in peritoneal tissues.The cellular injury was detected by LDH assay.The proliferation was quantified by MTT assay.Results PAI-1 activity in the peritoneal tissue was significantly lower in LAP group than in the OP group.tPA activity decreased after 45min of open surgery,but there was no significant change in the LAP group.With time extension,the LDH activity increased and the proliferation of the mesothelial cells decreased.Conclusion Preservation of a prolonged hypofibrinolytic state by inhibition of PAI-1 up-regulation during LAP may predispose patients to less postoperative peritoneal adhesion. The cellular injury becomes apparent and the proliferation is inhibited during prolonged laparoscopic surgery.