Avery Template 4 X 4 4/4 4 Common Myths About Avery Template 4 X 4 4/4
Gieni, R. S. & Hendzel, M. J. Mechanotransduction from the ECM to the genome: are the pieces now in place? J. Corpuscle Biochem. 104, 1964–1987 (2008).
Engler, A. J. et al. Myotubes differentiate optimally on substrates with tissue-like stiffness: dissection implications for bendable or annealed microenvironments. J. Corpuscle Biol. 166, 877–887 (2004).
Engler, A. J., Sen, S., Sweeney, H. L. & Discher, D. E. Cast animation directs arbor corpuscle birth specification. Corpuscle 126, 677–689 (2006). Contractile myocytes were acclimated to authenticate that beef faculty their automated environment. Myotubes anatomy apart of cast acerbity but myosin–actin striations appear alone on gels with acerbity archetypal of accustomed muscle, and not on matrices that are softer or stiffer.
Georges, P. C., Miller, W. J., Meaney, D. F., Sawyer, E. S. & Janmey, P. A. Matrices with acquiescence commensurable to that of academician tissue baddest neuronal over glial advance in alloyed cortical cultures. Biophys. J. 90, 3012–3018 (2006).
McBeath, R., Pirone, D. M., Nelson, C. M., Bhadriraju, K. & Chen, C. S. Corpuscle shape, cytoskeletal tension, and rhoa adapt arbor corpuscle birth commitment. Dev. Corpuscle 6, 483–495 (2004).
Paszek, M. J. et al. Tensional homeostasis and the cancerous phenotype. Blight Corpuscle 8, 241–254 (2005). The aboriginal cardboard to call tensional homeostasis adjustment of the tumour phenotype and the diminutive articulation amid ECM stiffness, Rho-dependent corpuscle contractility and oncogene-mediated transformation.
Vial, E., Sahai, E. & Marshall, C. J. ERK–MAPK signaling coordinately regulates action of Rac1 and RhoA for bump corpuscle motility. Blight Corpuscle 4, 67–79 (2003).
Lee, M. K. & Nikodem, V. M. Cogwheel role of ERK in cAMP-induced Nurr1 announcement in N2A and C6 cells. Neuroreport 15, 99–102 (2004).
Chrzanowska-Wodnicka, M. & Burridge, K. Rho-stimulated contractility drives the accession of accent fibers and focal adhesions. J. Corpuscle Biol. 133, 1403–1415 (1996).
Krieg, M. et al. Tensile armament administer germ-layer alignment in zebrafish. Nature Corpuscle Biol. 10, 429–436 (2008). This commodity authentic the automated backdrop of antecedent beef of the ectoderm, mesoderm and endoderm in gastrulating zebrafish embryos and approved that cogwheel actomyosin-dependent cell–cortex astriction is adapted by Nodal–TGFβ signalling.
Page-McCaw, A., Ewald, A. J. & Werb, Z. Cast metalloproteinases and the adjustment of tissue remodelling. Nature Rev. Mol. Corpuscle Biol. 8, 221–233 (2007).
Czirok, A., Rongish, B. J. & Little, C. D. Extracellular cast dynamics during bearcat arbor formation. Dev. Biol. 268, 111–122 (2004).
Pajerowski, J. D., Dahl, K. N., Zhong, F. L., Sammak, P. J. & Discher, D. E. Concrete bendability of the base in arbor corpuscle differentiation. Proc. Natl Acad. Sci. USA 104, 15619–15624 (2007).
Farge, E. Automated consecration of Twist in the Drosophila foregut/stomodeal primordium. Curr. Biol. 13, 1365–1377 (2003).
Ren, R., Nagel, M., Tahinci, E., Winklbauer, R. & Symes, K. Abrupt antecedent mesoderm beef and intercalating block mesoderm beef accept audible responses to Rho and Rac during Xenopus gastrulation. Dev. Dyn. 235, 1090–1099 (2006).
Tahinci, E. & Symes, K. Audible functions of Rho and Rac are appropriate for allied addendum during Xenopus gastrulation. Dev. Biol. 259, 318–335 (2003).
Cardoso, W. V. & Lu, J. Adjustment of aboriginal lung morphogenesis: questions, facts and controversies. Development 133, 1611–1624 (2006).
Kitterman, J. A. The furnishings of automated armament on fetal lung growth. Clin. Perinatol. 23, 727–740 (1996).
Liu, M., Tanswell, A. K. & Post, M. Automated force-induced arresting transduction in lung cells. Am. J. Physiol. 277, L667–L683 (1999).
Moore, K. A. et al. Ascendancy of basement film adjustment and epithelial aberration morphogenesis in beginning lung by Rho and cytoskeletal tension. Dev. Dyn. 232, 268–281 (2005).
Bird, J. L., Platt, D., Wells, T., May, S. A. & Bayliss, M. T. Exercise-induced changes in proteoglycan metabolism of equine articular cartilage. Equine Vet. J. 32, 161–163 (2000).
Haapala, J. et al. Coordinated adjustment of hyaluronan and aggrecan agreeable in the articular cartilage of anchored and acclimatized dogs. J. Rheumatol 23, 1586–1593 (1996).
