Add to ORKGHuman dental enamel forms over a period of 2 - 4 years by substituting the enamel matrix, a protein gel mostly composed of a single protein, amelogenin with fibrous apatite nanocrystals. Self-assembly of a dense amelogenin matrix is presumed to direct the growth of apatite fibers and their organization into bundles that eventually comprise the mature enamel, the hardest tissue in the mammalian body. This work aims to establish the physicochemical and biochemical conditions for the synthesis of fibrous apatite crystals under the control of a recombinant full-length human amelogenin matrix in combination with a programmable titration system. The growth of apatite substrates was initiated from supersaturated calcium phosphate solutions in the ...
Mechanisms of protein-guided mineralization in enamel, leading to organized fibrillar apatite nanocr...
As the hardest tissue formed by vertebrates, enamel represents nature's engineering masterpiece with...
Biomineralization is a crucial process whereby organisms produce mineralized tissues such as teeth f...
Human dental enamel forms over a period of 2 - 4 years by substituting the enamel matrix, a protein ...
Human dental enamel forms over a period of 2 - 4 years by substituting the enamel matrix, a protein ...
ObjectiveTo study the mechanisms which promote the interactions of amelogenin proteins with the form...
Dental enamel forms through a protein-controlled mineralization and enzymatic degradation with a nan...
The formation of aligned fibrous apatite crystals in enamel is predominantly attributed to the invol...
Dental enamel forms through a protein-controlled mineralization and enzymatic degradation with a nan...
In the following respects, tooth enamel is a unique tissue in the mammalian body: (a) it is the most...
This review presents a discourse on challenges in understanding and imitating the process of ameloge...
Enamel matrix self-assembly has long been suggested as the driving force behind aligned nanofibrous ...
Living organisms build inorganic materials, biominerals, by a process called biomineralization. A ke...
Biomineralization is a crucial process whereby organisms produce mineralized tissues such as teeth f...
Mechanisms of protein-guided mineralization in enamel, leading to organized fibrillar apatite nanocr...
Mechanisms of protein-guided mineralization in enamel, leading to organized fibrillar apatite nanocr...
As the hardest tissue formed by vertebrates, enamel represents nature's engineering masterpiece with...
Biomineralization is a crucial process whereby organisms produce mineralized tissues such as teeth f...
Human dental enamel forms over a period of 2 - 4 years by substituting the enamel matrix, a protein ...
Human dental enamel forms over a period of 2 - 4 years by substituting the enamel matrix, a protein ...
ObjectiveTo study the mechanisms which promote the interactions of amelogenin proteins with the form...
Dental enamel forms through a protein-controlled mineralization and enzymatic degradation with a nan...
The formation of aligned fibrous apatite crystals in enamel is predominantly attributed to the invol...
Dental enamel forms through a protein-controlled mineralization and enzymatic degradation with a nan...
In the following respects, tooth enamel is a unique tissue in the mammalian body: (a) it is the most...
This review presents a discourse on challenges in understanding and imitating the process of ameloge...
Enamel matrix self-assembly has long been suggested as the driving force behind aligned nanofibrous ...
Living organisms build inorganic materials, biominerals, by a process called biomineralization. A ke...
Biomineralization is a crucial process whereby organisms produce mineralized tissues such as teeth f...
Mechanisms of protein-guided mineralization in enamel, leading to organized fibrillar apatite nanocr...
Mechanisms of protein-guided mineralization in enamel, leading to organized fibrillar apatite nanocr...
As the hardest tissue formed by vertebrates, enamel represents nature's engineering masterpiece with...
Biomineralization is a crucial process whereby organisms produce mineralized tissues such as teeth f...