Arabidopsis class A S-acyl transferases modify the pollen receptors LIP1 and PRK1 to regulate pollen tube guidance

Xiaojiao Xiang, Zhiyuan Wan, Shuzhan Zhang, Qiang-Nan Feng, Shan-Wei Li, Gui-Min Yin, Jing-Yu Zhi, Xin Liang, Ting Ma, Sha Li, Yan Zhang
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Abstract

Protein S-acylation catalyzed by protein S-acyl transferases (PATs) is a reversible lipid modification regulating protein targeting, stability, and interaction profiles. PATs are encoded by large gene families in plants, and many proteins including receptor-like cytoplasmic kinases (RLCKs) and receptor-like kinases (RLKs) are subject to S-acylation. However, few PATs have been assigned substrates, and few S-acylated proteins have known upstream enzymes. We report that Arabidopsis (Arabidopsis thaliana) class A PATs redundantly mediate pollen tube guidance and participate in the S-acylation of POLLEN RECEPTOR KINASE1 (PRK1) and LOST IN POLLEN TUBE GUIDANCE1 (LIP1), a critical RLK or RLCK for pollen tube guidance, respectively. PAT1, PAT2, PAT3, PAT4, and PAT8, collectively named PENTAPAT for simplicity, are enriched in pollen and show similar subcellular distribution. Functional loss of PENTAPAT reduces seed set due to male gametophytic defects. Specifically, pentapat pollen tubes are compromised in directional growth. We determine that PRK1 and LIP1 interact with PENTAPAT, and their S-acylation is reduced in pentapat pollen. The plasma membrane (PM) association of LIP1 is reduced in pentapat pollen, whereas point mutations reducing PRK1 S-acylation affect its affinity with its interacting proteins. Our results suggest a key role of S-acylation in pollen tube guidance through modulating PM receptor complexes.
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拟南芥 A 类 S-酰基转移酶改变花粉受体 LIP1 和 PRK1 以调控花粉管导向
蛋白质 S-酰基转移酶(PATs)催化的蛋白质 S-酰基化是一种可逆的脂质修饰,可调节蛋白质的靶向性、稳定性和相互作用谱。植物中的 PATs 由庞大的基因家族编码,包括受体样细胞质激酶(RLCKs)和受体样激酶(RLKs)在内的许多蛋白质都会发生 S-酰化。然而,很少有 PATs 被指定为底物,也很少有 S-酰化蛋白有已知的上游酶。我们报告了拟南芥(Arabidopsis thaliana)A类PATs冗余地介导花粉管导向,并分别参与了花粉管导向的关键RLK或RLCK--POLLEN RECEPTOR KINASE1(PRK1)和LOST IN POLLEN TUBE GUIDANCE1(LIP1)的S-酰化。PAT1、PAT2、PAT3、PAT4 和 PAT8(为简单起见统称为 PENTAPAT)在花粉中富集,并显示出相似的亚细胞分布。PENTAPAT 功能缺失会导致雄配子体缺陷,从而降低结实率。具体来说,PENTAPAT花粉管的定向生长受到影响。我们确定 PRK1 和 LIP1 与 PENTAPAT 相互作用,并且它们的 S-acylation 在五瓣花粉中减少。在五瓣花粉中,LIP1的质膜(PM)结合减少,而减少PRK1 S-酰化的点突变会影响其与相互作用蛋白的亲和力。我们的研究结果表明,S-酰化通过调节PM受体复合物在花粉管引导过程中起着关键作用。
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