[1]
Birk DE,
Southern JF, Zycband
EI, et al. 1989. Collagen fibril bundles: a branching assembly
unit in tendon morphogenesis. Development, 107: 437-443. 文件编号. 10046.
[2]
Birk DE, Zycband EI,
Winkelmann DA, et al. 1989. Collagen Fibrillogenesis in situ: Fibril Segments are Intermediates
in Matrix Assembly. PNAS, 86: 4549 - 4553. 文件编号. 10047.
[3]
Bruckner-Tuderman L,
Bruckner P. 1998. Genetic diseases of
the extracellular matrix: more than just connective tissue disorders.
Journal of Molecular Medicine, 76:226 - 237. 文件编号. 10043.
[4]
Chavakis E, Dimmeler
S. 2002. Regulation of Endothelial Cell
Survival and Apoptosis During Angiogenesis.
Arterioscler. Thromb. Vasc. Biol, 22: 887-893. 文件编号. 10032.
[5]
Damsky C, Sutherland A, Fisher S. 1993. Extracellular
matrix 5: adhesive interactions in early mammalian embryogenesis,
implantation, and placentation. FASEB
J, 7: 1320-1329. 文件编号. 10034.
[6]
DeClerck YA, Mercurio
AM, Stack MS, et al. 2004. Proteases, Extracellular Matrix, and
Cancer: A Workshop of the Path B Study Section. Am. J. Pathol,
164: 1131 - 1139. 文件编号. 10026.
[7]
Erickson AC, Couchman JR. 2000. Still More Complexity in Mammalian Basement
Membranes. J. Histochem. Cytochem,
48: 1291-1304. 文件编号. 10010.
[8]
Even-Ram S, Yamada KM. 2005. Cell migration in
3D matrix. Current Opinion in Cell Biology, 17:524–532. 文件编号. 10050.
[9]
Franzke C, Bruckner
P, Bruckner-Tuderman L. 2005. Collagenous Transmembrane Proteins:
Recent Insights into Biology and Pathology. J. Biol. Chem, 280: 4005 - 4008. 文件编号. 10019.
[10]
Goodsell DS. 2000. The Molecular Perspective: Matrix Metalloproteinase 2. Stem
Cells, 18: 73 - 75. 文件编号. 10016.
[11]
Gumbiner BM. 1996. Cell Adhesion: The Molecular Basis of Tissue Architecture
and Morphogenesis. , 84:345-357. 文件编号. 10005.
[12]
Har-el R, Tanzer
ML. 1993. Extracellular
matrix. 3: Evolution of the extracellular
matrix in invertebrates. FASEB J, 7: 1115-1123. 文件编号. 10030.
[13]
Hidalgo M, Eckhardt SG. 2001. Development of Matrix Metalloproteinase
Inhibitors in Cancer Therapy. J Natl
Cancer Inst, 93: 178-193. 文件编号. 10017.
[14]
Hunziker EB, Schenk RK. 1984. Cartilage ultrastructure
after high pressure freezing, freeze substitution, and low temperature
embedding. II. Intercellular matrix ultrastructure
- preservation of proteoglycans in their
native state. J. Cell Biol, 98: 277-282.
文件编号. 10044.
[15]
Hynes RO, Yamada KM. 1982. Fibronectins: multifunctional modular glycoproteins.
J. Cell Biol, 95: 369-377. 文件编号. 10022.
[16]
Juliano RL, Haskill S. 1993. Signal transduction
from the extracellular matrix. J. Cell
Biol, 120: 577-585. 文件编号. 10041.
[17]
Kanwar YS, Jun WD,
Sun L, et al. 2004. Update of extracellular matrix, its receptors, and cell adhesion molecules
in mammalian nephrogenesis. Am J Physiol Renal Physiol, 286: f202-f215.
文件编号. 10024.
[18]
Keene DR, Oxford JT, Morris NP. 1995. Ultrastructural localization
of collagen types II, IX, and XI in the growth plate of human
rib and fetal bovine epiphyseal cartilage:
type XI collagen is restricted to thin fibrils. J Histochem
Cytochem, 43:967-979. 文件编号. 10049.
[19]
Kielty CM, Sherratt
MJ, Shuttleworth CA. 2002. Elastic fibres. J. Cell Sci, 115: 2817-2828.
文件编号. 10027.
[20]
Kjær M. 2004. Role of Extracellular Matrix in
Adaptation of Tendon and Skeletal Muscle to Mechanical Loading.
Physiol Rev, 84: 649-698. 文件编号. 10002.
[21]
Krieg T, LeRoy EC. 1998. Diseases of the extracellular matrix. Journal of Molecular Medicine, 76:224
- 225. 文件编号. 10042.
[22]
Labat-Robert J. 2004. Cell–matrix interactions in aging: role ofreceptors and matricryptins. Ageing
Research Reviews, 3 :233–247. 文件编号. 10004.
[23]
Lin CQ, Bissell MJ. 1993. Multi-faceted regulation
of cell differentiation by extracellular
matrix. FASEB J, 7: 737-743. 文件编号. 10040.
[24]
Magnusson MK, Mosher DF. 1998. Fibronectin :
Structure, Assembly, and Cardiovascular Implications. Arterioscler.
Thromb. Vasc.
Biol, 18: 1363-1370. 文件编号. 10006.
