野生盐生水稻促植物生长内生真菌的研究

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Arifa Akhter Airin, Md Iyasir Arafat, Rifat Ara Begum, Md Rakibul Islam, Zeba Islam Seraj
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引用次数: 0

摘要

植物促生长内生真菌(PGPEF)与盐生植物相关,具有提高作物耐盐性和生产力的潜力。这反过来又有可能促进和改善受盐胁迫影响的沿海土地的耕作方式。方法对野生盐生水稻(Oryza coarctata)内生真菌进行分离、鉴定、鉴定,研究其在盐胁迫和非盐胁迫下对水稻生长各发育阶段及产量的影响。本研究从盐生野生水稻Oryza coarctata中分离到3种不同的内生真菌。通过ITS区测序,鉴定出2株分离株为阿根廷Talaromyces adpressus (OPCRE2)和阿根廷Talaromyces argentinensis (OPCRh1)。NPCRE2经全基因组测序证实为一株新菌株,命名为威氏曲霉Oc streb1 (Aspergillus welwitschiae Oc streb1)。这些内生菌在体外表现出多种植物生长促进(PGP)能力(如IAA、acc脱氨酶和铁载体生产、磷酸盐和锌的溶解以及固氮),其中AwOc streb1在高盐度(900 mm)下的效率明显高于其他两种菌株。这些真菌在商品水稻(Oryza sativa)上的独立应用对植株生长有显著的促进作用,特别是在AwOc streb1接种剂的情况下,在无盐对照和100-m -m盐胁迫植株的苗期代谢产物和叶绿素含量均有提高。与此同时,AwOc streb1处理的植株在盐水条件下的h2o2水平、电解质泄漏和Na + /K +比显著降低。盐胁迫下,这些植物的SOS1(盐过敏感1)基因的表达量也增加了1.6倍。该菌株在无盐对照和45-m -m盐胁迫接种植株繁殖期的育性、分蘖、穗数和实粒数均有显著提高。因此,它们的产量差异为125.16%和203.96% (p <与未接种的对照相比,在正常和生理盐水条件下定殖植株的差异分别为0.05)。我们提出AwOc streb1是一种潜在的生态友好型生物肥料配方,可以改善孟加拉国高盐沿海地区水稻或任何其他作物的种植和产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plant growth-promoting endophytic fungi of the wild halophytic rice Oryza coarctata
Abstract Background Plant growth-promoting endophytic fungi (PGPEF) that are associated with halophytes have the potential to boost crop salinity tolerance and productivity. This in turn has the potential of enabling and improving cultivation practices in coastal lands affected by salt stress. Methods Endophytic fungi from the wild halophytic rice Oryza coarctata were isolated, characterized, identified, and studied for their effects on all developing stages of rice plant growth and their yields both with and without salt stress. Key results In this study, three different fungal endophytes were isolated from the halophytic wild rice Oryza coarctata . Two isolates were identified as Talaromyces adpressus (OPCRE2) and Talaromyces argentinensis (OPCRh1) by ITS region sequencing. The remaining isolate NPCRE2 was confirmed as a novel strain named Aspergillus welwitschiae Oc streb1 ( AwOc streb1) by whole genome sequencing. These endophytes showed various plant growth-promoting (PGP) abilities in vitro (e.g., IAA, ACC-deaminase and siderophore production, phosphate, and zinc solubilization as well as nitrogen fixation), where AwOc streb1 was significantly more efficient compared to the other two isolates at high salinity (900 mm). Independent application of these fungi in commercial rice ( Oryza sativa ) showed significant elevation in plant growth, especially in the case of the AwOc streb1 inoculants, which had enhanced metabolite and chlorophyll content at the seedling stage in both no-salt control and 100-m m salt-stressed plants. At the same time, AwOc streb1-treated plants had a significantly lower level of H 2 O 2 , electrolyte leakage, and Na + /K + ratio under saline conditions. Higher expression (1.6 folds) of the SOS1 (salt overly sensitive 1) gene was also observed in these plants under salinity stress. This strain also improved percent fertility, tillering, panicle number, and filled grain number in both no-salt control and 45-m m salt-stressed inoculated plants at the reproductive stage. Consequently, the differences in their yield was 125.16% and 203.96% ( p < 0.05) in colonized plants in normal and saline conditions, respectively, compared to uninoculated controls. Conclusions We propose that AwOc streb1 is a potential candidate for an eco-friendly biofertilizer formula to improve the cultivation and yield of rice or any other crop in the highly saline coastal regions of Bangladesh.
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CiteScore
7.20
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4.30%
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