메뉴 건너뛰기
Development
Volumn 133, Issue 12, 2006, Pages 2291-2302
Mechanisms of elongation in embryogenesis
Author keywords

[No Author keywords available]
Indexed keywords

ANISOTROPY; BIOMECHANICS; CELL ADHESION; CELL AGGREGATION; CELL DIVISION; CELL FUNCTION; CELL MIGRATION; CELL SHAPE; EMBRYO DEVELOPMENT; EMBRYONIC STRUCTURES; FIBER; INTERCALATION COMPLEX; LIQUID; MEDICAL RESEARCH; MITOSIS SPINDLE; NONHUMAN; NOTOCHORD; PRESSURE; PRIORITY JOURNAL; REVIEW; SUBCUTANEOUS TISSUE; TRACTION THERAPY;
EID: 33745908621     PISSN: 09501991     EISSN: None     Source Type: Journal    
DOI: 10.1242/dev.02406     Document Type: Review
Times cited : (131)
References (100)
  • 1
    • 0025125917 scopus 로고
    • The mechanics of notochord elongation, straightening and stiffening in the embryo of Xenopus laevis
    • Adams, D. S., Keller, R. and Koehl, M. A. (1990). The mechanics of notochord elongation, straightening and stiffening in the embryo of Xenopus laevis. Development 110, 115-130.
    • (1990) Development , vol.110 , pp. 115-130
    • Adams, D.S.1    Keller, R.2    Koehl, M.A.3
  • 2
    • 2942587231 scopus 로고    scopus 로고
    • Myosin-dependent junction remodelling controls planar cell intercalation and axis elongation
    • Bertet, C., Sulak, L. and Lecuit, T. (2004). Myosin-dependent junction remodelling controls planar cell intercalation and axis elongation. Nature 429, 667-671.
    • (2004) Nature , vol.429 , pp. 667-671
    • Bertet, C.1    Sulak, L.2    Lecuit, T.3
  • 4
    • 23244446129 scopus 로고    scopus 로고
    • Staging of embryonic development in the amphipod crustacean, Parhyale hawaiensis
    • Browne, W. E., Price, A. L, Gerberding, M. and Patel, N. H. (2005). Staging of embryonic development in the amphipod crustacean, Parhyale hawaiensis. Genesis 42, 124-149.
    • (2005) Genesis , vol.42 , pp. 124-149
    • Browne, W.E.1    Price, A.L.2    Gerberding, M.3    Patel, N.H.4
  • 5
    • 0014802974 scopus 로고
    • Studies on the tadpole tail. I. Structure and organization of the notochord and its covering layers in Rana catesbiana
    • Bruns, R. and Gross, J. (1970). Studies on the tadpole tail. I. Structure and organization of the notochord and its covering layers in Rana catesbiana. Am. J. Anat. 128, 193-224.
    • (1970) Am. J. Anat. , vol.128 , pp. 193-224
    • Bruns, R.1    Gross, J.2
  • 6
    • 0036905451 scopus 로고    scopus 로고
    • Collagen fibril biosynthesis in tendon: A review and recent insights
    • Canty, E. G. and Kadler, K. E. (2002). Collagen fibril biosynthesis in tendon: a review and recent insights. Comp. Biochem. PhysioL 133A, 979-985.
    • (2002) Comp. Biochem. PhysioL , vol.133 A , pp. 979-985
    • Canty, E.G.1    Kadler, K.E.2
  • 7
    • 17844373840 scopus 로고    scopus 로고
    • Procollagen trafficking, processing and fibrillogenesis
    • Canty, E. G. and Kadler, K. E. (2005). Procollagen trafficking, processing and fibrillogenesis. J. Cell Sci. 118, 1341-1353.
    • (2005) J. Cell Sci. , vol.118 , pp. 1341-1353
    • Canty, E.G.1    Kadler, K.E.2
  • 8
    • 0031919709 scopus 로고    scopus 로고
    • Oriented cell divisions and cellular morphogenesis in the zebrafish gastrula and neurula: A time-lapse analysis
    • Concha, M. L. and Adams, R. J. (1998). Oriented cell divisions and cellular morphogenesis in the zebrafish gastrula and neurula: a time-lapse analysis. Development 125, 983-994.
