Plant, bacteria and fungi crosstalk: Direct and indirect biocontrol mechanisms of sugarcane rhizoplane Pseudomonas species against Fusarium wilt

IF 3.4 3区生物学 Q1 PLANT SCIENCES

Rhizosphere Pub Date : 2024-08-19 DOI:10.1016/j.rhisph.2024.100952

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引用次数: 0

Abstract

In order to identify an effective rhizoplane Pseudomonas species to combat sugarcane wilt pathogen (Fusarium sacchari), twenty Pseudomonas isolates were obtained from the sugarcane rhizoplane of different genotypes. The three-tier confrontation (direct, indirect and remote) tests revealed antagonistic activity of the bacteria, bacterial non-volatile and volatile compounds. In dual culture assay, SRP19 (46.30%) and SRP20 (39.30%) have shown the highest inhibition against F. sacchari. 16S-23S rDNA sequencing identified them as Pseudomonas chlororaphis subsp. aurantiaca (SRP19) and Pseudomonas aeruginosa (SRP20). Exploration of biocontrol mechanisms revealed the potential roles for IAA production, extracellular enzyme secretion (proteases, cellulases and chitinases), HCN synthesis, siderophore production, pyocyanin or fluorescein production and phosphate solubilization. The molecular analysis revealed the presence of genes (phz, prnD, phlD and pltC) involved in the biosynthesis of antimicrobial peptides like phenazines, pyrrolnitrin, 2,4-diacetyl phloroglucinol and pyoleuteorin, involved in suppressing Fusarium. The antagonistic activity was further confirmed under greenhouse conditions by sett treatment with potential antagonistic isolates, which increased germination and reduced the pre-emergent mortality by 60% and post-emergent seedling mortality by 76% in SRP19 treated pots. The study revealed that the isolate Pseudomonas chlororaphis subsp. aurantiaca strain SRP19 can act as PGPR with both plant growth promoting and pathogen suppressing activity that can be used as an effective biocontrol agent against Fusarium wilt of sugarcane.

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植物、细菌和真菌之间的相互影响：甘蔗根瘤假单胞菌对镰刀菌枯萎病的直接和间接生物防治机制

为了确定有效防治甘蔗枯萎病病原体（镰刀菌）的根瘤假单胞菌种类，研究人员从不同基因型的甘蔗根瘤中获得了 20 个假单胞菌分离株。三层对抗（直接、间接和远距离）试验显示了细菌、细菌非挥发性和挥发性化合物的拮抗活性。在双重培养试验中，SRP19（46.30%）和 SRP20（39.30%）对 F. sacchari 的抑制率最高。16S-23S rDNA 测序确定它们是绿假单胞菌亚种（SRP19）和铜绿假单胞菌（SRP20）。对生物防治机制的探索表明，假单胞菌可能在 IAA 生产、胞外酶分泌（蛋白酶、纤维素酶和几丁质酶）、HCN 合成、嗜苷酸生产、花青素或荧光素生产和磷酸盐溶解等方面发挥作用。分子分析表明，存在参与生物合成抗菌肽的基因（phz、prnD、phlD 和 pltC），如参与抑制镰刀菌的酚嗪、吡咯烷酮、2,4-二乙酰基氯葡萄糖醇和 pyoleuteorin。在温室条件下，用潜在的拮抗分离物进行沉降处理，进一步证实了其拮抗活性，在 SRP19 处理的花盆中，发芽率提高，萌发前死亡率降低 60%，萌发后幼苗死亡率降低 76%。该研究表明，SRP19 菌株中的绿假单胞菌亚种可作为 PGPR，同时具有促进植物生长和抑制病原体的活性，可作为一种有效的生物防治剂来防治甘蔗镰刀菌枯萎病。

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来源期刊

Rhizosphere Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

5.70

自引率

8.10%

发文量

155

审稿时长

29 days

期刊介绍： Rhizosphere aims to advance the frontier of our understanding of plant-soil interactions. Rhizosphere is a multidisciplinary journal that publishes research on the interactions between plant roots, soil organisms, nutrients, and water. Except carbon fixation by photosynthesis, plants obtain all other elements primarily from soil through roots. We are beginning to understand how communications at the rhizosphere, with soil organisms and other plant species, affect root exudates and nutrient uptake. This rapidly evolving subject utilizes molecular biology and genomic tools, food web or community structure manipulations, high performance liquid chromatography, isotopic analysis, diverse spectroscopic analytics, tomography and other microscopy, complex statistical and modeling tools.