Ebbesen, E. N., Thomsen, J. S. & Mosekilde, L. Nondestructive assurance of iliac acme cancellous cartilage backbone by pQCT. Cartilage 21, 535–540 (1997).
Rittweger, J. et al. Cartilage accident from the animal distal tibia epiphysis during 24 canicule of unilateral lower limb suspension. J. Physiol. 577, 331–337 (2006).
Takahashi, M., Ishida, T., Traub, O., Corson, M. A. & Berk, B. C. Mechanotransduction in endothelial cells: banausic signaling contest in acknowledgment to microburst stress. J. Vasc. Res. 34, 212–219 (1997).
Davies, P. F. Flow-mediated endothelial mechanotransduction. Physiol. Rev. 75, 519–560 (1995).
Davies, P. F., Remuzzi, A., Gordon, E. J., Dewey, C. F. Jr & Gimbrone, M. A. Jr. Turbulent aqueous microburst accent induces vascular endothelial corpuscle about-face in vitro. Proc. Natl Acad. Sci. USA 83, 2114–2117 (1986).
Guck, J. et al., Optical deformability as an inherent corpuscle brand for testing cancerous transformation and metastatic competence. Biophys. J. 88, 3689–3698, (2005).
Cross, S. E., Jin, Y. S., Rao, J. & Gimzewski, J. K. Nanomechanical appraisal of beef from blight patients. Nature Nanotech. 2, 780–783 (2007).
Wong, J. Y., Velasco, A., Rajagopalan, P. & Pham, Q. Directed movement of vascular bland beef beef on gradient-compliant hydrogels. Langmuir 19, 1908–1913 (2003). This commodity demonstrates the durotactic movement of beef forth a acerbity acclivity on polyacrylamide gels.
Gaudet, C. et al. Access of blazon I collagen apparent anatomy on fibroblast spreading, motility, and contractility. Biophys. J. 85, 3329–3335 (2003).
Discher, D. E., Janmey, P. & Wang, Y. L. Tissue beef feel and acknowledge to the acerbity of their substrate. Science 310, 1139–1143 (2005).
Payne, S. L., Hendrix, M. J. & Kirschmann, D. A. Paradoxical roles for lysyl oxidases in blight — a prospect. J. Corpuscle Biochem. 101, 1338–1354 (2007).
Sivakumar, P., Gupta, S., Sarkar, S. & Sen, S. Upregulation of lysyl oxidase and MMPs during cardiac adjustment in animal aggrandized cardiomyopathy. Mol. Corpuscle Biochem. 307, 159–167 (2008).
Avery, N. C. & Bailey, A. J. The furnishings of the Maillard acknowledgment on the concrete backdrop and corpuscle interactions of collagen. Pathol. Biol. (Paris) 54, 387–395 (2006).
Ebihara, T., Venkatesan, N., Tanaka, R. & Ludwig, M. S. Changes in extracellular cast and tissue viscoelasticity in bleomycin-induced lung fibrosis. Banausic aspects. Am. J. Respir. Crit. Care Med. 162, 1569–1576 (2000).
Susic, D. Cross-link breakers as a new ameliorative access to cardiovascular disease. Biochem. Soc. Trans. 35, 853–856 (2007).
Robins, S. P. et al. Added bark collagen extractability and accommodation of collagen blazon III are not normalized afterwards 6 months healing of animal excisional wounds. J. Invest. Dermatol. 121, 267–272 (2003).
Nayak, G. D., Ratnayaka, H. S., Goodyear, R. J. & Richardson, G. P. Development of the beard array and mechanotransduction. Int. J. Dev. Biol. 51, 597–608 (2007).
Parker, K. K. & Ingber, D. E. Extracellular matrix, mechanotransduction and structural hierarchies in affection tissue engineering. Philos. Trans. R. Soc. Lond. B Biol. Sci. 362, 1267–1279 (2007).
Brakemeier, S., Eichler, I., Hopp, H., Kohler, R. & Hoyer, J. Up-regulation of endothelial stretch-activated cation channels by aqueous microburst stress. Cardiovasc. Res. 53, 209–218 (2002).
Helmke, B. P., Rosen, A. B. & Davies, P. F. Biophys. J. 84, 2691–2699 (2003).
del Pozo, M. A. et al. Integrins adapt Rac targeting by internalization of film domains. Science 303, 839–842 (2004).
Chen, Y. & Dokholyan, N. V. Insights into allosteric ascendancy of vinculin action from its ample calibration conformational dynamics. J. Biol. Chem. 281, 29148–29154 (2006). The aboriginal computational abstraction of the all-embracing conformational dynamics of feature vinculin.
Defilippi, P., Di Stefano, P. & Cabodi, S. p130Cas: a able arch in signaling networks. Trends Corpuscle Biol. 16, 257–263 (2006).
Tamada, M., Sheetz, M. P. & Sawada, Y. Activation of a signaling avalanche by cytoskeleton stretch. Dev. Corpuscle 7, 709–718 (2004).
Sawada, Y. et al. Force appraisal by automated addendum of the Src ancestors kinase substrate p130Cas. Corpuscle 127, 1015–1026 (2006). References 45 and 46 call the changes in anatomy of RAP1 and p130 Cas in acknowledgment to automated stretch.
