I saw many articles in newspapers and in net regarding the antimicrobial activity of silver nanoparticles. The nanoparticles are the fascinating things today. How can the silver nanoparticles inhibit or kill the bacteria or virus or even fungi. What is the actual thing that lies behind to work silver nanoparticles as antimicrobial agents. I hope i will get sufficient discussions over this topic.
I think nano silver particles can attach to cell wall firstly, and then, little by little, they can penetrate to cell and affect on thiol groups in protein and produce the free radical such as ROS,reactive oxygen species,and as a result inactive the respiratory enzymes and affect on DNA so death of bacteria .
The pb with nanosilver is the fact it is used everywhere. So we will face a threat in the environment and on useful bacterias we need in our wastes' epuration stations.
To know more you can get my book "Le Meilleur des nanomondes" (Brave new nanoworld) only in french
Silver has good affinity towards sulphur and phosphorus. sulphur is found in most of the proteins and phosphorus is the backbone of DNA. Silver nanoparticles are not antimicrobial rather they are microbialcidal i.e. they do not attack on any specific region rather they can attach anywhere they find P & S, therby checking the metabolic pathway or transcription.
Dear Mr. Vyom Parashar,
your infomration is quiet good. Thank you for participating in the discussion. The one thing that I observed from your views is that the electrostactic attractions between the silver nanopartilces and the P and S atoms might be responsible for the binding. Do you have any information regarding the entrance of silver nanoparticles into the bacteria?
Thank you for participating in the discussion and also thanks for offering me the book that you written "Le Meilleur des nanomondes". I will learn french language for reading your book. Thanks for your information.
According to the attached picture, in negative gram bacteria such as Escherichia, the lipid layers are more than in compare to the positive gram, Phospholipid, lipoprotein, and lipo poly saccharides(LPS), so I think the nano silver particles can pass through of this layers easier than in compare to positive gram bacteria and reach to protein. Also in negative gram, the Peptidoglycan layer is thinner, about 7-8 nanometer, than positive gram, about 20-80 nanometer, so the nano silver can reach to inner membrane easily. Mitochondria is in the inner membrane and there are some groups of protein in mitochondria that they are responsible to enzymes respiratory. As a result the nano silver can produce the free radical and cause to inactivation of these enzymes and finally to death of bacteria.
silver nanoparticles does not follow any particular pathway or signalling mechanism to get enter the cell.
Silver nanoparticles entrance in cell can be compared with killing somebody with bullet. One possible mechanism could be phagocytosis. ROS can be after effect once SNPs get through the cell as a responce of bacterial cell.
The invertion of 10G optical transceiver has greatly increase the networking speed, for the science behind the transceiver, please check website and learn about CWDM SFP transceiver, www.fiberoptictransceiver.net
The XFP (10 Gigabit Small Form Factor Pluggable) is a standard for transceivers for high-speed computer network and telecommunication links that use optical fiber.please visit www.xfptransceiver.com for more info