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Results:
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Results: 15
Authors:
Holmes, DF
Graham, HK
Trotter, JA
Kadler, KE
Citation: Df. Holmes et al., STEM/TEM studies of collagen fibril assembly, MICRON, 32(3), 2001, pp. 273-285
Authors:
Bos, KJ
Holmes, DF
Meadows, RS
Kadler, KE
McLeod, D
Bishop, PN
Citation: Kj. Bos et al., Collagen fibril organisation in mammalian vitreous by freeze etch/rotary shadowing electron microscopy, MICRON, 32(3), 2001, pp. 301-306
Authors:
Holmes, DF
Gilpin, CJ
Baldock, C
Ziese, U
Koster, AJ
Kadler, KE
Citation: Df. Holmes et al., Corneal collagen fibril structure in three dimensions: Structural insightsinto fibril assembly, mechanical properties, and tissue organization, P NAS US, 98(13), 2001, pp. 7307-7312
Authors:
Bos, KJ
Holmes, DF
Kadler, KE
McLeod, D
Morris, NP
Bishop, PN
Citation: Kj. Bos et al., Axial structure of the heterotypic collagen fibrils of vitreous humour andcartilage, J MOL BIOL, 306(5), 2001, pp. 1011-1022
Authors:
Baldock, C
Koster, AJ
Ziese, U
Rock, MJ
Sherratt, MJ
Kadler, KE
Shuttleworth, CA
Kielty, CM
Citation: C. Baldock et al., The supramolecular organization of fibrillin-rich microfibrils, J CELL BIOL, 152(5), 2001, pp. 1045-1056
Authors:
Holden, P
Meadows, RS
Chapman, KL
Grant, ME
Kadler, KE
Briggs, MD
Citation: P. Holden et al., Cartilage oligomeric matrix protein interacts with type IX collagen, and disruptions to these interactions identify a pathogenetic mechanism in a bone dysplasia family, J BIOL CHEM, 276(8), 2001, pp. 6046-6055
Authors:
Garrigue-Antar, L
Barker, C
Kadler, KE
Citation: L. Garrigue-antar et al., Identification of amino acid residues in bone morphogenetic protein-1 important for procollagen C-proteinase activity, J BIOL CHEM, 276(28), 2001, pp. 26237-26242
Authors:
Ovens, A
Joule, JA
Kadler, KE
Citation: A. Ovens et al., Design and synthesis of acidic dipeptide hydroxamate inhibitors of procollagen C-proteinase, J PEPT SCI, 6(9), 2000, pp. 489-495
Authors:
Kadler, KE
Holmes, DF
Graham, H
Starborg, T
Citation: Ke. Kadler et al., Tip-mediated fusion involving unipolar collagen fibrils accounts for rapidfibril elongation, the occurrence of fibrillar branched networks in skin and the paucity of collagen fibril ends in vertebrates, MATRIX BIOL, 19(4), 2000, pp. 359-365
Authors:
Bulleid, NJ
John, DCA
Kadler, KE
Citation: Nj. Bulleid et al., Recombinant expression systems for the production of collagen, BIOCH SOC T, 28, 2000, pp. 350-353
Authors:
Trotter, JA
Kadler, KE
Holmes, DF
Citation: Ja. Trotter et al., Echinoderm collagen fibrils grow by surface-nucleation-and-propagation from both centers and ends, J MOL BIOL, 300(3), 2000, pp. 531-540
Authors:
Graham, HK
Holmes, DF
Watson, RB
Kadler, KE
Citation: Hk. Graham et al., Identification of collagen fibril fusion during vertebrate tendon morphogenesis. The process relies on unipolar fibrils and is regulated by collagen-proteoglycan interaction, J MOL BIOL, 295(4), 2000, pp. 891-902
Authors:
Meadows, RS
Holmes, DF
Gilpin, CJ
Kadler, KE
Citation: Rs. Meadows et al., Electron cryomicroscopy of fibrillar collagens, METH MOL B, 139, 2000, pp. 95-109
Authors:
John, DCA
Watson, R
Kind, AJ
Scott, AR
Kadler, KE
Bulleid, NJ
Citation: Dca. John et al., Expression of an engineered form of recombinant procollagen in mouse milk, NAT BIOTECH, 17(4), 1999, pp. 385-389
Authors:
Trotter, JA
Chapman, JA
Kadler, KE
Holmes, DF
Citation: Ja. Trotter et al., Growth of sea cucumber collagen fibrils occurs at the tips and centers in a coordinated manner, J MOL BIOL, 284(5), 1998, pp. 1417-1424
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