AUTHOR=Busch Robert T. , Karim Farzia , Sun Yvonne , Fry H. Christopher , Liu Yuzi , Zhao Chenglong , Vasquez Erick S. 

TITLE=Detection and Aggregation of Listeria Monocytogenes Using Polyclonal Antibody Gold-Coated Magnetic Nanoshells Surface-Enhanced Raman Spectroscopy Substrates

JOURNAL=Frontiers in Nanotechnology

VOLUME=3

YEAR=2021

URL=https://www.frontiersin.org/journals/nanotechnology/articles/10.3389/fnano.2021.653744

DOI=10.3389/fnano.2021.653744

ISSN=2673-3013

ABSTRACT=<p>Magnetic nanoshells with tailored surface chemistry can enhance bacterial detection and separation technologies. This work demonstrated a simple technique to detect, capture, and aggregate bacteria with the aid of end-functionalized polyclonal antibody gold-coated magnetic nanoshells (pAb-Lis-AuMNs) as surface-enhanced Raman spectroscopy (SERS) probes. <italic>Listeria monocytogenes</italic> were used as the pathogenic bacteria and the pAb-Lis-AuMNs, 300 nm diameter, were used as probes allowing facile magnetic separation and aggregation. An optimized covalent bioconjugation procedure between the magnetic nanoshells and the polyclonal antibody was performed at pH six <italic>via</italic> a carbodiimide crosslinking reaction. Spectroscopic and morphological characterization techniques confirmed the fabrication of stable pAb-Lis-AuMNs. The resulting pAb-Lis-AuMNs acted as a SERS probe for <italic>L. monocytogenes</italic> based on the targeted capture <italic>via</italic> surface binding interactions and magnetically induced aggregation. Label-free SERS measurements were recorded for the minimum detectable amount of <italic>L. monocytogenes</italic> based on the SERS intensity at the 1388 cm<sup>−1</sup> Raman shift. <italic>L. monocytogenes</italic> concentrations exhibited detection limits in the range of 10<sup>4</sup>–10<sup>7</sup> CFU ml<sup>−1</sup>, before and after aggregation. By fitting these concentrations, the limit of detection of this method was ∼10<sup>3</sup> CFU ml<sup>−1</sup>. Using a low-intensity magnetic field of 35 G, pAb-Lis-AuMNs aggregated <italic>L. monocytogenes</italic> as demonstrated with microscopy techniques, including SEM and optical microscopy. Overall, this work presents a label-free SERS probe method comprised of a surface-modified polyclonal antibody sub-micron magnetic nanoshell structures with high sensitivity and magnetic induced separation that could lead to the fabrication of multiple single-step sensors.</p>