About: Sabyasachi Sarkar

Property	Value
dbo:abstract	Sabyasachi Sarkar (born 17 May 1947) is an Indian chemist. He has worked with functional models related to hyperthermophilic to mesophilic metalloproteins enriching bioinorganic chemistry. A Replica of a Fishy Enzyme and the reduced xanthine oxidase also have been made. Inhibition patterns in the Michaelis complex of low molecular weight hepatic sulfite oxidase model complex have been exhibited. Based on functional mimicking of a series of molybdoenzymes he showed that the even in model enzymatic oxotransfer reactions the participation of similar enzyme-susbrate (E-S) complex is a real entity. Such a chemical spices (E-S) responds to spontaneous intramolecular oxidative addition and reductive elimination to complete the oxotransfer reaction. Such a reaction differs from conventional chemical oxotransfer reaction where the reaction between the starting reactants happens in Eyring activated complex. He demonstrated that carbon dioxide molecule does bind to magnesium in chlorophyll in photosynthesis as proposed by R. M. Willstätter one-hundred years ago and modeled hydrogenase captioned as better than nature. The rare reaction of a Cu(II) complex with aerial oxygen to generate superoxide anion and Cu(III) has been shown addressing the native SOD reaction. Similarly the aspect of copper-molybdenum antagonism in ruminant animals have been investigated. His research has shown the architectural marvel in silk cocoon with the natural thermostatic and humidity control with preferential oxygen gating inside cocoon as green house architecture. He proposed a new magneto reception mechanism for nocturnal moth in sensing the Earth's magnetic field to navigate with a stable pool of carbon-centric free radicals along with ferromagnetic components. He extended the work on nano carbon and developed cheap sources of water soluble nano carbon including naturally formed graphene oxide from low grade coal. These are used in the growth of young plants as promoters to slowly release micro nutrients and adsorbed water. He explored these to explore bio-imaging and demonstrating that non-toxic carbon nano onion can cross blood–brain barrier to carry drug as cargo and can be effectively be excreted from the body. The utility of such nano carbon to control mosquito breeding in preventing mosquito vectors of infectious diseaes and the use of reduced graphene oxide to prevent hospital pathogens have been demonstrated. On the environment aspect the presence of damaged floating carbon nano tubes in aerosols is shown to contribute global warming, winter smog and elevating breathing problem. He demonstrated the adverse effect of soap and detergent discharge near tube wells in releasing arsenic and fluoride contaminated water. He also mapped the degradation of a heritage monument, the Taj Mahal. (en)
dbo:almaMater	dbr:University_of_Calcutta dbr:Rajabazar_Science_College dbr:Ramakrishna_Mission_Vidyamandira dbr:Gorakhpur_University
dbo:birthDate	1947-05-17 (xsd:date)
dbo:birthPlace	dbr:Jamtara
dbo:institution	dbr:IIT_Kanpur dbr:Indian_Institute_of_Engineering_Science_and_Technology,_Shibpur
dbo:originalName	সব্যসাচী সরকার (en)
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dbp:almaMater	dbr:University_of_Calcutta dbr:Rajabazar_Science_College dbr:Ramakrishna_Mission_Vidyamandira dbr:Gorakhpur_University
dbp:birthDate	1947-05-17 (xsd:date)
dbp:birthPlace	Jamtara, India (en)
dbp:date	March 2019 (en)
dbp:fields	Bio inorganic chemistry, nano science (en)
dbp:name	Sabyasachi Sarkar (en)
dbp:nationality	Indian (en)
dbp:nativeName	সব্যসাচী সরকার (en)
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rdfs:comment	Sabyasachi Sarkar (born 17 May 1947) is an Indian chemist. He has worked with functional models related to hyperthermophilic to mesophilic metalloproteins enriching bioinorganic chemistry. A Replica of a Fishy Enzyme and the reduced xanthine oxidase also have been made. Inhibition patterns in the Michaelis complex of low molecular weight hepatic sulfite oxidase model complex have been exhibited. Based on functional mimicking of a series of molybdoenzymes he showed that the even in model enzymatic oxotransfer reactions the participation of similar enzyme-susbrate (E-S) complex is a real entity. Such a chemical spices (E-S) responds to spontaneous intramolecular oxidative addition and reductive elimination to complete the oxotransfer reaction. Such a reaction differs from conventional chemic (en)
rdfs:label	Sabyasachi Sarkar (en)
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