Hattori, M. & Minato, N. Rap1 GTPase: functions, regulation, and malignancy. J. Biochem. 134, 479–484 (2003).
Friedland, J. C., Lee, M. H. & Boettiger, D. Mechanically activated integrin about-face controls α5β1 function. Science (in the press).
Ginsberg, M. H., Du, X. & Plow, E. F. Inside-out integrin signalling. Curr. Opin. Corpuscle Biol. 4, 766–771 (1992).
Hynes, R. O. Integrins: versatility, modulation, and signaling in corpuscle adhesion. Corpuscle 69, 11–25 (1992).
Galbraith, C. G., Yamada, K. M. & Sheetz, M. P. The accord amid force and focal circuitous development. J. Corpuscle Biol. 159, 695–705 (2002).
Giancotti, F. G. & Ruoslahti, E. Integrin signaling. Science 285, 1028–1032 (1999).
Riveline, D. et al. Focal contacts as mechanosensors: evidently activated bounded automated force induces advance of focal contacts by an mDia1-dependent and ROCK-independent mechanism. J. Corpuscle Biol. 153, 1175–1186 (2001).
Tzima, E., del Pozo, M. A., Shattil, S. J., Chien, S. & Schwartz, M. A. Activation of integrins in endothelial beef by aqueous microburst accent mediates Rho-dependent cytoskeletal alignment. EMBO J. 20, 4639–4647 (2001).
Watanabe, Y. & Akaike, T. Possible captivation of caspase-like ancestors in aliment of cytoskeleton integrity. J. Corpuscle Physiol. 179, 45–51 (1999).
Shi, Q. & Boettiger, D. A atypical approach for integrin-mediated signaling: tethering is appropriate for phosphorylation of FAK Y397. Mol. Biol. Corpuscle 14, 4306–4315 (2003).
Clark, E. A., King, W. G., Brugge, J. S., Symons, M. & Hynes, R. O. Integrin-mediated signals adapted by associates of the rho ancestors of GTPases. J. Corpuscle Biol. 142, 573–586 (1998).
Cox, E. A., Sastry, S. K. & Huttenlocher, A. Integrin-mediated adherence regulates corpuscle polarity and film appendage through the Rho ancestors of GTPases. Mol. Biol. Corpuscle 12, 265–277 (2001).
Chess, P. R., Toia, L. & Finkelstein, J. N. Automated strain-induced admeasurement and signaling in pulmonary epithelial H441 cells. Am. J. Physiol. Lung Cell. Mol. Physiol. 279, L43–51 (2000).
Milkiewicz, M., Mohammadzadeh, F., Ispanovic, E., Gee, E. & Haas, T. L. Static ache stimulates announcement of cast metalloproteinase-2 and VEGF in microvascular endothelium via JNK- and ERK-dependent pathways. J. Corpuscle Biochem. 100, 750–761 (2007).
Chaturvedi, L. S., Marsh, H. M. & Basson, M. D. Src and focal adherence kinase arbitrate automated strain-induced admeasurement and ERK1/2 phosphorylation in animal H441 pulmonary epithelial cells. Am. J. Physiol. Corpuscle Physiol. 292, C1701–C1713 (2007).
Kippenberger, S. et al. Signaling of automated amplitude in animal keratinocytes via MAP kinases. J. Invest. Dermatol. 114, 408–412 (2000).
Plotkin, L. I. et al. Automated dispatch prevents osteocyte apoptosis: claim of integrins, Src kinases, and ERKs. Am. J. Physiol. Corpuscle Physiol. 289, C633–C643 (2005).
Dennerll, T. J., Joshi, H. C., Steel, V. L., Buxbaum, R. E. & Heidemann, S. R. Astriction and compression in the cytoskeleton of PC-12 neurites. II: Quantitative measurements. J. Corpuscle Biol. 107, 665–674 (1988).
Wang, H. B., Dembo, M., Hanks, S. K. & Wang, Y. Focal adherence kinase is circuitous in mechanosensing during fibroblast migration. Proc. Natl Acad. Sci. USA 98, 11295–11300 (2001). This cardboard demonstrates that FAK is important for abrupt fibroblasts to acknowledge to automated force. FAK-null beef are clumsy to drift at the aforementioned acceleration or in a abiding administration back compared with wild-type cells.
Wipff, P. J., Rifkin, D. B., Meister, J. J. & Hinz, B. Myofibroblast abbreviating activates abeyant TGF-β1 from the extracellular matrix. J. Corpuscle Biol. 179, 1311–1323 (2007). This cardboard demonstrates that myofibroblast contraction, through integrin activation, anon activates TGFβ from ECM stores.
Heinemeier, K. M. et al. Announcement of collagen and accompanying advance factors in rat bond and ashen beef in acknowledgment to specific abbreviating types. J. Physiol. 582, 1303–1316 (2007).
Wells, R. G. The role of cast acerbity in hepatic stellate corpuscle activation and alarmist fibrosis. J. Clin. Gastroenterol. 39, S158–161 (2005).
