Vanete Thomaz-Soccol scite author profile

The development of immunosensors to detect antibodies or antigens has stood out in the face of traditional methods for diagnosing emerging diseases such as the one caused by the SARS-CoV-2 virus. The present study reports the construction of a simplified electrochemical immunosensor using a graphene-binding peptide applied as a recognition site to detect SARS-CoV-2 antibodies. A screen-printed electrode was used for sensor preparation by adding a solution of peptide and reduced graphene oxide (rGO). The peptide-rGO suspension was characterized by scanning electron microscopy (SEM), Raman spectroscopy, and Fourier transform infrared spectroscopy (FT-IR). The electrochemical characterization (electrochemical impedance spectroscopy—EIS, cyclic voltammetry—CV and differential pulse voltammetry—DPV) was performed on the modified electrode. The immunosensor response is based on the decrease in the faradaic signal of an electrochemical probe resulting from immunocomplex formation. Using the best set of experimental conditions, the analytic curve obtained showed a good linear regression (r2 = 0.913) and a limit of detection (LOD) of 0.77 μg mL−1 for antibody detection. The CV and EIS results proved the efficiency of device assembly. The high selectivity of the platform, which can be attributed to the peptide, was demonstrated by the decrease in the current percentage for samples with antibody against the SARS-CoV-2 S protein and the increase in the other antibodies tested. Additionally, the DPV measurements showed a clearly distinguishable response in assays against human serum samples, with sera with a response above 95% being considered negative, whereas responses below this value were considered positive. The diagnostic platform developed with specific peptides is promising and has the potential for application in the diagnosis of other infections that lead to high antibody titers.

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Phylogenetic taxonomy of new world Leishmania

Thomaz-Soccol

Lanotte²,

Rioux³

et al. 1993

Ann. Parasitol. Hum. Comp.

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Molecular diagnosis of leishmaniosis in the Paraná state of southern Brazil

Pereira

Thomaz-Soccol

Lima

et al. 2008

Experimental Dermatology

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The objective of the present study was to establish a polymerase chain reaction (PCR) technique for the diagnosis of cutaneous and mucocutaneous leishmaniosis from autochthonous cases in the state of Paraná in southern Brazil as well as imported cases. We sought to determine its utility and accuracy compared with smears and present culture methods. To standardize PCR samples, skin and mucosal punch biopsies from human lesions were performed on patients living in different regions of the Paraná state (76 cases) and other endemic areas of Brazil and Argentina (7 cases). For PCR standardization, two pairs of primers (MP1L/MP3H and B1/B2) were utilized for amplification of the conserved sequences in the minicircle of kinetoplast DNA (kDNA) for the Leishmania braziliensis complex. Two other primer pairs (b1/b2 and a1/a2) were species-specific for L. (V.) braziliensis and L. (V.) amazonensis, respectively. After differential diagnosis, eight patients had clinical diagnosis of the cutaneous ulcer changed to others pathologies such as syphilis, baso-cellular carcinoma, varicose ulcer, ecthyma and paracoccidioidomycosis. Of the 75 patients with cutaneous (CL) and mucocutaneous (MCL) lesions who provided samples, 47 (46 CL + 1 MCL) were diagnosed with leishmaniosis by smear and 57 (52 LC + 5 MCL) were diagnosed by culture methods. In contrast, our PCR technique presented higher accuracy when compared to the direct examination and culture of parasites. PCR is applicable both for CL where all 61 lesions were diagnosed, and MCL where 12 of 14 lesions were diagnosed. This molecular biology technique is also a faster and more specific diagnostic method compared with present parasitological procedures.

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