Corteva Agriscience, 9330 Zionsville Road, Indianapolis, IN, 47968, USA.
Corteva Agriscience, 8325 NW 62nd Avenue, Johnston, IA, 50131, USA.
Transgenic Res. 2021 Apr;30(2):201-206. doi: 10.1007/s11248-021-00243-0. Epub 2021 Mar 24.
Newly expressed proteins in genetically engineered crops are evaluated for potential cross reactivity to known allergens as part of their safety assessment. This assessment uses a weight-of-evidence approach. Two key components of this allergenicity assessment include any history of safe human exposure to the protein and/or the source organism from which it was originally derived, and bioinformatic analysis identifying amino acid sequence relatedness to known allergens. Phosphomannose-isomerase (PMI) has been expressed in commercialized genetically engineered (GE) crops as a selectable marker since 2010 with no known reports of allergy, which supports a history of safe exposure, and GE events expressing the PMI protein have been approved globally based on expert safety analysis. Bioinformatic analyses identified an eight-amino-acid contiguous match between PMI and a frog parvalbumin allergen (CAC83047.1). While short amino acid matches have been shown to be a poor predictor of allergen cross reactivity, most regulatory bodies require such matches be assessed in support of the allergenicity risk assessment. Here, this match is shown to be of negligible risk of conferring cross reactivity with known allergens.
新表达的蛋白质在转基因作物中进行潜在的交叉反应性评估,以确定其是否为已知过敏原,这是其安全性评估的一部分。这种评估使用了证据权重的方法。这种变应原性评估的两个关键组成部分包括:蛋白质是否有安全的人类暴露史,以及它最初来源于哪种生物体;生物信息学分析确定与已知过敏原的氨基酸序列相似性。磷酸甘露糖异构酶(PMI)自 2010 年以来一直被表达在商业化的转基因(GE)作物中作为一种选择标记,目前没有过敏的已知报告,这支持了安全暴露的历史,并且基于专家安全分析,表达 PMI 蛋白的 GE 事件已在全球范围内获得批准。生物信息学分析确定了 PMI 与青蛙副肌球蛋白过敏原(CAC83047.1)之间的 8 个氨基酸连续匹配。虽然短的氨基酸匹配被证明是过敏原交叉反应性的不良预测指标,但大多数监管机构要求对这种匹配进行评估,以支持变应原性风险评估。在这里,这种匹配被证明对已知过敏原的交叉反应性风险可忽略不计。
