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水稻胚乳中含有桦树花粉过敏原Bet v 1野生型或低过敏原衍生物的新型巨大蛋白质体的生成机制。

Generation mechanism of novel, huge protein bodies containing wild type or hypoallergenic derivatives of birch pollen allergen Bet v 1 in rice endosperm.

作者信息

Ogo Yuko, Takahashi Hideyuki, Wang Shuyi, Takaiwa Fumio

机构信息

Functional Transgenic Crops Research Unit, Genetically Modified Organism Research Center, National Institute of Agrobiological Sciences, Kannondai 2-1-2, Tsukuba, Ibaraki, 305-8602, Japan.

出版信息

Plant Mol Biol. 2014 Sep;86(1-2):111-23. doi: 10.1007/s11103-014-0216-7. Epub 2014 Jul 8.

DOI:10.1007/s11103-014-0216-7
PMID:25002224
Abstract

Tree pollen chimera 7 (TPC7), a hypoallergenic Bet v 1 tolerogen against birch pollen allergy, induces the formation of novel, huge protein bodies (referred to as TPC7 bodies) in rice endosperm, and is accumulated in high level. In the present study, we found that native Bet v 1 and TPC9, analog proteins of TPC7, were also deposited into novel protein bodies in rice endosperm. However, the novel protein bodies in Bet v 1 and TPC9 rice were much smaller and less abundant than those in TPC7 rice, reflected in lower amounts of accumulation of Bet v 1 and TPC9 than that of TPC7. A domain swapping experiment between TPC7 and Bet v 1 revealed that the latter half of TPC7 is important for the formation of the TPC7 body. We found that chaperons and folding enzymes such as BiP and protein disulfide isomerase were localized within the TPC7 body. TPC7 protein was extracted from TPC7 seeds as large aggregates with molecular masses greater than 669 kDa, or approximately 75 kDa under native or semi-native conditions. These TPC7 aggregates are thought to be responsible for the induction of TPC7 body formation. TPC7 accumulated to a maximum level of 550 μg/seed, which amounts to 23% of total seed protein, while Bet v 1 and TPC9 accumulated much lower levels. The TPC7 body represents a promising reservoir, which may serve as a fusion partner for high-level production and sequestering storage of recombinant proteins.

摘要

树花粉嵌合体7(TPC7)是一种针对桦树花粉过敏的低过敏原性Bet v 1耐受原,可诱导水稻胚乳中形成新型的巨大蛋白质体(称为TPC7体),并大量积累。在本研究中,我们发现TPC7的类似蛋白天然Bet v 1和TPC9也沉积在水稻胚乳中的新型蛋白质体中。然而,Bet v 1和TPC9水稻中的新型蛋白质体比TPC7水稻中的要小得多且数量更少,这反映出Bet v 1和TPC9的积累量低于TPC7。TPC7和Bet v 1之间的结构域交换实验表明,TPC7的后半部分对TPC7体的形成很重要。我们发现伴侣蛋白和折叠酶如BiP和蛋白质二硫键异构酶定位于TPC7体内。在天然或半天然条件下,从TPC7种子中提取的TPC7蛋白为分子量大于669 kDa的大聚集体,或约75 kDa的聚集体。这些TPC7聚集体被认为是诱导TPC7体形成的原因。TPC7的积累最高可达550μg/种子,占种子总蛋白的23%,而Bet v 1和TPC9的积累水平要低得多。TPC7体是一个有前景的储存库,可作为重组蛋白高水平生产和隔离储存的融合伙伴。

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