Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen

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Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen Publisher

Sharif Shoushtari M^{1, 2} ; Majd A³ ; Assarehzadegan MA^{4, 5} ; Fanuel S⁶ ; Moin M^{2, 7} ; Nejadsattari T¹ ; Shoormasti RS² ; Badalzadeh M² ; Tajik S² ; Fazlollahi MR² ; Tayebi B⁸ ; Pourpak Z² ; Kardar GA²

Source: Allergo Journal International Published:2020

Abstract

Background: Fraxinus excelsior (Ash) is a common tree and is important cause of winter–spring pollinosis in many temperate regions in the world. In this study, a high molecular weight allergen from ash pollen was identified. Methods: In all, 20 individuals allergic to ash participated in the study. Characterization and immunoreactivity of ash pollen proteins was performed using sodium dodecyl sulfate polyacrylamide electrophoresis (SDS-PAGE), two-dimensional (2D) gel electrophoresis and immunoblotting. Results: Immunoglobulin E (IgE)-binding proteins with apparent molecular mass ranging from 9 to 110 kDa were detected in ash pollen extract. Serum IgE of 7 (35%) patients reacted with a 53-kDa protein band. Analysis of 2D immunoblots showed several IgE-binding proteins. Moreover, mass spectrometry analysis indicated that the 53-kDa allergen was homologous to calreticulin. Discussion: We defined a novel allergen from F. excelsior pollen with a molecular weight of about 53 kDa. This allergen could be considered as an important high molecular weight allergenic protein for further studies on cross-reactivity and development of diagnostic and therapeutic approaches. © 2020, Springer Medizin Verlag GmbH, ein Teil von Springer Nature.

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Style	Citing Format
MLA	Sharif Shoushtari M, et al.. "Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen." Allergo Journal International, vol. 29, no. 7, 2020, pp. 233-239.
APA	Sharif Shoushtari M, Majd A, Assarehzadegan MA, Fanuel S, Moin M, Nejadsattari T, Shoormasti RS, Badalzadeh M, Tajik S, Fazlollahi MR, Tayebi B, Pourpak Z, Kardar GA (2020). Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen. Allergo Journal International, 29(7), 233-239.
Chicago	Sharif Shoushtari M, Majd A, Assarehzadegan MA, Fanuel S, Moin M, Nejadsattari T, Shoormasti RS, et al.. "Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen." Allergo Journal International 29, no. 7 (2020): 233-239.
Harvard	Sharif Shoushtari M et al. (2020) 'Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen', Allergo Journal International, 29(7), pp. 233-239.
Vancouver	Sharif Shoushtari M, Majd A, Assarehzadegan MA, Fanuel S, Moin M, Nejadsattari T, et al.. Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen. Allergo Journal International. 2020;29(7):233-239.
BibTex	@article{ author = {Sharif Shoushtari M and Majd A and Assarehzadegan MA and Fanuel S and Moin M and Nejadsattari T and Shoormasti RS and Badalzadeh M and Tajik S and Fazlollahi MR and Tayebi B and Pourpak Z and Kardar GA}, title = {Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen}, journal = {Allergo Journal International}, volume = {29}, number = {7}, pages = {233-239}, year = {2020} }
RIS	TY - JOUR AU - Sharif Shoushtari M AU - Majd A AU - Assarehzadegan MA AU - Fanuel S AU - Moin M AU - Nejadsattari T AU - Shoormasti RS AU - Badalzadeh M AU - Tajik S AU - Fazlollahi MR AU - Tayebi B AU - Pourpak Z AU - Kardar GA TI - Identification of A 53 Kda Protein, As A New High Molecular Weight Allergen From Fraxinus Excelsior (Ash) Pollen JO - Allergo Journal International VL - 29 IS - 7 SP - 233 EP - 239 PY - 2020 ER -

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