除苹果植原体PM19菌株类SAP11效应子的去稳定化活性外。

Beyond Destabilizing Activity of SAP11-like Effector of Phytoplasma mali Strain PM19.

作者信息

Boonrod Kajohn, Strohmayer Alisa, Schwarz Timothy, Braun Mario, Tropf Tristan, Krczal Gabi

机构信息

RLP AgroScience GmbH, Breitenweg 71, 67435 Neustadt, Germany.

出版信息

Microorganisms. 2022 Jul 12;10(7):1406. doi: 10.3390/microorganisms10071406.

DOI:10.3390/microorganisms10071406

PMID:35889125

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9317525/

Abstract

It was shown that the SAP11 effector of different Phytoplasma can destabilize some TEOSINE BRANCHES/CYCLOIDEA/PROLIFERATING CELL FACTORs (TCPs), resulting in plant phenotypes such as witches' broom and crinkled leaves. Some SAP11 exclusively localize in the nucleus, while the others localize in the cytoplasm and the nucleus. The SAP11-like effector of Phytoplasma mali strain PM19 (SAP11) localizes in both compartments of plant cells. We show here that SAP11 can destabilize TCPs in both the nucleus and the cytoplasm. However, expression of SAP11 exclusively in the nucleus resulted in the disappearance of leaf phenotypes while still showing the witches' broom phenotype. Moreover, we show that SAP11 can not only destabilize TCPs but also relocalizes these proteins in the nucleus. Interestingly, three different transgenic Nicotiana species expressing SAP11 show all the same witches' broom phenotype but different leaf phenotypes. A possible mechanism of SAP11-TCP interaction is discussed.

摘要

研究表明，不同植原体的SAP11效应子可使一些TEOSINE分支/环化酶/增殖细胞因子（TCPs）不稳定，从而导致诸如扫帚状丛生和叶片皱缩等植物表型。一些SAP11仅定位于细胞核，而其他的则定位于细胞质和细胞核。苹果植原体菌株PM19的类SAP11效应子（SAP11）定位于植物细胞的这两个区室。我们在此表明，SAP11可使细胞核和细胞质中的TCPs不稳定。然而，仅在细胞核中表达SAP11会导致叶片表型消失，同时仍表现出扫帚状丛生表型。此外，我们表明SAP11不仅可使TCPs不稳定，还会使这些蛋白质重新定位于细胞核。有趣的是，三种表达SAP11的不同转基因烟草物种均表现出相同的扫帚状丛生表型，但叶片表型不同。本文讨论了SAP11与TCP相互作用的一种可能机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/289c/9317525/0fcbdfae4d4c/microorganisms-10-01406-g001.jpg

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除苹果植原体PM19菌株类SAP11效应子的去稳定化活性外。

Beyond Destabilizing Activity of SAP11-like Effector of Phytoplasma mali Strain PM19.

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