Geiger, B., Bershadsky, A., Pankov, R. & Yamada, K. M. Transmembrane crosstalk amid the extracellular matrix–cytoskeleton crosstalk. Nature Rev. Mol. Cell. Biol. 2, 793–805 (2001).
Liu, B. P. & Burridge, K. Vav2 activates Rac1, Cdc42, and RhoA afterwards from advance agency receptors but not β1 integrins. Mol. Cell. Biol. 20, 7160–7169 (2000).
Bresnick, A. R. Diminutive mechanisms of nonmuscle myosin-II regulation. Curr. Opin. Corpuscle Biol. 11, 26–33 (1999).
Mogilner, A. & Oster, G. Force bearing by actin polymerization II: the adaptable ratchet and tethered filaments. Biophys. J. 84, 1591–1605 (2003).
Beningo, K. A. & Wang, Y. L. Adjustable substrata for the apprehension of cellular absorption forces. Trends Corpuscle Biol. 12, 79–84 (2002).
Dembo, M. & Wang, Y. L. Stresses at the cell-to-substrate interface during locomotion of fibroblasts. Biophys. J. 76, 2307–2316 (1999). This cardboard demonstrates a adjustment to actuate the absorption armament exerted by a audible fibroblast during abiding locomotion, absolute that the lamellopodia accomplish beyond absorption armament than the anatomy of the cell.
Sirghi, L., Ponti, J., Broggi, F. & Rossi, F. Probing animation and adherence of alive beef by diminutive force microscopy indentation. Eur. Biophys. J. 37, 935–945, (2008).
Solon, J., Levental, I., Sengupta, K., Georges, P. C. & Janmey, P. A. Fibroblast adjustment and acerbity analogous to bendable adaptable substrates. Biophys. J. 93, 4453–4461 (2007).
Kumar, S. et al. Viscoelastic retraction of audible active accent fibers and its appulse on corpuscle shape, cytoskeletal organization, and extracellular cast mechanics. Biophys. J. 90, 3762–3773 (2006).
Hamelers, I. H. et al. The Rac activator Tiam1 is appropriate for α3β1-mediated laminin-5 deposition, corpuscle spreading, and corpuscle migration. J. Corpuscle Biol. 171, 871–881 (2005).
Ewald, A. J., Brenot, A., Duong, M., Chan, B. S. & Werb, Z. Collective epithelial clearing and corpuscle rearrangements drive mammary aberration morphogenesis. Dev. Corpuscle 14, 570–581 (2008).
Yeung, T. et al. Furnishings of substrate acerbity on corpuscle morphology, cytoskeletal structure, and adhesion. Cell. Motil. Cytoskeleton 60, 24–34 (2005).
Delcommenne, M. & Streuli, C. H. Ascendancy of integrin announcement by extracellular matrix. J. Biol. Chem. 270, 26794–26801 (1995).
Triplett, J. W., O’Riley, R., Tekulve, K., Norvell, S. M. & Pavalko, F. M. Automated loading by aqueous microburst accent enhances IGF-1 receptor signaling in osteoblasts in a PKCzeta-dependent manner. Mol. Corpuscle Biomech. 4, 13–25 (2007).
Reichelt, J. Mechanotransduction of keratinocytes in ability and in the epidermis. Eur. J. Corpuscle Biol. 86, 807–816 (2007).
Chien, S. Furnishings of abashed breeze on endothelial cells. Ann. Biomed. Eng. 36, 554–562 (2008).
Avvisato, C. L. et al. Automated force modulates all-around gene announcement and β-catenin signaling in colon blight cells. J. Corpuscle Sci. 120, 2672–2682 (2007).
Alcaraz J., et al., Laminin and biomimetic extracellular animation enhance anatomic adverse in mammary epithelia. EMBO J. 27, 2829–2838 (2008).
Rizki, A. et al. A animal breast corpuscle archetypal of preinvasive to invasive transition. Blight Res. 68, 1378–1387 (2008).
Ingber, D. E. Tensegrity II. How structural networks access cellular advice processing networks. J. Corpuscle Sci. 116, 1397–1408 (2003).
Ingber, D. E. Tensegrity I. Corpuscle anatomy and hierarchical systems biology. J. Corpuscle Sci. 116, 1157–1173 (2003).
Bloom, S., Lockard, V. G. & Bloom, M. Intermediate filament-mediated stretch-induced changes in chromatin: a antecedent for advance admission in cardiac myocytes. J. Mol. Corpuscle Cardiol. 28, 2123–2127 (1996).
Molenaar, C. et al. Visualizing telomere dynamics in active beastly beef application PNA probes. EMBO J. 22, 6631–6641 (2003).
Bustamante, C., Bryant, Z. & Smith, S. B. Ten years of tension: single-molecule DNA mechanics. Nature 421, 423–427 (2003).
Ingber, D. E. Cellular mechanotransduction: putting all the pieces calm again. FASEB J. 20, 811–827 (2006).
Gore, J. et al. Mechanochemical appraisal of DNA gyrase application rotor bean tracking. Nature 439, 100–104 (2006).
Maniotis, A. J., Bojanowski, K. & Ingber, D. E. Automated chain and capricious chromosome disassembly aural complete genomes removed from active cells. Corpuscle Biochem. 65, 114–130 (1997).
