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Strongly bound citrate stabilizes the apatite nanocrystals in bone
Strongly bound citrate stabilizes the apatite nanocrystals in bone
by Rawal, A. , Hu, Y.-Y. , Schmidt-Rohr, K. , Tirrell, David A.
in Animals / apatite / Apatites / Apatites - chemistry / Apatites - metabolism / Binding, Competitive / Biological Sciences / birds / Bone / Bone and Bones - chemistry / Bone and Bones - metabolism / Bones / Calcium / Calcium - chemistry / Calcium - metabolism / Calcium phosphate / Calcium phosphates / Carbon / Carbon Isotopes / Cattle / Chickens / Citrates / Citrates - chemistry / Citrates - metabolism / Citric acid / Computer Simulation / Crystal growth / Crystallization / Crystals / fish / Fishes / Line spectra / Magnetic Resonance Spectroscopy / mammals / Mechanical properties / Minerals / Minerals - chemistry / Minerals - metabolism / Models, Biological / Models, Chemical / Molecules / N.M.R / Nanocomposites / Nanocrystals / Nanoparticles - chemistry / NMR / Nuclear magnetic resonance / nuclear magnetic resonance spectroscopy / Organic matter / Physical Sciences / Ungulates
2010
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Strongly bound citrate stabilizes the apatite nanocrystals in bone
by Rawal, A. , Hu, Y.-Y. , Schmidt-Rohr, K. , Tirrell, David A.
in Animals / apatite / Apatites / Apatites - chemistry / Apatites - metabolism / Binding, Competitive / Biological Sciences / birds / Bone / Bone and Bones - chemistry / Bone and Bones - metabolism / Bones / Calcium / Calcium - chemistry / Calcium - metabolism / Calcium phosphate / Calcium phosphates / Carbon / Carbon Isotopes / Cattle / Chickens / Citrates / Citrates - chemistry / Citrates - metabolism / Citric acid / Computer Simulation / Crystal growth / Crystallization / Crystals / fish / Fishes / Line spectra / Magnetic Resonance Spectroscopy / mammals / Mechanical properties / Minerals / Minerals - chemistry / Minerals - metabolism / Models, Biological / Models, Chemical / Molecules / N.M.R / Nanocomposites / Nanocrystals / Nanoparticles - chemistry / NMR / Nuclear magnetic resonance / nuclear magnetic resonance spectroscopy / Organic matter / Physical Sciences / Ungulates
2010
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Strongly bound citrate stabilizes the apatite nanocrystals in bone
Strongly bound citrate stabilizes the apatite nanocrystals in bone
by Rawal, A. , Hu, Y.-Y. , Schmidt-Rohr, K. , Tirrell, David A.
in Animals / apatite / Apatites / Apatites - chemistry / Apatites - metabolism / Binding, Competitive / Biological Sciences / birds / Bone / Bone and Bones - chemistry / Bone and Bones - metabolism / Bones / Calcium / Calcium - chemistry / Calcium - metabolism / Calcium phosphate / Calcium phosphates / Carbon / Carbon Isotopes / Cattle / Chickens / Citrates / Citrates - chemistry / Citrates - metabolism / Citric acid / Computer Simulation / Crystal growth / Crystallization / Crystals / fish / Fishes / Line spectra / Magnetic Resonance Spectroscopy / mammals / Mechanical properties / Minerals / Minerals - chemistry / Minerals - metabolism / Models, Biological / Models, Chemical / Molecules / N.M.R / Nanocomposites / Nanocrystals / Nanoparticles - chemistry / NMR / Nuclear magnetic resonance / nuclear magnetic resonance spectroscopy / Organic matter / Physical Sciences / Ungulates
2010

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Strongly bound citrate stabilizes the apatite nanocrystals in bone
Strongly bound citrate stabilizes the apatite nanocrystals in bone
Journal Article

Strongly bound citrate stabilizes the apatite nanocrystals in bone

Rawal, A.,
Hu, Y.-Y.,
Schmidt-Rohr, K.,
Tirrell, David A.
2010
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Overview
Nanocrystals of apatitic calcium phosphate impart the organic-inorganic nanocomposite in bone with favorable mechanical properties. So far, the factors preventing crystal growth beyond the favorable thickness of ca. 3 nm have not been identified. Here we show that the apatite surfaces are studded with strongly bound citrate molecules, whose signals have been identified unambiguously by multinuclear magnetic resonance (NMR) analysis. NMR reveals that bound citrate accounts for 5.5 wt% of the organic matter in bone and covers apatite at a density of about 1 molecule per (2 nm)², with its three carboxylate groups at distances of 0.3 to 0.45 nm from the apatite surface. Bound citrate is highly conserved, being found in fish, avian, and mammalian bone, which indicates its critical role in interfering with crystal thickening and stabilizing the apatite nanocrystals in bone.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Animals

/ apatite

/ Apatites

/ Apatites - chemistry

/ Apatites - metabolism

/ Binding, Competitive

/ Biological Sciences

/ birds

/ Bone

/ Bone and Bones - chemistry

/ Bone and Bones - metabolism

/ Bones

/ Calcium

/ Calcium - chemistry

/ Calcium - metabolism

/ Calcium phosphate

/ Calcium phosphates

/ Carbon

/ Carbon Isotopes

/ Cattle

/ Chickens

/ Citrates

/ Citrates - chemistry

/ Citrates - metabolism

/ Citric acid

/ Computer Simulation

/ Crystal growth

/ Crystallization

/ Crystals

/ fish

/ Fishes

/ Line spectra

/ Magnetic Resonance Spectroscopy

/ mammals

/ Mechanical properties

/ Minerals

/ Minerals - chemistry

/ Minerals - metabolism

/ Models, Biological

/ Models, Chemical

/ Molecules

/ N.M.R

/ Nanocomposites

/ Nanocrystals

/ Nanoparticles - chemistry

/ NMR

/ Nuclear magnetic resonance

/ nuclear magnetic resonance spectroscopy

/ Organic matter

/ Physical Sciences

/ Ungulates

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