铜绿假单胞菌cd6c作为环境友好型生物杀菌剂的潜力

Urooj Naeem, M. Qazi, I. Haq, M. Afzaal, I. Warraich
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摘要

目前的研究于2019年在拉合尔Auriga集团公司微生物实验室进行,旨在筛选和分离一种生物防治剂,通过降低疾病发病率和提高玉米农艺性能来抑制phaseolina Macrophomina (M. phaseolina)和incarnatum (F. incarnatum)的生长。用平板培养法筛选了对真菌病原菌的生物防治剂,如引起炭足腐病和秸秆腐病的phaseolina和F. incarnatum。在37株分离物中,从压榨泥中分离出的CD6C具有很强的抗真菌潜力。16S rRNA序列分析显示CD6C与铜绿假单胞菌的相似性为100%。平板培养时,菜绿分枝杆菌和incarnatum分枝杆菌的生长抑制率分别为46.5 + 1.9和49.8 + 1.1。盆栽试验中,与对照相比,上清液对菜绿支原体炭腐菌的抑菌活性最好。铜绿假单胞菌CD6C处理对菜绿分枝杆菌引起的玉米足腐病有降低作用。研究发现,铜绿假单胞菌CD6C可抑制phaseolina的生长,使玉米植株生长参数恶化。这些数据支持从铜绿假单胞菌CD6C中发现更多抗真菌化合物,从而实现有效和成功的病原体生物防治。此外,研究表明,P. aeruginosa CD6C对玉米植株有利,应通过减少化学农药用量来促进植物生长和抑制真菌病害,以控制污染。
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POTENTIAL OF P. AERUGINOSA CD6C AS ENVIRONMENT FRIENDLY BIO-FUNGICIDE
The current study was conducted at Microbiology Laboratory, Auriga Group of Companies, Lahore duing 2019, aimed for screening and isolating a biocontrol agent that inhibits Macrophomina phaseolina (M. phaseolina) and Fusarium incarnatum (F. incarnatum) growth by reducing disease incidence and increases maize agronomic performance. A plate culture assay was used to screen biocontrol agent for fungal pathogens such as M. phaseolina and F. incarnatum responsible for charcoal foot rot and stalk rot. Among 37 isolates, CD6C isolated from press mud, demonstrated a substantial antifungal potential. The 16S rRNA sequence analysis showed 100% similarity between CD6C and Pseudomonas aeruginosa. The growth inhibition % during plate culture assay for M. phaseolina and F. incarnatum was 46.5 + 1.9 and 49.8 + 1.1, respectively. The supernatant also had the best antifungal activity against charcoal rots caused by M. phaseolina in comparison to the control during the pot experiment. P. aeruginosa CD6C treatment showed a decline in maize foot rot caused by M. phaseolina. Research findings showed that P. aeruginosa CD6C could impede M. phaseolina growth and exacerbate maize plant growth parameters. The data support discovering more antifungal compounds from P. aeruginosa CD6C, which can lead to competent and successful pathogen biocontrol treatment. Moreover, study suggested that P. aeruginosa CD6C was found to be auspicious for maize plant and should be promoted for plant growth enhancement and suppression of fungal diseases by scaling down chemical pesticides for pollution control.
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