[25]
Mendler M, Eich-Bende
SG, Vaughan L, et al. 1989. Cartilage
Contains Mixed Fibrils of Collagen Types II, IX, and XI Markus. The Journal of Cell
Biology, 108:191-197. 文件编号. 10048.
[26]
Michel JB. 2003. Anoïkis in the Cardiovascular System: Known and Unknown
Extracellular Mediators. Arterioscler.
Thromb. Vasc.
Biol, 23: 2146-2154. 文件编号. 10014.
[27]
Mott JD, Werb Z.
2004. Regulation of matrix biology by matrix metalloproteinases. Current Opinion in Cell Biology, 16:558–564.
文件编号. 10051.
[28]
Olsen BR. 1999. Life Without Perlecan Has its Problems. J. Cell Biol,
147: 909-911. 文件编号. 10012.
[29]
Pankov R, Yamada KM. 2002. Fibronectin at a glance.
J. Cell Sci, 115: 3861-3863. 文件编号. 10008.
[30]
Raghunath J, Salacinski HJ, Sales KM, et al. 2005.
Advancing cartilage tissue engineering: the application of stem
cell technology. Current Opinion in Biotechnology, 16:503-509.
文件编号. 10003.
[31]
Rosenbloom J, Abrams WR, Mecham R. 1993. Extracellular matrix 4: the elastic fiber. FASEB J, 7: 1208-1218.
文件编号. 10035.
[32]
Ruoslahti E,
Engvall E. 1997. Integrins and Vascular Extracellular Matrix Assembly.
J. Clin. Invest, 99: 1149-1152. 文件编号. 10011.
[33]
Ruoslahti E, Hayman
EG, Pierschbacher MD. 1985. Extracellular matrices and cell adhesion. Arterioscler. Thromb. Vasc. Biol , 5: 581-594. 文件编号. 10021.
[34]
Ruoslahti E. 1989. Proteoglycans in cell regulation.
J. Biol. Chem, 264: 13369 - 13372. 文件编号. 10038.
[35]
Ruoslahti E. 1996. Brain extracellular matrix. Glycobiology, 6: 489 - 492. 文件编号. 10029.
[36]
Sage EH. 2001. Regulation of interactions between
cells and extracellular matrix: a command
performance on several stages. J. Clin.
Invest, 107: 781-783. 文件编号. 10039.
[37]
Sanes JR. 2003. The
Basement Membrane/Basal Lamina of Skeletal Muscle. J. Biol. Chem,
278: 12601-12604. 文件编号. 10025.
[38]
Scott JE. 2003. Elasticity in extracellular matrix 'shape modules' of tendon, cartilage,
etc. A sliding proteoglycan-filament
model. J. Physiol, 553: 335-343. 文件编号. 10036.
[39]
Siu MKY, Cheng CY. 2004. Extracellular Matrix:
Recent Advances on Its Role in Junction Dynamics in the Seminiferous Epithelium During Spermatogenesis.
Biol Reprod,,
71: 375 - 391. 文件编号. 10018.
[40]
Stetler-Stevenson WG,
Liotta LA, Kleiner Jr DE. 1993. Extracellular
matrix 6: role of matrix metalloproteinases
in tumor invasion and metastasis. FASEB J, 7: 1434-1441. 文件编号. 10033.
[41]
Taipale J, Keski-Oja
J. 1997. Growth factors in the extracellular matrix. FASEB J, 11: 51-59. 文件编号. 10037.
[42]
Teti A.
1992. Regulation of cellular functions by extracellular matrix. J. Am. Soc. Nephrol,
2: s83-s87. 文件编号. 10007.
[43]
Thomas N. Wight. 2002. Versican: a versatile extracellular
matrix proteoglycan in cell biology .
Current Opinion in Cell Biology, 14(5):617-623. 文件编号. 10001.
[44]
Turino GM, Cantor
JO. 2003. Hyaluronan
in Respiratory Injury and Repair. , 167: 1169-1175. 文件编号. 10020.
[45]
Turner CE. 2000. Paxillin interactions. J. Cell Sci,
113: 4139-4140. 文件编号. 10009.
[46]
Vaughan L, Mendler
M, Huber S, et al. 1988. D-periodic distribution
of collagen type IX along cartilage fibrils. J. Cell Biol, 106: 991-997. 文件编号. 10045.
[47]
Venstrom KA, Reichardt LF. 1993. Extracellular matrix. 2: Role of extracellular
matrix molecules and their receptors in the nervous system. FASEB
J, 7: 996-1003. 文件编号. 10031.
[48]
Wierzbicka-Patynowski
I, Schwarzbauer JE. 2003. The ins and outs of fibronectin matrix assembly. J. Cell Sci,
116: 3269-3276. 文件编号. 10015.
[49]
Woods A. 2001. Syndecans: transmembrane modulators of adhesion and
matrix assembly. J. Clin. Invest, 107:
935-941. 文件编号. 10028.
[50]
Yamada KM. 1991. Adhesive recognition sequences.
J. Biol. Chem, 266: 12809 - 12812. 文件编号. 10023.
[51]
Yurchenco PD,
Tsilibary EC, Charonis AS, et al. 1986.
Models for the self-assembly of basement membrane. J. Histochem.
Cytochem.,
34: 93-102. 文件编号. 10013.
[52]
Yurchenco PD, Wadsworth
WG. 2004. Assembly and tissue functions of early embryonic laminins
and netrins. Current Opinion in Cell
Biology, 16:572–579. 文件编号. 10052.