Biomineralization is a known natural phenomenon associated with a wide range of
bacterial species. Bacterial-induced calcium carbonate precipitation by marine
isolates was investigated in this study. Three genera of ureolytic bacteria,
Sporosarcina sp., Bacillus sp. and
Brevundimonas sp. were observed to precipitate calcium
carbonate minerals. Of these species, Sporosarcina sp.
dominated the cultured isolates. B. lentus CP28 generated
higher urease activity and facilitated more efficient precipitation of calcium
carbonate at 3.24 ± 0.25 × 10−4 mg/cell. X-ray diffraction indicated
that the dominant calcium carbonate phase was calcite. Scanning electron
microscopy showed that morphologies of the minerals were dominated by cubic,
rhombic and polygonal plate-like crystals. The dynamic process of microbial
calcium carbonate precipitation revealed that B. lentus CP28
precipitated calcite crystals through the enzymatic hydrolysis of urea, and that
when ammonium ion concentrations reached 746 mM and the pH reached 9.6, that
favored calcite precipitation at a higher level of 96 mg/L. The results of this
research provide evidence that a variety of marine bacteria can induce calcium
carbonate precipitation, and may influence the marine carbonate cycle in natural
environments.
Huanglongbing (HLB) or citrus greening disease is a destructive disease of citrus worldwide, which is associated with Candidatus Liberibacter asiaticus. This phloem-limited fastidious pathogen is transmitted by the Asian citrus psyllid, Diaphorina citri, and appears to be an intracellular pathogen that maintains an intimate association with the psyllid or the plant throughout its life cycle. The molecular basis of the interaction of this pathogen with its hosts is not well understood. We hypothesized that, during infection, Ca. L. asiaticus differentially expresses the genes critical for its survival and/or pathogenicity in either host. To test this hypothesis, quantitative reverse transcription-polymerase chain reaction was performed to compare the gene expression of Ca. L. asiaticus in planta and in psyllid. Overall, 381 genes were analysed for their gene expression in planta and in psyllid. Among them, 182 genes were up-regulated in planta compared with in psyllid (P < 0.05), 16 genes were up-regulated in psyllid (P < 0.05) and 183 genes showed no statistically significant difference (P ≥ 0.05) in expression between in planta and in psyllid. Our study indicates that the expression of the Ca. L. asiaticus genes involved in transcriptional regulation, transport system, secretion system, flagella assembly, metabolic pathway and stress resistance are changed significantly in a host-specific manner to adapt to the distinct environments of plant and insect. To our knowledge, this is the first large-scale study to evaluate the differential expression of Ca. L. asiaticus genes in a plant host and its insect vector.
Microbiologically induced deterioration (MID) causes corrosion of concrete by producing acids (including organic and inorganic acids) that degrade concrete components and thus compromise the integrity of sewer pipelines and other structures, creating significant problems worldwide. Understanding of the fundamental corrosion process and the causal agents will help us develop an appropriate strategy to minimize the costs in repairs. This review presents how microorganisms induce the deterioration of concrete, including the organisms involved and their colonization and succession on concrete, the microbial deterioration mechanism, the approaches of studying MID and safeguards against concrete biodeterioration. In addition, the uninvestigated research area of MID is also proposed.
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