The different silver nitrate concen

The different silver nitrate concentration used for the myco-fabrication of SNPs by P. glomerata includes 0.1, 0.2, 0.3, 0.4, 0.5,0.6, 0.7, 0.8, 0.9 and 1 mM. Synthesis of SNPs was monitored byUV–visible spectroscopy. A broad absorption peak was observedaround 420 nm. It could have been due to the excitation of sur-face plasmon which is typical of the SNPs. The synthesis of silvernanoparticles in P. glomerata increases with increase in substrateconcentration up to 0.8 mM, with the optimum synthesis of SNPsat 0.8 mM silver nitrate concentration

The reports in the literature predicts the involvement of anenzyme in the synthesis of SNPs by the fungal system or myco-fabrication of SNPs is an enzyme catalyzed reaction (Anil Kumaret al., 2007; Durán et al., 2005; Ingle et al., 2008). Considering themycofabrication as an enzyme catalyzed reaction, for enzyme cat-alyzed reaction studies for the effect of substrate (silver nitrate)and enzyme concentration (fungal filtrate) on product (SNPs) for-mation is required. Moreover, the synthesis of SNPs by using fungalsystem reported by several researchers (Birla et al., 2009; Castro-Longoria et al., 2011; Fayaz et al., 2010; Gade et al., 2008, 2011;Ingle et al., 2008, 2009; Vahabi et al., 2011) have reported synthe-sis of SNPs by using 1 mM silver nitrate concentration, but theycould not give proper justification for using 1 mM silver nitrateconcentration for the mycofabrication. To address the issue, syn-thesis of SNPs by P. glomerata was monitored at different substrateor salt (silver nitrate) concentration by measuring UV–vis spec-trum from 200 to 800 nm. The results showed an increase in themycofabrication of SNPs with an increase in the substrate concen-tration up to 0.8 mm, with the optimum mycofabrication of SNPsat 0.8 mM silver nitrate concentration. This is the first report ofusing silver nitrate concentration less than 1 mM for the synthesisof SNPs.