Plachot, C. & Lelievre, S. A. DNA methylation ascendancy of tissue polarity and cellular adverse in the mammary epithelium. Exp. Corpuscle Res. 298, 122–132 (2004).
Lelievre, S. et al. Tissue phenotype is abased on alternate interactions amid the extracellular cast and the structural alignment of the nucleus. Proc. Natl. Acad. Sci. USA 95, 14711–14716 (1998).
Kim, Y. B. et al. Corpuscle adherence status-dependent histone acetylation is adapted through intracellular contractility-related signaling activities. J. Biol. Chem. 280, 28357–28364 (2005). This cardboard shows a articulation amid corpuscle adherence and contractility and a abatement in acetylation of histone H3 and college HDAC activity, suggesting that histone modifications can be adapted by automated cues.
Destaing, O. et al. A atypical Rho–mDia2–HDAC6 alleyway controls podosome apery through microtubule acetylation in osteoclasts. J. Corpuscle Sci. 118, 2901–2911 (2005).
Le Beyec, J. et al. Corpuscle appearance regulates all-around histone acetylation in animal mammary epithelial cells. Exp. Corpuscle Res. 313, 3066–3075 (2007).
Dalby, M. J., Riehle, M. O., Sutherland, D. S., Agheli, H. & Curtis, A. S. Morphological and microarray appraisal of animal fibroblasts able on nanocolumns produced by colloidal lithography. Eur. Cell. Mater. 9, 1–8; altercation 8 (2005).
Dalby, M. J. et al. Nanomechanotransduction and interphase nuclear alignment access on genomic control. J. Corpuscle Biochem. 102, 1234–1244 (2007). This cardboard approved that changes in corpuscle appearance attributable to corpuscle overextension adapted the area of chromosomes aural the base and the chromosomal sites of adapted gene expression.
Dalby, M. J. et al. Group appraisal of adjustment of fibroblast genome on low-adhesion nanostructures. Biomaterials 28, 1761–1769 (2007).
Alberts, A. S., Geneste, O. & Treisman, R. Activation of SRF-regulated chromosomal templates by Rho-family GTPases requires a arresting that additionally induces H4 hyperacetylation. Corpuscle 92, 475–487 (1998).
Posern, G., Miralles, F., Guettler, S. & Treisman, R. Mutant actins that stabilise F-actin use audible mechanisms to actuate the SRF coactivator MAL. EMBO J. 23, 3973–3983 (2004).
Vartiainen, M. K., Guettler, S., Larijani, B. & Treisman, R. Nuclear actin regulates activating subcellular localization and action of the SRF cofactor MAL. Science 316, 1749–1752 (2007).
Davies, P. F., Spaan, J. A. & Krams, R. Microburst accent appraisal of the endothelium. Ann. Biomed. Eng. 33, 1714–1718 (2005).
Glaser, K. J., Felmlee, J. P., Manduca, A., Kannan Mariappan, Y. & Ehman, R. L. Stiffness-weighted alluring resonance imaging. Magn. Reson. Med. 55, 59–67 (2006).
Garra, B. S. Imaging and admiration of tissue animation by ultrasound. Ultrasound Q. 23, 255–268 (2007).
Reihsner, R., Melling, M., Pfeiler, W. & Menzel, E. J. Alterations of biochemical and two-dimensional biomechanical backdrop of animal bark in diabetes mellitus as compared to furnishings of in vitro non-enzymatic glycation. Clin. Biomech. (Bristol, Avon) 15, 379–386 (2000).
Stone, J. et al. The heritability of mammographically close and nondense breast tissue. Blight Epidemiol. Biomarkers Prev. 15, 612–617 (2006).
Nelson, C. M., Vanduijn, M. M., Inman, J. L., Fletcher, D. A. & Bissell, M. J. Tissue geometry determines sites of mammary aberration morphogenesis in organotypic cultures. Science 314, 298–300 (2006). This commodity demonstrates that tissue geometry is a acute agency in establishing the morphogen microenvironments that behest annex formation.
Elston, C. W. & Ellis, I. O. (eds) The Breast vol. 13 356–384 (Churchill Livingstone, Edinburgh; New York, 1998).
Ronnov-Jessen, L., Petersen, O. W. & Bissell, M. J. Cellular changes circuitous in about-face of accustomed to cancerous breast: accent of the stromal reaction. Physiol. Rev. 76, 69–125 (1996).
Weaver, V. M., Fischer, A. H., Peterson, O. W. & Bissell, M. J. The accent of the microenvironment in breast blight progression: abridgment of mammary tumorigenesis application a altered animal mammary epithelial corpuscle archetypal and a three-dimensional ability assay. Biochem. Corpuscle Biol. 74, 833–851 (1996).
Timpl, R. Macromolecular alignment of basement membranes. Curr. Opin. Corpuscle Biol. 8, 618–624 (1996).
Griffith, L. G. & Swarz, M. A. Capturing circuitous 3D tissue analysis in vitro. Nature Rev. Mol. Cell. Biol. 7 211–224 (2006).
Kreis, T. & Vale, R. (eds). Guidebook to the ECM, Anchor, and Adherence Proteins (Oxford Univ. Press, New York, 1999).
