Literature DB >> 20121266

Type I collagen exists as a distribution of nanoscale morphologies in teeth, bones, and tendons.

Joseph M Wallace1, Qishui Chen, Ming Fang, Blake Erickson, Bradford G Orr, Mark M Banaszak Holl.   

Abstract

This study demonstrates that collagen, the most abundant protein in animals, exists as a distribution of nanoscale morphologies in teeth, bones, and tendons. This fundamental characteristic of Type I collagen has not previously been reported and provides a new understanding of the nanoscale architecture of this ubiquitous and important biological nanomaterial. Dentin, bone, and tendon tissue samples were chosen for their differences in cellular origin and function, as well as to compare mineralized tissues with a tissue that lacks mineral in a normal physiological setting. A distribution of morphologies was present in all three tissues, confirming that this characteristic is fundamental to Type I collagen regardless of the presence of mineral, cellular origin of the collagen (osteoblast versus odontoblast versus fibroblast), anatomical location, or mechanical function of the tissue.

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Year:  2010        PMID: 20121266      PMCID: PMC2868935          DOI: 10.1021/la100006a

Source DB:  PubMed          Journal:  Langmuir        ISSN: 0743-7463            Impact factor:   3.882


  29 in total

1.  Structural aspects of the calcification process of lower vertebrate collagen.

Authors:  A Bigi; M H Koch; S Panzavolta; N Roveri; K Rubini
Journal:  Connect Tissue Res       Date:  2000       Impact factor: 3.417

2.  Investigating the ultrastructure of fibrous long spacing collagen by parallel atomic force and transmission electron microscopy.

Authors:  Alvin C Lin; M Cynthia Goh
Journal:  Proteins       Date:  2002-11-15

3.  Effects of collagen unwinding and cleavage on the mechanical integrity of the collagen network in bone.

Authors:  X Wang; X Li; R A Bank; C M Agrawal
Journal:  Calcif Tissue Int       Date:  2002-06-05       Impact factor: 4.333

4.  Observing growth steps of collagen self-assembly by time-lapse high-resolution atomic force microscopy.

Authors:  David A Cisneros; Carlos Hung; Clemens M Franz; Daniel J Muller
Journal:  J Struct Biol       Date:  2006-03-20       Impact factor: 2.867

5.  Mineralised tissues as nanomaterials: analysis by atomic force microscopy.

Authors:  L Bozec; J de Groot; M Odlyha; B Nicholls; M A Horton
Journal:  IEE Proc Nanobiotechnol       Date:  2005-10

6.  Structural investigations on native collagen type I fibrils using AFM.

Authors:  Stefan Strasser; Albert Zink; Marek Janko; Wolfgang M Heckl; Stefan Thalhammer
Journal:  Biochem Biophys Res Commun       Date:  2006-12-22       Impact factor: 3.575

Review 7.  Collagens at a glance.

Authors:  Karl E Kadler; Clair Baldock; Jordi Bella; Raymond P Boot-Handford
Journal:  J Cell Sci       Date:  2007-06-15       Impact factor: 5.285

8.  In situ observation of fluoride-ion-induced hydroxyapatite-collagen detachment on bone fracture surfaces by atomic force microscopy.

Authors:  J H Kindt; P J Thurner; M E Lauer; B L Bosma; G Schitter; G E Fantner; M Izumi; J C Weaver; D E Morse; P K Hansma
Journal:  Nanotechnology       Date:  2007-02-28       Impact factor: 3.874

Review 9.  Collagen cross-links in mineralizing tissues: a review of their chemistry, function, and clinical relevance.

Authors:  L Knott; A J Bailey
Journal:  Bone       Date:  1998-03       Impact factor: 4.398

10.  The rate of calcium extraction during EDTA decalcification from thin bone slices as assessed with atomic absorption spectrophotometry.

Authors:  I Kiviranta; M Tammi; R Lappalainen; T Kuusela; H J Helminen
Journal:  Histochemistry       Date:  1980
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  25 in total

Review 1.  Controlled release strategies for bone, cartilage, and osteochondral engineering--Part I: recapitulation of native tissue healing and variables for the design of delivery systems.

Authors:  Vítor E Santo; Manuela E Gomes; João F Mano; Rui L Reis
Journal:  Tissue Eng Part B Rev       Date:  2013-02-19       Impact factor: 6.389

2.  Variation in type I collagen fibril nanomorphology: the significance and origin.

Authors:  Ming Fang; Mark M Banaszak Holl
Journal:  Bonekey Rep       Date:  2013-08-21

3.  Studies of chain substitution caused sub-fibril level differences in stiffness and ultrastructure of wildtype and oim/oim collagen fibers using multifrequency-AFM and molecular modeling.

Authors:  Tao Li; Shu-Wei Chang; Naiara Rodriguez-Florez; Markus J Buehler; Sandra Shefelbine; Ming Dao; Kaiyang Zeng
Journal:  Biomaterials       Date:  2016-08-24       Impact factor: 12.479

4.  Nanoscale structure of type I collagen fibrils: quantitative measurement of D-spacing.

Authors:  Blake Erickson; Ming Fang; Joseph M Wallace; Bradford G Orr; Clifford M Les; Mark M Banaszak Holl
Journal:  Biotechnol J       Date:  2012-10-24       Impact factor: 4.677

5.  Alteration of Type I collagen microstructure induced by estrogen depletion can be prevented with drug treatment.

Authors:  Meagan A Cauble; Edward Rothman; Kathleen Welch; Ming Fang; Le T Duong; Brenda L Pennypacker; Bradford G Orr; Mark M Banaszak Holl
Journal:  Bonekey Rep       Date:  2015-05-27

6.  Bone quality assessment techniques: geometric, compositional, and mechanical characterization from macroscale to nanoscale.

Authors:  Heather B Hunt; Eve Donnelly
Journal:  Clin Rev Bone Miner Metab       Date:  2016-08-22

7.  Multiscale analysis of morphology and mechanics in tail tendon from the ZDSD rat model of type 2 diabetes.

Authors:  Armando Diaz Gonzalez; Maxime A Gallant; David B Burr; Joseph M Wallace
Journal:  J Biomech       Date:  2013-12-06       Impact factor: 2.712

8.  Effects of tissue hydration on nanoscale structural morphology and mechanics of individual Type I collagen fibrils in the Brtl mouse model of Osteogenesis Imperfecta.

Authors:  Arika D Kemp; Chad C Harding; Wayne A Cabral; Joan C Marini; Joseph M Wallace
Journal:  J Struct Biol       Date:  2012-10-04       Impact factor: 2.867

9.  Nanoscale changes in collagen are reflected in physical and mechanical properties of bone at the microscale in diabetic rats.

Authors:  Max A Hammond; Maxime A Gallant; David B Burr; Joseph M Wallace
Journal:  Bone       Date:  2013-11-21       Impact factor: 4.398

10.  Removing or truncating connexin 43 in murine osteocytes alters cortical geometry, nanoscale morphology, and tissue mechanics in the tibia.

Authors:  Max A Hammond; Alycia G Berman; Rafael Pacheco-Costa; Hannah M Davis; Lilian I Plotkin; Joseph M Wallace
Journal:  Bone       Date:  2016-04-23       Impact factor: 4.398
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