In an attempt to reuse agrowaste, betel leaf stalk extract was found as potent antimicrobial agen... more In an attempt to reuse agrowaste, betel leaf stalk extract was found as potent antimicrobial agent. The principal compound showed antibacterial activity against Gram positive and Gram negative bacteria. The MIC determined between 25µg/mL to 250µg/mL and was supported by time kill experiment. The potentiality of the active principal was measured against ciprofloxacin as a standard. The active compound tentatively identified as phenolic.
The accumulation of recalcitrant xenobiotic compounds is due to continuous efflux from population... more The accumulation of recalcitrant xenobiotic compounds is due to continuous efflux from population and industrial inputs that have created a serious impact on the pristine nature of our environment. Apart from this, these compounds are mostly carcinogenic, ...
In an attempt to reuse agrowaste, betel leaf stalk extract was found as potent antimicrobial agen... more In an attempt to reuse agrowaste, betel leaf stalk extract was found as potent antimicrobial agent. The principal compound showed antibacterial activity against Gram positive and Gram negative bacteria. The MIC determined between 25µg/mL to 250µg/mL and was supported by time kill experiment. The potentiality of the active principal was measured against ciprofloxacin as a standard. The active compound tentatively identified as phenolic.
The accumulation of recalcitrant xenobiotic compounds is due to continuous efflux from population... more The accumulation of recalcitrant xenobiotic compounds is due to continuous efflux from population and industrial inputs that have created a serious impact on the pristine nature of our environment. Apart from this, these compounds are mostly carcinogenic, ...
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