Details

Autor(en) / Beteiligte

• Golovkina, Darya A
• Zhurishkina, Elena V
• Ivanova, Lyubov A
• Baranchikov, Alexander E
• Sokolov, Alexey Y
• Bobrov, Kirill S
• Masharsky, Alexey E
• Tsvigun, Natalia V
• Kopitsa, Gennady P
• Kulminskaya, Anna A

Titel

Calcifying Bacteria Flexibility in Induction of CaCO 3 Mineralization

Ist Teil von

• Life (Basel, Switzerland), 2020-11, Vol.10 (12)

Ort / Verlag

Switzerland

Erscheinungsjahr

2020

Link zum Volltext

Quelle

EZB Free E-Journals

Beschreibungen/Notizen

• Microbially induced CaCO precipitation (MICP) is considered as an alternative green technology for cement self-healing and a basis for the development of new biomaterials. However, some issues about the role of bacteria in the induction of biogenic CaCO crystal nucleation, growth and aggregation are still debatable. Our aims were to screen for ureolytic calcifying microorganisms and analyze their MICP abilities during their growth in urea-supplemented and urea-deficient media. Nine candidates showed a high level of urease specific activity, and a sharp increase in the urea-containing medium pH resulted in efficient CaCO biomineralization. In the urea-deficient medium, all ureolytic bacteria also induced CaCO precipitation although at lower pH values. Five strains ( DSMZ 8782, 4b, 4a, BS52, 6) were found to completely repair micro-cracks in the cement samples. Detailed studies of the most promising strain DSMZ 8782 revealed a slower rate of the polymorph transformation in the urea-deficient medium than in urea-containing one. We suppose that a ureolytic microorganism retains its ability to induce CaCO biomineralization regardless the origin of carbonate ions in a cell environment by switching between mechanisms of urea-degradation and metabolism of calcium organic salts.