Characterization of dark septate endophytic fungi Periconia macrospinosa isolated from roots of sugarcane in São Paulo, Brazil.

IF 1.1 4区综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES

Anais da Academia Brasileira de Ciencias Pub Date : 2024-12-06 eCollection Date: 2024-01-01 DOI:10.1590/0001-3765202420231367

Luana C Silva, Orivaldo José Saggin-Júnior, Marco Aurélio C Carneiro, Eliane Maria R DA Silva, Jerri Édson Zilli, Ricardo Luis L Berbara

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Abstract

Dark Septate Endophytic (DSE) fungi can benefit plants by optimizing nutrient uptake, biosynthesis of phytohormones-like compounds, and stress relief such as toxic metals. The objective was to characterize in vitro 57 strains of the DSE Periconia macrospinosa isolated from sugarcane roots, indicating the most promising in solubilizing phosphate sources, growing in different metal and vinasse contents, and producing molecules related to indoleacetic acid (IAA). The strains were from the Embrapa Agrobiology Fungi Collection. Over 35% of the strains solubilize calcium phosphate, highlighting A356 and A155. No strain solubilizes aluminum phosphate. Three strains did not grow in the presence of Cd (A333, A334, A163), but A226, A332, and A423 stand out showing high growth with Cd. All strains grew in the presence of Cu, Zn, and Vinasse. A163, A164, and A328 were even stimulated by Cu addition. A331 and A335 showed a marked growth decrease with Zn. All strains are highly adapted to grow in vinasse presence. A257 and A226 produced the highest amount of IAA. The most biotechnological potential strains are indicated by presenting high growth under Cd, Cu, Zn, and vinasse stress, associated with a high tolerance index to these pollutants, further calcium phosphate solubilization, or IAA production.

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巴西圣保罗甘蔗根中深隔内生真菌大棘周孢的鉴定。

暗隔内生真菌（Dark sepate Endophytic， DSE）可以通过优化植物的营养吸收、植物激素样化合物的生物合成以及释放有毒金属等应激物质而使植物受益。目的是对57株从甘蔗根中分离的大棘周孢（Periconia macrospinosa） DSE菌株进行体外鉴定，以确定其在溶解磷酸盐来源、在不同金属和酒液含量下生长以及产生与吲哚乙酸（IAA）相关的分子方面最有前景。菌株来自Embrapa Agrobiology Fungi Collection。超过35%的菌株可溶解磷酸钙，主要是A356和A155。没有菌株能溶解磷酸铝。3株菌株（A333、A334、A163）在Cd存在下不生长，但A226、A332和A423在Cd存在下生长突出。所有菌株在Cu、Zn和Vinasse存在下均能生长。A163、A164和A328均受Cu的刺激。A331和A335的生长随Zn的增加而明显下降。所有菌株都高度适应在有酒液存在的环境中生长。A257和A226产生的IAA量最高。最具生物技术潜力的菌株是在Cd、Cu、Zn和酒液胁迫下表现出高生长，对这些污染物具有较高的耐受性指数，进一步的磷酸钙增溶或IAA的产生。

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来源期刊

Anais da Academia Brasileira de Ciencias 综合性期刊-综合性期刊

CiteScore

2.20

自引率

0.00%

发文量

347

审稿时长

1 months

期刊介绍： The Brazilian Academy of Sciences (BAS) publishes its journal, Annals of the Brazilian Academy of Sciences (AABC, in its Brazilianportuguese acronym ), every 3 months, being the oldest journal in Brazil with conkinuous distribukion, daking back to 1929. This scienkihic journal aims to publish the advances in scienkihic research from both Brazilian and foreigner scienkists, who work in the main research centers in the whole world, always looking for excellence. Essenkially a mulkidisciplinary journal, the AABC cover, with both reviews and original researches, the diverse areas represented in the Academy, such as Biology, Physics, Biomedical Sciences, Chemistry, Agrarian Sciences, Engineering, Mathemakics, Social, Health and Earth Sciences.