Identification and analysis of a conserved immunoglobulin E-binding epitope in soybean G1a and G2a and peanut Ara h 3 glycinins

Ping Xiang; Tom A. Beardslee; Michael G. Zeece; John Markwell; Gautam Sarath

doi:10.1016/S0003-9861(02)00534-9

Identification and analysis of a conserved immunoglobulin E-binding epitope in soybean G1a and G2a and peanut Ara h 3 glycinins

Ping Xiang, Tom A. Beardslee, Michael G. Zeece, John Markwell, Gautam Sarath

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

To identify conserved immunoglobulin E (IgE)-binding epitopes among legume glycinins, we utilized recombinant soybean G2a and G2a-derived polypeptide fragments. All of these fusion polypeptides bound IgE, and the C-terminal 94-residue fragment appeared to bind more IgE. Using synthetic peptides we identified S219-N233 (S²¹⁹ GFAPEFLKEAFGVN²³³) as the dominant IgE-binding epitope. Alanine scanning of this epitope indicated that six amino acids (E224, F225, L226, F230, G231, and V232) contributed most to IgE binding. Among these amino acids, only G231 of soybean G2a is not conserved in soybean G1a (S234) and peanut Ara h 3 (Q256). Synthetic peptides corresponding to the equivalent regions in G1a and Ara h 3 bound IgE in the order Ara h 3 ≥ soybean G2a > soybean G1a. This sequence represents a new IgE-binding epitope that occurs in a highly conserved region present in legume glycinins. Such IgE-binding sites could provide a molecular explanation for the IgE cross-reactivity observed between soybean and peanut proteins.

Original language	English (US)
Pages (from-to)	51-57
Number of pages	7
Journal	Archives of Biochemistry and Biophysics
Volume	408
Issue number	1
DOIs	https://doi.org/10.1016/S0003-9861(02)00534-9
State	Published - 2002
Externally published	Yes

Keywords

Alanine scanning
Conserved epitope
Epitope mapping
IgE cross-reactivity
Peanut
Recombinant proteins
Soybean allergens

ASJC Scopus subject areas

Biophysics
Biochemistry
Molecular Biology

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10.1016/S0003-9861(02)00534-9

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title = "Identification and analysis of a conserved immunoglobulin E-binding epitope in soybean G1a and G2a and peanut Ara h 3 glycinins",

abstract = "To identify conserved immunoglobulin E (IgE)-binding epitopes among legume glycinins, we utilized recombinant soybean G2a and G2a-derived polypeptide fragments. All of these fusion polypeptides bound IgE, and the C-terminal 94-residue fragment appeared to bind more IgE. Using synthetic peptides we identified S219-N233 (S219 GFAPEFLKEAFGVN233) as the dominant IgE-binding epitope. Alanine scanning of this epitope indicated that six amino acids (E224, F225, L226, F230, G231, and V232) contributed most to IgE binding. Among these amino acids, only G231 of soybean G2a is not conserved in soybean G1a (S234) and peanut Ara h 3 (Q256). Synthetic peptides corresponding to the equivalent regions in G1a and Ara h 3 bound IgE in the order Ara h 3 ≥ soybean G2a > soybean G1a. This sequence represents a new IgE-binding epitope that occurs in a highly conserved region present in legume glycinins. Such IgE-binding sites could provide a molecular explanation for the IgE cross-reactivity observed between soybean and peanut proteins.",

keywords = "Alanine scanning, Conserved epitope, Epitope mapping, IgE cross-reactivity, Peanut, Recombinant proteins, Soybean allergens",

author = "Ping Xiang and Beardslee, {Tom A.} and Zeece, {Michael G.} and John Markwell and Gautam Sarath",

