真菌内生物种 Fusariumannulatum 和 Fusariumsolani:鉴定、分子特征和植物生长促进特性研究

IF 0.7 Q4 PLANT SCIENCES
Soma Biswas, Suma Sarojini
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引用次数: 0

摘要

内生真菌可通过产生植物激素、溶解大量营养元素、固氮等直接促进植物生长,或通过产生氨、苷元、氰化氢或胞外酶等间接抑制植物病原体的生长,从而起到生物控制剂的作用,因此对内生真菌的研究受到了广泛关注。本研究旨在从Alternantheraphiloxeroides中分离真菌内生菌,并评估其对植物生长的促进作用和抗菌活性。研究人员从A. philoxeroides的叶、根和茎等不同部位共分离出9株真菌内生菌株。结果表明,菌株 MEFAphS1 和 MEFAphR3 具有促进植物生长的积极特性,包括磷酸盐溶解、IAA(吲哚乙酸)产生和氨产生。MEFAphS1 的 IAA 产量最高,浓度为 46.635±1.04 µg/mL,而 MEFAphR3 的氨氮产量最高(0.903±0.01 µg/mL)。MEFAphS1 的磷酸盐溶解指数(PSI)最高(1.5±0.10)。MEFAphS1 还对弧菌、肺炎链球菌和副溶血性弧菌具有抗菌活性,其中对弧菌的抑制区最大(28±1 mm)。相比之下,MEFAphR3 对副溶血性弧菌的抑制区为 8±1.53 毫米。分子鉴定显示,分离物 MEFAphS1 和 MEFAphR3 分别为 Fusariumsolani 和 F.annulatum。这些结果证实了真菌内生菌作为植物生物肥料和生物增效剂提高作物产量的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fungal endophytic species Fusariumannulatum and Fusariumsolani: identification, molecular characterization, and study of plant growth promotion properties
Research on endophytic fungi has gained significant interest due to their potential to enhance plant growth directly by producingphytohormones, solubilizing macronutrients, fixing nitrogen, or indirectly inhibiting phytopathogens growth by producing ammonia, siderophore, hydrogen cyanide, or extracellular enzymes, thereby acting as biocontrol agents. The present study aimed to isolate fungal endophytes from Alternantheraphiloxeroidesand evaluate their plant growth promotion and antimicrobial activity. In total, nine fungal endophytic strains were isolated from different parts of A. philoxeroides such as leaves, roots, and stems. The results demonstrate that the strains MEFAphS1 and MEFAphR3 exhibited positive plant growth promotion properties,including phosphate solubilization, and IAA (Indoleacetic acid) production, and ammonia production. The IAA production was highest for MEFAphS1, with a concentration of 46.635±1.04 µg/mL, while MEFAphR3 displayed the highest ammonia production (0.903±0.01 µg/mL). The phosphate solubilization index (PSI) is the maximum for MEFAphS1 (1.5±0.10). MEFAphS1 also exhibited antibacterial activity against Vibrio vulnificus, Streptococcus pneumoniae, and V.parahaemolyticus,with the most substantial inhibition zone observed against V.vulnificus(28±1 mm). In contrast, MEFAphR3 showed an inhibition zone of 8±1.53 mm against V. parahaemolyticus. Molecular identification revealed the identity of the isolates MEFAphS1 and MEFAphR3 as Fusariumsolaniand F.annulatum. These results thus confirm the possible applications of the fungal endophytes as plant biofertilizers and bio-enhancers to increase crop productivity.
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来源期刊
Plant Science Today
Plant Science Today PLANT SCIENCES-
CiteScore
1.50
自引率
11.10%
发文量
177
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