Thermostable allergens in canned fish: Evaluating risks for fish allergy

Taki, Aya C.; Ruethers, Thimo; Nugraha, Roni; Karnaneedi, Shaymaviswanathan; Williamson, Nicholas A.; Nie, Shuai; Leeming, Michael G.; Mehr, Sam S.; Campbell, Dianne E.; Lopata, Andreas L.

doi:10.1111/all.15864

Cited by 8 publications

(4 citation statements)

References 54 publications

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“…This result is in accordance with Lasekan and Nayak, (2016), who reported that the grilling process increased the tropomyosin level of shrimp (Penaeus monodon). Taki et al, (2023) highlighted that the imposrtance of molecular based methods on the detection of allergen in the different food matrices. Jabeen et al,(2023) also pointed out that allergen detection in cereals by real-time PCR.…”

Section: Tropomyosin Gene Detection As a Marker For Crustacean Allerg...mentioning

confidence: 99%

Molecular Investigation of the Impact of Thermal Processing Techniques on Tropomyosin Crustacean Allergens

Aksun Tümerkan

2023

Turkish JAF Sci.Tech.

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While shellfish species are widely consumed due to their nutritional advantages, they are also among the top eight food items for food-borne allergies. Five distinct thermal processing techniques were applied to the crustacean to investigate the tropomyosin level variations caused by heat processing. Fresh shrimp and prawns were utilized as controls for the determination of allergen-encoding genes. Prior to molecular analysis, the proximate composition and acidity of raw and processed samples were also performed. The yield and purity of DNA were also determined. Melting curve and gel electrophoresis tests verified the existence of allergen-coding genes. Thermal processing procedures affected the proximate composition, particularly the total protein and fat concentrations, according to the findings. Following the heat treatment, the pH levels decreased, particularly in the grilled samples. There were also significant differences in the quantity and quality of the extracted DNA. Regardless of crustacean species, the tropomyosin-encoding gene was detected in both fried and grilled samples. These findings demonstrated that RT-PCR identification and validation of the crustacean allergy gene by gel electrophoresis might be a reliable approach for the thermally treated shrimp and prawn samples. This study shows that investigating the allergen coding gene might provide a viable way for detecting food-borne allergens in other thermally processed food items, which are becoming more concerned about food safety.

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Section: Tropomyosin Gene Detection As a Marker For Crustacean Allerg...mentioning

confidence: 99%

Molecular Investigation of the Impact of Thermal Processing Techniques on Tropomyosin Crustacean Allergens

Aksun Tümerkan

2023

Turkish JAF Sci.Tech.

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“…51,52 Therefore, the development of strategies for the detection and quantification of histamine and parvalbumin in canned tuna fish is of relevance. 52,53 ■ RESULTS AND DISCUSSION Synthesis and Analysis of SERS Tags. For the fabrication of the SERS tags specific for histamine or βparvalbumin, we chose spherical Au@Ag core−shell nanoparticles (Au@Ag NPs) as plasmonic nanoparticles since they exhibit stronger extinction cross-section and SERS efficiency than Au nanospheres.…”

Section: ■ Introductionmentioning

confidence: 99%

“…In tuna it is significantly higher in white than in red muscle, as well as in ventral and dorsal portions of the white muscle . Likewise histamine, parvalbumin is also thermally stable, and its content in canned food might vary depending on techniques employed during food processing. , Therefore, the development of strategies for the detection and quantification of histamine and parvalbumin in canned tuna fish is of relevance. , …”

Section: Introductionmentioning

confidence: 99%

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Au@Ag Core–Shell Nanoparticles for Colorimetric and Surface-Enhanced Raman-Scattering-Based Multiplex Competitive Lateral Flow Immunoassay for the Simultaneous Detection of Histamine and Parvalbumin in Fish

Fernández-Lodeiro,

González-Cabaleiro,

Vázquez-Iglesias

et al. 2023

ACS Appl. Nano Mater.

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Foodborne allergies and illnesses represent a major global health concern. In particular, fish can trigger life-threatening food allergic reactions and poisoning effects, mainly caused by the ingestion of parvalbumin toxin. Additionally, preformed histamine in less-than-fresh fish serves as a toxicological alert. Consequently, the analytical assessment of parvalbumin and histamine levels in fish becomes a critical public health safety measure. The multiplex detection of both analytes has emerged as an important issue. The analytical detection of parvalbumin and histamine requires different assays; while the determination of parvalbumin is commonly carried out by enzyme-linked immunosorbent assay, histamine is analyzed by high-performance liquid chromatography. In this study, we present an approach for multiplexing detection and quantification of trace amounts of parvalbumin and histamine in canned fish. This is achieved through a colorimetric and surface-enhanced Raman-scattering-based competitive lateral flow assay (SERS-LFIA) employing plasmonic nanoparticles. Two distinct SERS nanotags tailored for histamine or β-parvalbumin detection were synthesized. Initially, spherical 50 nm Au@Ag core−shell nanoparticles (Au@Ag NPs) were encoded with either rhodamine B isothiocyanate (RBITC) or malachite green isothiocyanate (MGITC). Subsequently, these nanoparticles were bioconjugated with anti-β-parvalbumin and antihistamine, forming the basis for our detection and quantification methodology. Additionally, our approach demonstrates the use of SERS-LFIA for the sensitive and multiplexed detection of parvalbumin and histamine on a single test line, paving the way for on-site detection employing portable Raman instruments.

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Comparative studies of seafood and reptile α‐ and β‐parvalbumins

O'Malley,

Ray,

Kitlas

et al. 2024

Protein Science

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Small calcium‐binding proteins such as parvalbumins (PVs) are major seafood and fish allergens. However, the impact of structural changes on their capacity to bind IgE has not been studied in detail. Therefore, fish and reptilian PVs, as well as human α‐PV, were selected for biochemical, structural, and IgE binding studies. Likely due to their high solubility, crystallization proved difficult, so additional techniques were used to promote crystallization of the proteins. Novel crystal structures were determined for human PV, cod allergen Gad m 1.0201, saltwater crocodile allergen Cro p 1.0101, and the α‐PV from thornback ray. β‐PVs are considered the major fish allergens, while α‐PVs are rarely categorized as allergens. To explain these differences, the results of structural and IgE binding studies were combined. This approach allowed us to provide new insight into IgE binding epitopes present on PVs, focusing on cross‐reactivity among the selected α‐ and β‐PVs. In addition, we have shown that these proteins display remarkable thermal stability across a range of pH conditions, which is relevant in the case of food allergens and food processing. Moreover, it is shown that the presence of calcium cations is critical for stability of the studied PVs via their protein folding, which has an impact on the formation of IgE binding epitopes. These studies shows the stability of fish and reptile PV allergens, and it allows for further evaluation of their IgE cross‐reactivity.

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Thermostable allergens in canned fish: Evaluating risks for fish allergy

Cited by 8 publications

References 54 publications

Molecular Investigation of the Impact of Thermal Processing Techniques on Tropomyosin Crustacean Allergens

Molecular Investigation of the Impact of Thermal Processing Techniques on Tropomyosin Crustacean Allergens

Au@Ag Core–Shell Nanoparticles for Colorimetric and Surface-Enhanced Raman-Scattering-Based Multiplex Competitive Lateral Flow Immunoassay for the Simultaneous Detection of Histamine and Parvalbumin in Fish

Comparative studies of seafood and reptile α‐ and β‐parvalbumins

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