Kleinman, H. K. & Martin, G. R. Matrigel: basement film cast with biological activity. Semin. Blight Biol. 15, 378–386 (2005).
Green, K. A. & Lund, L. R. ECM aspersing proteases and tissue remodelling in the mammary gland. Bioessays 27, 894–903 (2005).
Watson, C. J. Post-lactational mammary gland regression: diminutive base and implications for breast cancer. Expert Rev. Mol. Med. 8, 1–15 (2006).
McDaniel, S. M. et al. Adjustment of the mammary microenvironment afterwards lactation promotes breast bump corpuscle metastasis. Am. J. Pathol. 168, 608–620 (2006).
Barcellos-Hoff, M. H., Aggeler, J., Ram, T. G. & Bissell, M. J. Anatomic adverse and alveolar morphogenesis of primary mammary cultures on reconstituted basement membrane. Development 105, 223–235 (1989). This commodity demonstrates that advance of mammary epithelial beef in RBM permits the accession of polarized alveolus-like structures that bury milk proteins into the luminal space.
Weaver, V. M. et al. Reversion of the cancerous phenotype of animal breast beef in three-dimensional ability and in vivo by integrin blocking antibodies. J. Corpuscle Biol. 137, 231–245 (1997). Blocking integrin action changed tumour beef developed in three-dimensional ability to a accustomed phenotype, demonstrating that the ECM and its receptors actuate the phenotype and can override genotype in this archetypal system.
Li, M. L. et al. Access of a reconstituted basement film and its apparatus on casein gene announcement and beard in abrasion mammary epithelial cells. Proc. Natl Acad. Sci. USA 84, 136–140 (1987).
Bao, G. & Suresh, S. Corpuscle and diminutive mechanics of biological materials. Nature Mater. 2, 715–725 (2003).
Samani, A., Bishop, J., Luginbuhl, C. & Plewes, D. B. Measuring the adaptable modulus of ex vivo baby tissue samples. Phys. Med. Biol. 48, 2183–2198 (2003).
Suresh, S. Biomechanics and biophysics of blight cells. Acta Biomater. 3, 413–438 (2007).
Paszek, M. J. & Weaver, V. M. The astriction mounts: mechanics meets morphogenesis and malignancy. J. Mammary Gland Biol. Neoplasia 9, 325–342 (2004).
Netti, P. A., Berk, D. A., Swartz, M. A., Grodzinsky, A. J. & Jain, R. K. Role of extracellular cast accession in interstitial carriage in solid tumors. Blight Res. 60, 2497–2503 (2000). This commodity demonstrates that added adaptable modulus consistent from added ECM collagen agreeable influences the attrition of tissues to macromolecule transport, including chemotherapeutic agents.
Dalby, M. J., Riehle, M. O., Johnstone, H., Affrossman, S. & Curtis, A. S. Investigating the banned of filopodial sensing: a abrupt address application SEM to angel the alternation amid 10 nm aerial nano-topography and fibroblast filopodia. Corpuscle Biol. Int. 28, 229–236 (2004).
Chaw, K. C., Manimaran, M., Tay, F. E. & Swaminathan, S. A quantitative ascertainment and imaging of audible bump corpuscle clearing and anamorphosis application a multi-gap microfluidic accessory apery the claret vessel. Microvasc. Res. 72, 153–160 (2006).
Croft, D. R. et al. Conditional ROCK activation in vivo induces bump corpuscle broadcasting and angiogenesis. Blight Res. 64, 8994–9001 (2004).
O’Brien, L. E. et al. Rac1 orientates epithelial aciculate polarity through furnishings on basolateral laminin assembly. Nature Corpuscle Biol. 3, 831–838 (2001).
Wang, F. et al. Alternate interactions amid beta1-integrin and epidermal advance agency receptor in three-dimensional basement film breast cultures: a altered angle in epithelial biology. Proc. Natl Acad. Sci. USA 95, 14821–14826 (1998). This commodity demonstrates that the spatial alignment of breast beef in three-dimensions is important for actual signalling through integrin and EGFR–MAPK pathways.
Provenzano, P. P. et al. Collagen about-face at the tumor-stromal interface facilitates bounded invasion. BMC Med. 4, 38 (2006).
Rhee, S. & Grinnell, F. Fibroblast mechanics in 3D collagen matrices. Adv. Drug Deliv. Rev. 59, 1299–1305 (2007).
Ingman, W. V., Wyckoff, J., Gouon-Evans, V., Condeelis, J. & Pollard, J. W. Macrophages advance collagen fibrillogenesis about terminal end buds of the developing mammary gland. Dev. Dyn. 235, 3222–3229 (2006).
Provenzano, P. P. et al. Collagen anatomy promotes mammary bump admission and progression. BMC Med. 6, 11 (2008).
Wyckoff, J. B., Pinner, S. E., Gschmeissner, S., Condeelis, J. S. & Sahai, E. ROCK- and myosin-dependent cast anamorphosis enables protease-independent tumor-cell aggression in vivo. Curr. Biol. 16, 1515–1523 (2006). This cardboard describes the apparatus by which beef move through a close ECM after proteolysis by MMPs. The tumour beef generated actomyosin armament that askew the collagen fibres to advance through the ECM.
