Abstract
Microbial degradation is an important route for removing environmental microcystins (MCs). Here, we investigated the ecological distribution of microcystin degraders (mlr-genotype), and the relationship between the substrate specificity of the microcystin degrader and the profile of microcystin congener production in the habitat. We showed that microcystin degraders were widely distributed and closely associated with Microcystis abundance in Lake Taihu, China. We characterized an indigenous degrader, Sphingopyxis N5 in the northern Lake Taihu, and it metabolized six microcystin congeners in increasing order (RR > LR > YR > LA > LF and LW). Such a substrate-specificity pattern was congruent to the order of the dominance levels of these congeners in northern Lake Taihu. Furthermore, a meta-analysis on global microcystin degraders revealed that the substrate-specificity patterns varied geographically, but generally matched the profiles of microcystin congener production in the degrader habitats, and the indigenous degrader typically metabolized well the dominant MC congeners, but not the rare congeners in the habitat. This highlighted the phenotypic congruence between microcystin production and degradation in natural environments. We theorize that such congruence resulted from the metabolic adaptation of the indigenous degrader to the local microcystin congeners. Under the nutrient microcystin selection, the degraders might have evolved to better exploit the locally dominant congeners. This study provided the novel insight into the ecological distribution and adaptive degradation of microcystin degraders.
Highlights
Freshwater cyanobacterial Microcystis blooms can produce potent liver toxin microcystin that presents a serious threat to global public health
We proposed the phenotypic congruence between microcystin degradation and production was associated with metabolic adaptation of degrader to the production of local microcystin congeners via genetic mutation in the degradative enzymes, and under the nutrient microcystin selection the indigenous microcystin degrader has evolved to better exploit these locally dominant microcystin congeners than the minor ones
This study addressed two knowledge gaps regarding the ecological distribution and adaptive degradation of indigenous microcystin degraders
Summary
Freshwater cyanobacterial Microcystis blooms can produce potent liver toxin microcystin that presents a serious threat to global public health. Microcystins can be degraded by certain microbes [1,2,3,4]. The production and degradation of microcystins are a pair of important ecological phenomena. Compared to substantial studies of microcystin producers, our understanding of the eco-physiology of microcystin degraders remains relatively limited.
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