Bacteria communicate within a system by means of a density dependent mechanism known as quorum sensing which regulate the metabolic and behavioral activities of a bacterial community. This sort of interaction occurs through a dialect of chemical signals called as autoinducers synthesized by bacteria. Bacterial quorum sensing occurs through various complex pathways depending upon specious diversity. Therefore the cognizance of quorum sensing mechanism will enable the regulation and thereby constrain bacterial communication. Inhibition strategies of quorum sensing are collectively called as quorum quenching; through which bacteria are incapacitated of its interaction with each other. Many virulence mechanism such as sporulation, biofilm formation, toxin production can be blocked by quorum quenching. Usually quorum quenching mechanisms can be broadly classified into enzymatic methods and non-enzymatic methods. Substantial understanding of bacterial communication and its inhibition enhances the development of novel antibacterial therapeutic drugs. In this review we have discussed the types and mechanisms of quorum sensing and various methods to inhibit and regulate density dependent bacterial communication.
The study comprised of 60 Candida spp., 50 isolates from HIV and TB positive individuals (immunocompromised) and 10 isolates from non-HIV and -TB patients (immunocompetent). Among the 60 Candidal isolates, 83.3% were identified as C. albicans, 11.6% as C. glabrata and rest 5% as C. krusei. There is no study in production pattern of extracellular enzymes of Candida spp. isolated from HIV and TB patients in comparison with non-HIV and -TB patients in India. The comparison of phospholipase activities showed that there was a significant difference between the groups at (P = 0.001). The non-HIV and -TB groups of C. glabrata and C. krusei did not show detectable phospholipase activity when compared to the HIV and TB groups. The mean difference in the phospholipase activities of these two groups was significant (P = <0.001). Candida spp. of both the groups do not possess the ability to hydrolyze gelatin. All the strains possessed the ability to show alpha haemolysis. Even though it had shown alpha haemolysis, the significant difference in haemolytic activity was observed only in C. albicans (P = <0.001). None of the isolates from the two groups possessed the ability to hydrolyze gelatin. In the resistance profile of Candida spp., C. albicans of HIV and TB groups had shown resistance to fluconazole, Itraconazole, ketaconazole, nystatin but showed 100% sensitivity towards amphotericin-B. The isolates of C. krusei and C. glabrata showed no resistance to any of the drugs tested. In the case of, non-HIV and -TB patients the resistance pattern was low.
Haloarchaea are known for its adaptation in extreme saline environment. Halophilic archaea produces carotenoid pigments and proton pumps to protect them from extremes of salinity. Bacteriorhodopsin (bR) is a light-driven proton pump that resides in the membrane of haloarchaea Halobacterium salinarum. The photocycle of Bacteriorhodopsin passes through several states from K to O, finally liberating ATP for host's survival. Extensive studies on Bacteriorhodopsin photocycle has provided in depth knowledge on their sequential mechanism of converting solar energy into chemical energy inside the cell. This ability of Bacteriorhodopsin to harvest sunlight has now been experimented to exploit the unexplored and extensively available solar energy in various biotechnological applications. Currently, bacteriorhodopsin finds its importance in dye-sensitized solar cell (DSSC), logic gates (integrated circuits, IC's), optical switching, optical memories, storage devices (random access memory, RAM), biosensors, electronic sensors and optical microcavities. This review deals with the optical and electrical applications of the purple pigment Bacteriorhodopsin.
Background: The development of antibiotic resistance has become a global health challenge which is causing ineffectiveness of the available antibacterial agents leading to increase in diseases and death rate. Therefore this study intends to investigate the antibacterial action of Aqueous Garlic Extract (AGE) against 9 multidrug-resistant grampositive and gram-negative bacterial isolates, including Staphylococcus aureus, Enterococcus species, ß hemolytic streptococcus, Pseudomonas aeruginosa, Proteus mirabilis, Klebsiella pneumoniae, Escherichia coli, Vibrio cholerae and Serretia marscenes. Methods: Antibacterial activity of different concentrations of AGE by well-diffusion method was recorded by measuring the diameter of zone of inhibition. The Tamil Nadu garlic cloves as well as Jowai region garlic cloves showed antibacterial activity against both GPC and GNR. Results: The maximum zone of inhibition was observed in Tamil Nadu garlic than that of Jowai region, but the only bacteria which showed a better zone of inhibition with Jowai region than Tamil Nadu garlic was Pseudomonas aeruginosa. Conclusion: Thus our study reveals that garlic not only makes the food more spicy & edible with its flavour but can also be used as an effective antibacterial agents against MDR gram positive & gram negative bacteria.
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