Ingber, D. E., Madri, J. A. & Jamieson, J. D. Role of basal corpuscle in neoplastic chaos of tissue architecture. Proc. Natl Acad. Sci. USA 78, 3901–3905 (1981).
Roose, T., Netti, P. A., Munn, L. L., Boucher, Y. & Jain, R. K. Solid accent generated by apple advance estimated application a beeline poroelasticity archetypal baby star, filled. Microvasc. Res. 66, 204–212 (2003).
Harris, A. L. Hypoxia — a key authoritative agency in tumour growth. Nature Rev. Blight 2, 38–47 (2002).
Jain, R. K. Carriage of molecules, particles, and beef in solid tumors. Annu. Rev. Biomed. Eng. 1, 241–263 (1999).
Rutkowski, J. M. & Swartz, M. A. A active force for change: interstitial breeze as a morphoregulator. Trends Corpuscle Biol. 17, 44–50 (2007).
Tschumperlin, D. J. et al. Mechanotransduction through growth-factor address into the extracellular space. Nature 429, 83–86 (2004). This commodity demonstrates for the aboriginal time how compressive force can adapt advance agency receptor signalling by accretion the bounded ligand concentration.
Minchinton, A. I. & Tannock, I. F. Drug assimilation in solid tumours. Nature Rev. Blight 6, 583–592 (2006).
Walker, R. A. The complexities of breast blight desmoplasia. Breast Blight Res. 3, 143–145 (2001).
Willis, R. Pathology of Tumors (Butterworth and Company, London, 1967).
Goepel, C., Buchmann, J., Schultka, R. & Koelbl, H. Tenascin — a brand for the cancerous abeyant of preinvasive breast cancers. Gynecol. Oncol. 79, 372–378 (2000).
Gorczyca, W., Holm, R. & Nesland, J. M. Laminin accumulation and fibronectin immunoreactivity in breast carcinomas. Anticancer Res. 13, 851–858 (1993).
Guarino, M., Reale, D. & Micoli, G. The extracellular cast in sarcomatoid carcinomas of the breast. Virchows Arch. A Pathol. Anat. Histopathol 423, 131–136 (1993).
Rodriguez, C., Rodriguez-Sinovas, A. & Martinez-Gonzalez, J. Lysyl oxidase as a abeyant ameliorative target. Drug News Perspect. 21, 218–224 (2008).
Strongin, A. Y. Mislocalization and anarchistic functions of cellular MMPs in cancer. Blight Alteration Rev. 25, 87–98 (2006).
Jodele, S., Blavier, L., Yoon, J. M. & DeClerck, Y. A. Modifying the clay to affect the seed: role of stromal-derived cast metalloproteinases in blight progression. Blight Alteration Rev. 25, 35–43 (2006).
Biondi, M. L. et al. MMP1 and MMP3 polymorphisms in apostle regions and cancer. Clin. Chem. 46, 2023–2024 (2000).
Sternlicht, M. D., Safarians, S., Rivera, S. P. & Barsky, S. H. Characterizations of the extracellular cast and proteinase inhibitor agreeable of animal myoepithelial tumors. Lab. Invest. 74, 781–796 (1996).
Akiri, G. et al. Lysyl oxidase-related protein-1 promotes bump fibrosis and bump progression in vivo. Blight Res. 63, 1657–1666 (2003).
Decitre, M. et al. Lysyl oxidase-like protein localizes to sites of de novo fibrinogenesis in fibrosis and in the aboriginal stromal acknowledgment of ductal breast carcinomas. Lab. Invest. 78, 143–151 (1998).
Shields, J. D. et al. Autologous chemotaxis as a apparatus of bump corpuscle homing to lymphatics via interstitial breeze and autocrine CCR7 signaling. Blight Corpuscle 11, 526–538 (2007). This cardboard demonstrates that interstitial breeze establishes an autocrine CCR7 acclivity that guides tumour beef to aqueous argosy during metastasis.
Lieber, M. M. Towards an compassionate of the role of armament in carcinogenesis: a angle with ameliorative implications. Riv. Biol. 99, 131–160 (2006).
Wolfe, J. N. Accident for breast blight development bent by mammographic parenchymal pattern. Blight 37, 2486–2492 (1976).
Wolfe, J. N. Breast patterns as an basis of accident for developing breast cancer. AJR Am. J. Roentgenol. 126, 1130–1137 (1976). References 162 and 163 were the aboriginal to call the articulation amid mammographic anatomy and breast blight risk.
Couzin, J. Breast cancer. Fine-tuning breast anatomy measures. Science 309, 1665 (2005).
Boyd, N. F. et al. Mammographic anatomy and the accident and apprehension of breast cancer. N. Engl. J. Med. 356, 227–236 (2007).
Boyd, N. F. et al. Mammographic densities and breast blight risk. Breast Dis. 10, 113–126 (1998).
Boyd, N. F. et al. Heritability of mammographic density, a accident agency for breast cancer. N. Engl. J. Med. 347, 886–894 (2002).
Guo, Y. P. et al. Advance factors and stromal cast proteins associated with mammographic densities. Blight Epidemiol. Biomarkers Prev. 10, 243–248 (2001).
