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During microbial surveillance of the Mars 2020 spacecraft assembly facility, two novel bacterial strains, potentially capable of producing lasso peptides, were identified. Characterization using a polyphasic taxonomic approach, whole-genome sequencing and phylogenomic analyses revealed a close genetic relationship among two strains from Mars 2020 cleanroom floors (179-C4-2-HS, 179-J1A1-HS), one strain from the Agave plant (AT2.8), and another strain from wheat-associated soil (V4I25). All four strains exhibited high 16S rRNA gene sequence similarity (>99.2%) and low average nucleotide identity (ANI) with NBRC 15566, delineating new phylogenetic branches within the genus. Detailed molecular analyses, including B (90.2%), ANI (86.4%), average amino acid identity (87.8%) phylogenies, digital DNA-DNA hybridization (32.6%), and percentage of conserved proteins (77.7%) indicated significant divergence from NBRC 15566. Consequently, these strains have been designated sp. nov., with the type strain 179-C4-2-HS (DSM 115941 = NRRL B-65665). grew at 4°C to 45°C, pH range of 6.0 to 9.5, and 0.5% to 5% NaCl. The major cellular fatty acids are iso-C and anteiso-C. The dominant polar lipids include diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, and an unidentified aminolipid. Metagenomic analysis within NASA cleanrooms revealed that is scarce (17 out of 236 samples). Genes encoding the biosynthesis pathway for lasso peptides were identified in all strains and are not commonly found in other species, except in 7 out of 26 recognized species. This study highlights the unique metabolic capabilities of , underscoring their potential in antimicrobial research and biotechnology.

IMPORTANCE

The microbial surveillance of the Mars 2020 assembly cleanroom led to the isolation of novel with potential applications in cleanroom environments, such as hospitals, pharmaceuticals, semiconductors, and aeronautical industries. genomes were found to possess genes responsible for producing lasso peptides, which are crucial for antimicrobial defense, communication, and enzyme inhibition. Isolation of from cleanrooms, Agave plants, and dryland wheat soils, suggested niche-specific ecology and resilience under various environmentally challenging conditions. The discovery of potent antimicrobial agents from novel underscores the importance of genome mining and the isolation of rare microorganisms. Bioactive gene clusters potentially producing nicotianamine-like siderophores were found in genomes. These siderophores can be used for bioremediation to remove heavy metals from contaminated environments, promote plant growth by aiding iron uptake in agriculture, and treat iron overload conditions in medical applications.

未标记

在对火星2020号航天器装配设施进行微生物监测期间，发现了两种可能能够产生套索肽的新型细菌菌株。采用多相分类法、全基因组测序和系统发育基因组分析进行表征，结果显示来自火星2020号洁净室地面的两种菌株（179 - C4 - 2 - HS、179 - J1A1 - HS）、一种来自龙舌兰植物的菌株（AT2.8）和另一种来自小麦相关土壤的菌株（V4I25）之间存在密切的遗传关系。所有这四种菌株与日本微生物菌种保藏中心15566（NBRC 15566）的16S rRNA基因序列相似度很高（>99.2%），但平均核苷酸同一性（ANI）较低，在该属内划定了新的系统发育分支。详细的分子分析，包括B（90.2%）、ANI（86.4%）、平均氨基酸同一性（87.8%）系统发育分析、数字DNA - DNA杂交（32.6%）和保守蛋白百分比（77.7%）表明它们与NBRC 15566有显著差异。因此，这些菌株被指定为新种，模式菌株为179 - C4 - 2 - HS（DSM 115941 = NRRL B - 65665）。该菌株在4°C至45°C、pH值6.0至9.5以及0.5%至5% NaCl的条件下生长。主要的细胞脂肪酸为异C和anteiso - C。主要的极性脂质包括双磷脂酰甘油、磷脂酰甘油、磷脂酰乙醇胺和一种未鉴定的氨基脂质。美国国家航空航天局洁净室内的宏基因组分析表明该菌株很稀少（236个样本中有17个）。在所有该菌株中都鉴定出了编码套索肽生物合成途径的基因，除了26个已确认物种中的7个外，在其他该物种中通常未发现这些基因。这项研究突出了该菌株独特的代谢能力，强调了它们在抗菌研究和生物技术中的潜力。

重要性

对火星2020号装配洁净室的微生物监测导致分离出新型该菌株，其在洁净室环境（如医院、制药、半导体和航空工业）中具有潜在应用。发现该菌株的基因组拥有负责产生套索肽的基因，套索肽对抗菌防御、通讯和酶抑制至关重要。从洁净室、龙舌兰植物和旱地小麦土壤中分离出该菌株，表明其在各种环境挑战条件下具有特定生态位适应性和恢复力。从新型该菌株中发现强效抗菌剂强调了基因组挖掘和分离稀有微生物的重要性。在该菌株基因组中发现了可能产生烟酰胺样铁载体的生物活性基因簇。这些铁载体可用于生物修复以从受污染环境中去除重金属、通过在农业中帮助铁吸收促进植物生长以及在医学应用中治疗铁过载情况。