Innovative and versatile nanoplasmonic approach for the full sensing of proteinogenic aminoacids in nutritional supplements

A current nourishment issue is the development of smart and reliable analytical strategies to control in a simple way main bioactive compounds of nutritional supplements whose increasing use is deemed a trend nowadays. With this aim a quick and highly sensitive plasmonic sensor using simple citrate...

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Bibliographic Details
Published in:Talanta (Oxford) 2022-01, Vol.237, p.122976-122976, Article 122976
Main Authors: Bartolomé, Manuel, Contento, Ana M., Villaseñor, María J., Ríos, Ángel
Format: Article
Language:English
Subjects:
Aminoacids analysis
LSPR techniques
Nanoparticles aggregation
Spot-tests
UV-Vis/colorimetric sensing
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Summary:A current nourishment issue is the development of smart and reliable analytical strategies to control in a simple way main bioactive compounds of nutritional supplements whose increasing use is deemed a trend nowadays. With this aim a quick and highly sensitive plasmonic sensor using simple citrate coated gold nanoparticles (AuNPs) as optical probe, was developed for both qualitative and quantitative global assessment of all the proteinogenic amino acids in nutritional supplements. AuNPs of five different sizes (from 19 to 74 nm) were synthesized, characterized and evaluated as optimal transductor element for the sensing approach. Critical physic-chemical conditions controlling aggregation (pH, incubation time, AuNPs amount and ionic strength) were investigated on the main five types of aas, structurally different attending to their R-side chain and with expected distinctive behaviour on aggregation mechanisms, which are also discussed. All proteinogenic amino acids induced AuNPs aggregation at low pH (2.5) causing a change in the colour solution from red to blue, as well as a redshift in the plasmon band from 518 nm (disperse NPs) to 650 nm (aggregated NPs). Based on this sensing approach two different strategies are allowed, a preliminary qualitative/semi-quantitative screening just by the naked eye (simple spot test) and a second quantitative confirmation procedure using the analytical signal (A650/A518). Reliability of quantitative approach was assessed by an exhaustive validation procedure, where matrix effects and potential interferences usually present in commercial samples and affecting the analytical signal were mainly focussed. The results for the analysis of complex nutritional samples were validated by means of a statistical comparison with those ones of the official reference Kjeldahl method (paired Student test-t) at a 95% confidence level. This is the first sensing approach able to provide the global estimation of proteinogenic aas amount based on their simply AuNPs aggregation induction, irrespectively of their R-side chain structure. [Display omitted] •Reliable nanoplasmonic sensing of full proteinogenic aas content.•Distinctive aggregation mechanism for five types of R-side chain structure aas.•Qualitative screening with sensitive cut-off level as potential commercial spot tests.•Quick analytical control of nutritional supplements as current nourishment issue.•Similar accuracy and much higher sensitivity than Kjeldahl official method.
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2021.122976