Naveed Muhammad, Sohail Younas, Khalid Nauman, Ahmed Iftikhar, Mumtaz Abdul Samad
Department of Plant Sciences, Quaid-i-Azam University, Islamabad 45320, Pakistan.
Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 113-8657, Japan.
J Microbiol Biotechnol. 2015 Aug;25(8):1349-60. doi: 10.4014/jmb.1501.01075.
The rhizospheric zone abutting plant roots usually clutches a wealth of microbes. In the recent past, enormous genetic resources have been excavated with potential applications in host plant interaction and ancillary aspects. Two Pseudomonas strains were isolated and identified through 16S rRNA and rpoD sequence analyses as P. fluorescens QAU67 and P. putida QAU90. Initial biochemical characterization and their root-colonizing traits indicated their potential role in plant growth promotion. Such aerobic systems, involved in gluconic acid production and phosphate solubilization, essentially require the pyrroloquinoline quinine (PQQ)- dependent glucose dehydrogenase (GDH) in the genome. The PCR screening and amplification of GDH and PQQ and subsequent induction of mutagenesis characterized their possible role as antioxidants as well as in growth promotion, as probed in vitro in lettuce and in vivo in rice, bean, and tomato plants. The results showed significant differences (p < or = 0.05) in parameters of plant height, fresh weight, and dry weight, etc., deciphering a clear and in fact complementary role of GDH and PQQ in plant growth promotion. Our study not only provides direct evidence of the in vivo role of GDH and PQQ in host plants but also reveals their functional inadequacy in the event of mutation at either of these loci.
毗邻植物根系的根际区域通常含有大量微生物。最近,人们挖掘出了大量具有潜在应用价值的遗传资源,可用于宿主植物相互作用及相关方面。通过16S rRNA和rpoD序列分析,分离并鉴定出两株假单胞菌菌株,分别为荧光假单胞菌QAU67和恶臭假单胞菌QAU90。初步的生化特性及其根部定殖特性表明它们在促进植物生长方面具有潜在作用。这种参与葡萄糖酸生产和磷溶解的需氧系统,在基因组中基本上需要吡咯喹啉醌(PQQ)依赖性葡萄糖脱氢酶(GDH)。对GDH和PQQ进行PCR筛选、扩增以及随后的诱变诱导,确定了它们在生菜体外和水稻、豆类及番茄植株体内作为抗氧化剂以及促进生长方面的可能作用。结果显示,在株高、鲜重和干重等参数方面存在显著差异(p≤0.05),这表明GDH和PQQ在促进植物生长方面具有明确且互补的作用。我们的研究不仅提供了GDH和PQQ在宿主植物体内作用的直接证据,还揭示了在这两个基因座中任何一个发生突变时它们的功能缺陷。
