Environmental and Computational Chemistry Group, School of Pharmaceutical Sciences, University of Cartagena, Zaragocilla Campus, Cartagena, 130015, Colombia.
Grupo de Estudios Químicos y Biológicos, Facultad de Ciencias Básicas, Universidad Tecnológica de Bolívar, POB 130001, Cartagena de Indias D. T. y C, Colombia.
Biodegradation. 2024 Aug;35(5):601-620. doi: 10.1007/s10532-024-10079-0. Epub 2024 Apr 16.
Three extremophile bacterial strains (BBCOL-009, BBCOL-014 and BBCOL-015), capable of degrading high concentrations of perchlorate at a range of pH (6.5 to 10.0), were isolated from Colombian Caribbean Coast sediments. Morphological features included Gram negative strain bacilli with sizes averaged of 1.75 × 0.95, 2.32 × 0.65 and 3.08 × 0.70 μm, respectively. The reported strains tolerate a wide range of pH (6.5 to 10.0); concentrations of NaCl (3.5 to 7.5% w/v) and KClO (250 to 10000 mg/L), reduction of KClO from 10 to 25%. LB broth with NaCl (3.5-30% w/v) and KClO4- (250-10000 mg/L) were used in independent trials to evaluate susceptibility to salinity and perchlorate, respectively. Isolates increased their biomass at 7.5 % (w/v) NaCl with optimal development at 3.5 % NaCl. Subsequently, ClO- reduction was assessed using LB medium with 3.5% NaCl and 10000 mg/L ClO-. BBCOL-009, BBCOL-014 and BBCOL-015 achieved 10%, 17%, and 25% reduction of ClO-, respectively. The 16 S rRNA gene sequence grouped them as Bacillus flexus T6186-2, Bacillus marisflavi TF-11 (T), and Bacillus vietnamensis 15 - 1 (T) respectively, with < 97.5% homology. In addition, antimicrobial resistance to ertapenem, vancomycine, amoxicillin clavulanate, penicillin, and erythromycin was present in all the isolates, indicating their high adaptability to stressful environments. The isolated strains from marine sediments in Cartagena Bay, Colombia are suitable candidates to reduce perchlorate contamination in different environments. Although the primary focus of the study of perchlorate-reducing and resistant bacteria is in the ecological and agricultural realms, from an astrobiological perspective, perchlorate-resistant bacteria serve as models for astrobiological investigations.
三株嗜极细菌(BBCOL-009、BBCOL-014 和 BBCOL-015)从哥伦比亚加勒比海岸的沉积物中分离出来,能够在 pH 值范围为 6.5 至 10.0 时降解高浓度的高氯酸盐。形态特征包括革兰氏阴性杆菌,大小平均分别为 1.75×0.95、2.32×0.65 和 3.08×0.70μm。所报道的菌株能够耐受广泛的 pH 值(6.5 至 10.0);NaCl(3.5 至 7.5%w/v)和 KClO4-(250 至 10000mg/L)的浓度,将 KClO4-从 10 减少至 25%。LB 肉汤中添加 NaCl(3.5-30%w/v)和 KClO4-(250-10000mg/L),分别用于独立试验以评估对盐度和高氯酸盐的敏感性。在 7.5%(w/v)NaCl 中,分离物增加了其生物量,在 3.5%NaCl 中具有最佳发育。随后,使用含有 3.5%NaCl 和 10000mg/L ClO-的 LB 培养基评估 ClO-还原。BBCOL-009、BBCOL-014 和 BBCOL-015 分别实现了 10%、17%和 25%的 ClO-还原。16S rRNA 基因序列将它们分别归类为 Flexus bacillus T6186-2、Marisflavi bacillus TF-11(T)和 Vietnamensis bacillus 15-1(T),同源性<97.5%。此外,所有分离物均对厄他培南、万古霉素、阿莫西林克拉维酸、青霉素和红霉素具有抗微生物耐药性,表明它们对压力环境具有高度适应性。从哥伦比亚卡塔赫纳湾海洋沉积物中分离的菌株是在不同环境中减少高氯酸盐污染的合适候选物。尽管研究耐高氯酸盐和耐抗生素的细菌的主要重点是在生态和农业领域,但从天体生物学的角度来看,耐高氯酸盐的细菌是天体生物学研究的模型。
