突变分析表明,豌豆(Pisum sativum)根瘤中根瘤菌感染和随后的植物细胞及类菌体分化的异常与异常细胞分裂素反应和定位相一致。
Mutational analysis indicates that abnormalities in rhizobial infection and subsequent plant cell and bacteroid differentiation in pea (Pisum sativum) nodules coincide with abnormal cytokinin responses and localization.
机构信息
All-Russia Research Institute for Agricultural Microbiology, Laboratory of Molecular and Cellular Biology, Saint Petersburg, Russia.
Saint Petersburg State University, Department of Genetics and Biotechnology, Universitetskaya embankment 7-9, Saint Petersburg, Russia.
出版信息
Ann Bot. 2020 May 13;125(6):905-923. doi: 10.1093/aob/mcaa022.
BACKGROUND AND AIMS
Recent findings indicate that Nod factor signalling is tightly interconnected with phytohormonal regulation that affects the development of nodules. Since the mechanisms of this interaction are still far from understood, here the distribution of cytokinin and auxin in pea (Pisum sativum) nodules was investigated. In addition, the effect of certain mutations blocking rhizobial infection and subsequent plant cell and bacteroid differentiation on cytokinin distribution in nodules was analysed.
METHODS
Patterns of cytokinin and auxin in pea nodules were profiled using both responsive genetic constructs and antibodies.
KEY RESULTS
In wild-type nodules, cytokinins were found in the meristem, infection zone and apical part of the nitrogen fixation zone, whereas auxin localization was restricted to the meristem and peripheral tissues. We found significantly altered cytokinin distribution in sym33 and sym40 pea mutants defective in IPD3/CYCLOPS and EFD transcription factors, respectively. In the sym33 mutants impaired in bacterial accommodation and subsequent nodule differentiation, cytokinin localization was mostly limited to the meristem. In addition, we found significantly decreased expression of LOG1 and A-type RR11 as well as KNOX3 and NIN genes in the sym33 mutants, which correlated with low cellular cytokinin levels. In the sym40 mutant, cytokinins were detected in the nodule infection zone but, in contrast to the wild type, they were absent in infection droplets.
CONCLUSIONS
In conclusion, our findings suggest that enhanced cytokinin accumulation during the late stages of symbiosis development may be associated with bacterial penetration into the plant cells and subsequent plant cell and bacteroid differentiation.
背景与目的
最近的研究结果表明,结瘤因子信号与影响根瘤发育的植物激素调节紧密相关。由于这种相互作用的机制仍知之甚少,因此本研究调查了豌豆(Pisum sativum)根瘤中细胞分裂素和生长素的分布。此外,还分析了某些阻断根瘤菌侵染以及随后植物细胞和类菌体分化的突变对根瘤中细胞分裂素分布的影响。
方法
使用响应性遗传构建体和抗体分析豌豆根瘤中细胞分裂素和生长素的分布模式。
主要结果
在野生型根瘤中,细胞分裂素存在于顶端分生组织、侵染区和固氮区的顶端,而生长素的定位仅限于顶端分生组织和周围组织。我们发现,在分别缺乏 IPD3/CYCLOPS 和 EFD 转录因子的 sym33 和 sym40 豌豆突变体中,细胞分裂素的分布发生了显著改变。在 sym33 突变体中,细菌容纳和随后的根瘤分化受损,细胞分裂素的定位主要局限于顶端分生组织。此外,我们发现 sym33 突变体中 LOG1 和 A 型 RR11 以及 KNOX3 和 NIN 基因的表达显著降低,这与细胞内细胞分裂素水平降低有关。在 sym40 突变体中,根瘤侵染区检测到细胞分裂素,但与野生型不同的是,侵染液滴中没有细胞分裂素。
结论
综上所述,我们的研究结果表明,在共生发育的后期,细胞分裂素的积累增加可能与细菌穿透植物细胞以及随后的植物细胞和类菌体分化有关。
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