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Literature DB >> 19286549

The initial stages of template-controlled CaCO3 formation revealed by cryo-TEM.

Emilie M Pouget¹, Paul H H Bomans, Jeroen A C M Goos, Peter M Frederik, Gijsbertus de With, Nico A J M Sommerdijk.

Abstract

Biogenic calcium carbonate forms the inorganic component of seashells, otoliths, and many marine skeletons, and its formation is directed by an ordered template of macromolecules. Classical nucleation theory considers crystal formation to occur from a critical nucleus formed by the assembly of ions from solution. Using cryotransmission electron microscopy, we found that template-directed calcium carbonate formation starts with the formation of prenucleation clusters. Their aggregation leads to the nucleation of amorphous nanoparticles in solution. These nanoparticles assemble at the template and, after reaching a critical size, develop dynamic crystalline domains, one of which is selectively stabilized by the template. Our findings have implications for template-directed mineral formation in biological as well as in synthetic systems.

Entities: Chemical

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Year: 2009 PMID： 19286549 DOI： 10.1126/science.1169434

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

100 in total

1. Phase transitions in biogenic amorphous calcium carbonate.

Authors: Yutao U T Gong; Christopher E Killian; Ian C Olson; Narayana P Appathurai; Audra L Amasino; Michael C Martin; Liam J Holt; Fred H Wilt; P U P A Gilbert
Journal: Proc Natl Acad Sci U S A Date: 2012-04-04 Impact factor: 11.205

2. Influence of substrate mineralogy on bacterial mineralization of calcium carbonate: implications for stone conservation.

Authors: Carlos Rodriguez-Navarro; Fadwa Jroundi; Mara Schiro; Encarnación Ruiz-Agudo; María Teresa González-Muñoz
Journal: Appl Environ Microbiol Date: 2012-03-23 Impact factor: 4.792

The initial stages of template-controlled CaCO3 formation revealed by cryo-TEM.

1. Phase transitions in biogenic amorphous calcium carbonate.

2. Influence of substrate mineralogy on bacterial mineralization of calcium carbonate: implications for stone conservation.

3. The role of prenucleation clusters in surface-induced calcium phosphate crystallization.

4. Biomineralization: A crystal-clear view.

5. The role of collagen in bone apatite formation in the presence of hydroxyapatite nucleation inhibitors.

6. Microscopy techniques for investigating the control of organic constituents on biomineralization.

7. Glycolytic intermediates induce amorphous calcium carbonate formation in crustaceans.

8. Carboxylated molecules regulate magnesium content of amorphous calcium carbonates during calcification.

9. Self-Setting Calcium Phosphate Cements with Tunable Antibiotic Release Rates for Advanced Antimicrobial Applications.

Review 10. Biomolecular Assemblies: Moving from Observation to Predictive Design.