Li, T. et al. The affiliation of abstinent breast tissue characteristics with mammographic anatomy and added accident factors for breast cancer. Blight Epidemiol. Biomarkers Prev. 14, 343–349 (2005). This commodity approved that collagen levels are added in breast tissues with aerial mammographic density
Radisky, E. S. & Radisky, D. C. Stromal consecration of breast cancer: deepening and invasion. Rev. Endocr. Metab. Disord. 8, 279–287 (2007).
Martin, L. J. & Boyd, N. F. Mammographic density. Abeyant mechanisms of breast blight accident associated with mammographic density: hypotheses based on epidemiological evidence. Breast Blight Res. 10, 201 (2008).
Thomas, A. et al. Real-time elastography–an avant-garde adjustment of ultrasound: Aboriginal after-effects in 108 patients with breast lesions. Ultrasound Obstet. Gynecol. 28, 335–340 (2006).
Woloshin, S., Schwartz, L. M. & Welch, H. G. The accident of afterlife by age, sex, and smoker cachet in the United States: putting bloom risks in context. J. Natl Blight Inst. 100, 845–853 (2008).
Tang, S. Y., Zeenath, U. & Vashishth, D. Furnishings of non-enzymatic glycation on cancellous cartilage fragility. Cartilage 40, 1144–1151 (2007).
Varani, J. et al. Vitamin A antagonizes decreased corpuscle advance and animated collagen-degrading cast metalloproteinases and stimulates collagen accession in artlessly age-old animal skin. J. Invest. Dermatol. 114, 480–486 (2000).
Gosain, A. K., Recinos, R. F., Agresti, M. & Khanna, A. K. TGF-β1, FGF-2, and receptor mRNA announcement in abutment mesenchyme and dura against basal academician in fusing and nonfusing abrasion cranial sutures. Plast. Reconstr Surg. 113, 1675–1684 (2004).
Alexander, H. & Cook, T. Variations with age in the automated backdrop of animal bark in vivo. J. Tissue Viability 16, 6–11 (2006).
Agah, A., Kyriakides, T. R., Letrondo, N., Bjorkblom, B. & Bornstein, P. Thrombospondin 2 levels are added in age-old mice: after-effects for cutaneous anguish healing and angiogenesis. Cast Biol. 22, 539–547 (2004).
Bornstein, P., Agah, A. & Kyriakides, T. R. The role of thrombospondins 1 and 2 in the adjustment of cell–matrix interactions, collagen cilia formation, and the acknowledgment to injury. Int. J. Biochem. Corpuscle Biol. 36, 1115–1125 (2004).
Lasco, A. et al. Effect of abiding analysis with raloxifene on mammary anatomy in postmenopausal women. Menopause 13, 787–792 (2006).
Coussens, L. M., Fingleton, B. & Matrisian, L. M. Cast metalloproteinase inhibitors and cancer: trials and tribulations. Science 295, 2387–2392 (2002).
Psaila, B., Kaplan, R. N., Port, E. R. & Lyden, D. Priming the ‘soil’ for breast blight metastasis: the pre-metastatic niche. Breast Dis. 26, 65–74 (2006).
Balooch, G. et al. TGF-β regulates the automated backdrop and agreement of cartilage matrix. Proc. Natl Acad. Sci. USA 102, 18813–18818 (2005).
Erler, J. T. et al. Lysyl oxidase is capital for hypoxia-induced metastasis. Nature 440, 1222–1226 (2006).
MacKintosh, F. C., Kas, J. & Janmey, P. A. Animation of semiflexible biopolymer networks. Phys. Rev. Lett. 75, 4425–4428 (1995).
Halliday, N. L. & Tomasek, J. J. Automated backdrop of the extracellular cast access fibronectin cilia accession in vitro. Exp. Corpuscle Res. 217, 109–117 (1995).
Girton, T. S., Oegema, T. R. & Tranquillo, R. T. Exploiting glycation to anneal and strengthen tissue equivalents for tissue engineering. J. Biomed. Mater. Res. 46, 87–92 (1999).
Marx, G. Animation of fibrin and protofibrin gels is differentially articulate by calcium and zinc. Thromb. Haemost. 59, 500–503 (1988).
Carr, M. E. Jr, Gabriel, D. A. & McDonagh, J. Access of agency XIII and fibronectin on cilia admeasurement and anatomy in thrombin-induced fibrin gels. J. Lab. Clin. Med. 110, 747–752 (1987).
Pelham, R. J. Jr & Wang, Y. Corpuscle locomotion and focal adhesions are adapted by substrate flexibility. Proc. Natl Acad. Sci. USA 94, 13661–13665 (1997). This commodity illustrated the development of polyacrylamide gels of authentic automated acerbity for use in tissue culture, facilitating the abstraction of corpuscle acknowledgment to extracellular cast force and approved that focal adhesions are aberrant and activating on adjustable matrices and accept accustomed appraisal and adherence on annealed matrices.
Debnath, J. & Brugge, J. S. Modelling glandular epithelial cancers in three-dimensional cultures. Nature Rev. Blight 5, 675–688 (2005).
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