Genomic analysis of Sinorhizobium meliloti LPU63, an acid-tolerant and symbiotically efficient alfalfa-nodulating rhizobia

IF 3.5 Q1 AGRONOMY Frontiers in Agronomy Pub Date : 2023-07-27 DOI:10.3389/fagro.2023.1175524
J. H. Cafiero, María Salvetti Casasco, M. Lozano, C. Vacca, Silvina Laura López García, W. Draghi, A. Lagares, M. F. Del Papa
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Abstract

The growth and persistence of alfalfa (Medicago sativa), a perennial legume capable of producing high yields of high-quality forage, is reduced in moderately acidic soils. The low performance of alfalfa at low pH is due to numerous factors that affect the host plant, their rhizobia, and the symbiotic interaction. Sinorhizobium meliloti LPU63 was isolated from acid topsoil (in Argentina) and showed to be a highly competitive and efficient N2-fixing rhizobium under both neutral and moderately acidic soil conditions. In this study, we obtained a draft of the LPU63 genome sequence using Illumina HiSeq4000. The whole genome phylogenetic analysis confirmed the taxonomic position of LPU63 as a S. meliloti strain and the multilocus sequence analysis confirmed that LPU63 is not related to the strains used in Argentina in bioformulations. The genomic analysis showed that beyond the canonical chromosome, pSymA, and pSymB, LPU63 strain has an accessory plasmid that codes for a repABC origin of replication and a conjugative T4SS, suggesting that this plasmid could be self-transmissible. In addition, the complete denitrification pathway (i.e., the gene clusters nap, nir, nor, and nos), including napC and nosZ, which could be used as an alternative respiration route under hypoxic conditions with moderate N2O emissions was found. Also, genes associated with plant growth-promoting activities (PGPR) and the degradation of phenylacetic acid (PAA) were identified. LPU63 is a highly melanogenic strain, a property that could enhance its survival under soil conditions, and the genome data showed a particular arrangement of the genes involved in melanin production. The information regarding LPU63 activities compatible with plant-growth promotion phenotypes, together with other characteristics mentioned here (melanin production, potential moderate N2O emissions), constitute the basis of future experiments toward the rational design of a novel bioinoculant for the environmentally sustainable production of alfalfa.
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耐酸共生高效苜蓿结瘤根瘤菌meliloti中华根瘤菌LPU63的基因组分析
苜蓿(Medicago sativa)是一种多年生豆科植物,能够生产高质量的牧草,在中等酸性土壤中生长和持久性降低。紫花苜蓿在低pH下的低生产性能是由于多种因素影响了寄主植物、它们的根瘤菌和共生相互作用。从阿根廷酸性表土中分离到Sinorhizobium meliloti LPU63,在中性和中酸性土壤条件下均表现出高度竞争性和高效的固氮根瘤菌。在这项研究中,我们使用Illumina HiSeq4000获得了LPU63基因组序列的草图。全基因组系统发育分析证实了LPU63为S. meliloti菌株,多位点序列分析证实LPU63与阿根廷生物制剂中使用的菌株无亲缘关系。基因组分析表明,除了典型染色体pSymA和pSymB外,LPU63菌株还有一个辅助质粒,该质粒编码复制的repABC起源和共轭T4SS,表明该质粒可能具有自传性。此外,还发现了完整的反硝化途径(即nap、nir、nor和nos基因簇),包括napC和nosZ,可以作为缺氧条件下适度N2O排放的替代呼吸途径。此外,还鉴定了与植物生长促进活性(PGPR)和苯乙酸(PAA)降解相关的基因。LPU63是一种高度黑色素生成菌株,这种特性可以提高其在土壤条件下的存活率,基因组数据显示了与黑色素生成有关的基因的特殊排列。有关LPU63活性与植物生长促进表型相容的信息,以及本文提到的其他特性(黑色素产生,潜在的适度N2O排放),构成了未来合理设计新型生物接种剂用于环境可持续生产苜蓿的实验基础。
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
自引率
0.00%
发文量
123
审稿时长
13 weeks
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