A cornichon protein controls polar localization of the PINA auxin transporter in Physcomitrium patens

Development (Cambridge, England). Supplement Pub Date : 2022-12-23 DOI:10.1101/2022.12.22.521699

C. Yáñez-Domínguez, D. Lagunas-Gómez, D. M. Torres-Cifuentes, M. Bezanilla, O. Pantoja

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Abstract

Newly synthesized membrane proteins pass through the secretory pathway starting at the endoplasmic reticulum and packaged into COPII vesicles to continue to the Golgi apparatus before reaching their membrane of residence. It is known that cargo receptor proteins form part of the COPII complex and play a role in the recruitment of cargo proteins for their subsequent transport through the secretory pathway. The role of cornichon proteins is conserved from yeast to vertebrates, but it is poorly characterized in plants. To study the role of this protein in cellular traffic mechanisms in plants, the moss Physcomitrium patens has been selected since it can be studied at the single-cell level. Here, we studied the role of the two moss cornichon homologs in the secretory pathway. Mutant analyzes revealed that cornichon genes regulate different growth processes during the moss life cycle, by controlling auxin transport; with CNIH2 functioning as a specific cargo receptor for the auxin efflux carrier PINA, with the C-terminus of the receptor regulating the interaction and trafficking of PINA.

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一种cornicon蛋白控制着PINA生长素转运体的极性定位

新合成的膜蛋白通过从内质网开始的分泌途径，被包装成COPII囊泡，继续进入高尔基体，然后到达其驻留膜。众所周知，货物受体蛋白构成COPII复合体的一部分，并在货物蛋白的招募中发挥作用，以便随后通过分泌途径进行运输。从酵母到脊椎动物，cornicon蛋白的作用是保守的，但在植物中却很少被描述。为了研究该蛋白在植物细胞运输机制中的作用，我们选择了可以在单细胞水平上进行研究的藓类Physcomitrium patens。在这里，我们研究了两个苔藓cornicon同源物在分泌途径中的作用。突变体分析表明，cornichon基因通过控制生长素的运输来调节苔藓生命周期中不同的生长过程;CNIH2作为生长素外排载体PINA的特异性货物受体，其受体的c端调节PINA的相互作用和运输。

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Development (Cambridge, England). Supplement

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