note = "Funding Information: We thank Dr. Rudolf Jung at Pioneer-Hybrid International for the gift of the soybean glycinin clones. This work was supported in part by the Center for Biotechnology funded through the Nebraska–Research Initiative, by NIH Grant 1 P20 RR16469 from the BRIN Program of the National Center for Research Resources (G.S.). This work is published as Journal Series No. 13743 from the Agriculture Research Division, University of Nebraska.",

year = "2002",

doi = "10.1016/S0003-9861(02)00534-9",

language = "English (US)",

volume = "408",

pages = "51--57",

journal = "Archives of Biochemistry and Biophysics",

issn = "0003-9861",

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number = "1",

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TY - JOUR

T1 - Identification and analysis of a conserved immunoglobulin E-binding epitope in soybean G1a and G2a and peanut Ara h 3 glycinins

AU - Xiang, Ping

AU - Beardslee, Tom A.

AU - Zeece, Michael G.

AU - Markwell, John

AU - Sarath, Gautam

N1 - Funding Information: We thank Dr. Rudolf Jung at Pioneer-Hybrid International for the gift of the soybean glycinin clones. This work was supported in part by the Center for Biotechnology funded through the Nebraska–Research Initiative, by NIH Grant 1 P20 RR16469 from the BRIN Program of the National Center for Research Resources (G.S.). This work is published as Journal Series No. 13743 from the Agriculture Research Division, University of Nebraska.

PY - 2002

Y1 - 2002

N2 - To identify conserved immunoglobulin E (IgE)-binding epitopes among legume glycinins, we utilized recombinant soybean G2a and G2a-derived polypeptide fragments. All of these fusion polypeptides bound IgE, and the C-terminal 94-residue fragment appeared to bind more IgE. Using synthetic peptides we identified S219-N233 (S219 GFAPEFLKEAFGVN233) as the dominant IgE-binding epitope. Alanine scanning of this epitope indicated that six amino acids (E224, F225, L226, F230, G231, and V232) contributed most to IgE binding. Among these amino acids, only G231 of soybean G2a is not conserved in soybean G1a (S234) and peanut Ara h 3 (Q256). Synthetic peptides corresponding to the equivalent regions in G1a and Ara h 3 bound IgE in the order Ara h 3 ≥ soybean G2a > soybean G1a. This sequence represents a new IgE-binding epitope that occurs in a highly conserved region present in legume glycinins. Such IgE-binding sites could provide a molecular explanation for the IgE cross-reactivity observed between soybean and peanut proteins.

AB - To identify conserved immunoglobulin E (IgE)-binding epitopes among legume glycinins, we utilized recombinant soybean G2a and G2a-derived polypeptide fragments. All of these fusion polypeptides bound IgE, and the C-terminal 94-residue fragment appeared to bind more IgE. Using synthetic peptides we identified S219-N233 (S219 GFAPEFLKEAFGVN233) as the dominant IgE-binding epitope. Alanine scanning of this epitope indicated that six amino acids (E224, F225, L226, F230, G231, and V232) contributed most to IgE binding. Among these amino acids, only G231 of soybean G2a is not conserved in soybean G1a (S234) and peanut Ara h 3 (Q256). Synthetic peptides corresponding to the equivalent regions in G1a and Ara h 3 bound IgE in the order Ara h 3 ≥ soybean G2a > soybean G1a. This sequence represents a new IgE-binding epitope that occurs in a highly conserved region present in legume glycinins. Such IgE-binding sites could provide a molecular explanation for the IgE cross-reactivity observed between soybean and peanut proteins.

KW - Alanine scanning

KW - Conserved epitope

KW - Epitope mapping

KW - IgE cross-reactivity

KW - Peanut

KW - Recombinant proteins

KW - Soybean allergens

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AN - SCOPUS:0036942542

SN - 0003-9861

VL - 408

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JO - Archives of Biochemistry and Biophysics

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IS - 1

ER -

Identification and analysis of a conserved immunoglobulin E-binding epitope in soybean G1a and G2a and peanut Ara h 3 glycinins

Abstract

Keywords

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