Departamento de Bioquímica, Instituto Nacional de Cardiología, Mexico City, Mexico.
Environ Microbiol Rep. 2013 Dec;5(6):799-808. doi: 10.1111/1758-2229.12080. Epub 2013 Jul 25.
To assess what defence mechanisms are triggered by Cd(2+) stress in Methanosarcina acetivorans, cells were cultured at different cadmium concentrations. In the presence of 100 μM CdCl2, the intracellular contents of cysteine, sulfide and coenzyme M increased, respectively, 8, 27 and 7 times versus control. Cells incubated for 24 h in medium with less cysteine and sulfide removed up to 80% of Cd(2+) added, whereas their cysteine and coenzyme M contents increased 160 and 84 times respectively. Cadmium accumulation (5.2 μmol/10-15 mg protein) resulted in an increase in methane synthesis of 4.5 times in cells grown on acetate. Total phosphate also increased under high (0.5 mM) Cd(2+) stress. On the other hand, cells preadapted to 54 μM CdCl2 and further exposed to > 0.63 mM CdCl2 developed the formation of a biofilm with an extracellular matrix constituted by carbohydrates, DNA and proteins. Biofilm cells were able to synthesize methane. The data suggested that increased intracellular contents of thiol molecules and total phosphate, and biofilm formation, are all involved in the cadmium resistance mechanisms in this marine archaeon.
为了评估 Cd(2+) 胁迫在产甲烷古菌 Methanosarcina acetivorans 中引发了哪些防御机制,我们在不同的镉浓度下培养细胞。在 100μM CdCl2 的存在下,细胞内半胱氨酸、硫化物和辅酶 M 的含量分别比对照增加了 8、27 和 7 倍。在含有较少半胱氨酸和硫化物的培养基中孵育 24 小时的细胞去除了高达 80%添加的 Cd(2+),而它们的半胱氨酸和辅酶 M 含量分别增加了 160 和 84 倍。在乙酸盐上生长的细胞中,镉积累(5.2μmol/10-15mg 蛋白)导致甲烷合成增加了 4.5 倍。在高浓度(0.5mM)Cd(2+)胁迫下,总磷酸盐也增加了。另一方面,预先适应于 54μM CdCl2 并进一步暴露于 >0.63mM CdCl2 的细胞形成了一个由碳水化合物、DNA 和蛋白质组成的细胞外基质的生物膜。生物膜细胞能够合成甲烷。数据表明,细胞内巯基分子和总磷酸盐含量的增加以及生物膜的形成都参与了这种海洋古菌的镉抗性机制。
