Althiab-Almasaud Rasha, Chen Yi, Maza Elie, Djari Anis, Frasse Pierre, Mollet Jean-Claude, Mazars Christian, Jamet Elisabeth, Chervin Christian
Laboratoire de Génomique et Biotechnologie des Fruits, Université de Toulouse, Toulouse INP-ENSAT, INRAE, Auzeville-Tolosane, France.
College of Food and Pharmaceutical Sciences, Ningbo University, Ningbo, China.
Plant J. 2021 Aug;107(3):893-908. doi: 10.1111/tpj.15353. Epub 2021 Jun 20.
Ethylene modulates plant developmental processes including flower development. Previous studies have suggested ethylene participates in pollen tube (PT) elongation, and both ethylene production and perception seem critical at the time of fertilization. The full gene set regulated by ethylene during PT growth is unknown. To study this, we used various EThylene Receptor (ETR) tomato (Solanum lycopersicum) mutants: etr3-ko, a loss-of-function (LOF) mutant; and NR (NEVER RIPE), a gain-of-function (GOF) mutant. The etr3-ko PTs grew faster than wild-type (WT) PTs. Oppositely, NR PT elongation was slower than in WT, and PTs displayed larger diameters. ETR mutations result in feedback control of ethylene production. Furthermore, ethylene treatment of germinating pollen grains increased PT length in etr-ko mutants and WT, but not in NR. Treatment with the ethylene perception inhibitor 1-methylcyclopropene decreased PT length in etr-ko mutants and WT, but had no effect on NR. This confirmed that ethylene regulates PT growth. The comparison of PT transcriptomes in LOF and GOF mutants, etr3-ko and NR, both harboring mutations of the ETR3 gene, revealed that ethylene perception has major impacts on cell wall- and calcium-related genes as confirmed by microscopic observations showing a modified distribution of the methylesterified homogalacturonan pectic motif and of calcium load. Our results establish links between PT growth, ethylene, calcium, and cell wall metabolism, and also constitute a transcriptomic resource.
乙烯调节包括花发育在内的植物发育过程。先前的研究表明乙烯参与花粉管(PT)伸长,并且乙烯的产生和感知在受精时似乎都至关重要。在PT生长过程中受乙烯调节的完整基因集尚不清楚。为了研究这一点,我们使用了各种乙烯受体(ETR)番茄(Solanum lycopersicum)突变体:etr3 - ko,一种功能丧失(LOF)突变体;以及NR(永不成熟),一种功能获得(GOF)突变体。etr3 - ko花粉管的生长速度比野生型(WT)花粉管快。相反,NR花粉管的伸长比野生型慢,并且花粉管直径更大。ETR突变导致乙烯产生的反馈控制。此外,用乙烯处理萌发的花粉粒可增加etr - ko突变体和野生型中的花粉管长度,但对NR无效。用乙烯感知抑制剂1 - 甲基环丙烯处理可缩短etr - ko突变体和野生型中的花粉管长度,但对NR没有影响。这证实了乙烯调节花粉管生长。对均携带ETR3基因突变的功能丧失和功能获得突变体etr3 - ko和NR中的花粉管转录组进行比较,发现乙烯感知对细胞壁和钙相关基因有重大影响,显微镜观察显示甲酯化的同型半乳糖醛酸果胶基序和钙负载的分布发生改变,从而证实了这一点。我们的研究结果建立了花粉管生长、乙烯、钙和细胞壁代谢之间的联系,同时也构成了一个转录组资源。
