AI Article Synopsis
- Gallionella is a genus of bacteria that oxidize iron and create distinctive twisted stalks made of iron-oxide-encrusted fibers in aquatic settings.
- The study utilized various microscopy techniques to reveal that the stalk fibers consist of small primary particles with a high porosity and a large surface area, impacting their reactive properties.
- Analysis techniques confirmed that the primary particles have an amorphous structure and identified specific chemical linkages, indicating that elements like phosphorus and silicon may influence the crystallinity of the fibers through their interactions with iron.
Article Abstract
Bacterial species belonging to the genus Gallionella are Fe-oxidizing bacteria that produce uniquely twisted extracellular stalks consisting of iron-oxide-encrusted inorganic/organic fibers in aquatic environments. This paper describes the degree of crystallinity of Gallionella stalks and the chemical linkages of constituent elements in the stalk fibers. Transmission electron microscopy revealed that the matrix of the fiber edge consisted of an assembly of primary particles of approximately 3 nm in diameter. Scanning transmission electron microscopy revealed the rough granular surfaces of the fibers, which reflect the disordered assembly of the primary particles, indicating a high porosity and large specific surface area of the fibers. This may provide the surface with broader reactive properties. X-ray diffractometry, selected-area electron diffraction, and high-resolution transmission electron microscopy together showed that the primary particles had an amorphous structure. Furthermore, energy-dispersive X-ray analysis and Fourier transform infrared spectroscopy detected the bands characteristic of the vibrational modes assigned to O-H, Fe-O-H, P-O-H, Si-O-H, Si-O-Fe, and P-O-Fe bonds in the stalks, suggesting that the minor constituent elements P and Si could affect the degree of crystallinity of the fibers by linking with Fe via O. This knowledge about the mutual associations of these elements provides deeper insights into the unique inorganic/organic hybrid structure of the stalks.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3255642 | PMC |
| http://dx.doi.org/10.1128/AEM.05913-11 | DOI Listing |
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