    • (1998) Development , vol.125 , pp. 983-994
    • Concha, M.L.1    Adams, R.J.2
  • 9
    • 0027482898 scopus 로고
    • The formation of the pronephric duct in Xenopus involves recruitment of posterior cells by migrating pronephric duct cells
    • Cornish, J. and Etkin, L. (1993). The formation of the pronephric duct in Xenopus involves recruitment of posterior cells by migrating pronephric duct cells. Dev Biol. 159, 338-345.
    • (1993) Dev Biol. , vol.159 , pp. 338-345
    • Cornish, J.1    Etkin, L.2
  • 10
    • 0031569826 scopus 로고    scopus 로고
    • The role of actin filaments in patterning the Caenorhabditis elegans cuticle
    • Costa, M., Draper, B. W. and Priess, J. R. (1997). The role of actin filaments in patterning the Caenorhabditis elegans cuticle. Dev. Biol. 184, 373-384.
    • (1997) Dev. Biol. , vol.184 , pp. 373-384
    • Costa, M.1    Draper, B.W.2    Priess, J.R.3
  • 11
    • 0032489838 scopus 로고    scopus 로고
    • A putative catenin-cadherin system mediates morphogenesis of the Caenorhabditis elegans embryo
    • Costa, M., Raich, W., Agbunag, C., Leung, B., Hardin, J. and Priess, J. R. (1998). A putative catenin-cadherin system mediates morphogenesis of the Caenorhabditis elegans embryo. J. Cell Biol. 141, 297-308.
    • (1998) J. Cell Biol. , vol.141 , pp. 297-308
    • Costa, M.1    Raich, W.2    Agbunag, C.3    Leung, B.4    Hardin, J.5    Priess, J.R.6
  • 12
    • 0036340274 scopus 로고    scopus 로고
    • The bric a brac locus consists of two paralogous genes encoding BTB/POZ domain proteins and acts as a homeotic and morphogenetic regulator of imaginal development in Drosophila
    • Couderc, J. L., Godt D., Zollman, S., Chen, J., Li, M., Tiong, S., Cramton, S. E., Sahut-Barnola, I. and Laski, F. A. (2002). The bric a brac locus consists of two paralogous genes encoding BTB/POZ domain proteins and acts as a homeotic and morphogenetic regulator of imaginal development in Drosophila. Development 129, 2419-2433.
    • (2002) Development , vol.129 , pp. 2419-2433
    • Couderc, J.L.1    Godt, D.2    Zollman, S.3    Chen, J.4    Li, M.5    Tiong, S.6    Cramton, S.E.7    Sahut-Barnola, I.8    Laski, F.A.9
  • 14
    • 11144297253 scopus 로고    scopus 로고
    • Assembly and remodeling of the fibrillar fibronectin matrix during gastrulation and neurulation in Xenopus laevis
    • Davidson, L. A., Keller, R. E. and DeSimone, D. W. (2004). Assembly and remodeling of the fibrillar fibronectin matrix during gastrulation and neurulation in Xenopus laevis. Dev Dyn. 231, 888-895.
    • (2004) Dev Dyn. , vol.231 , pp. 888-895
    • Davidson, L.A.1    Keller, R.E.2    DeSimone, D.W.3
  • 15
    • 0038508929 scopus 로고    scopus 로고
    • Dual origin of the renal tubules in Drosophila: Mesodermal cells integrate and polarize to establish secretory function
    • Denholm, B., Sudarsan, V., Pasalodos-Sanchez, S., Maddrell, S. H. P, Baylies, M. K. and Skaer, H. (2003). Dual origin of the renal tubules in Drosophila: Mesodermal cells integrate and polarize to establish secretory function. Curr. Biol. 13, 1052-1057.
    • (2003) Curr. Biol. , vol.13 , pp. 1052-1057
    • Denholm, B.1    Sudarsan, V.2    Pasalodos-Sanchez, S.3    Maddrell, S.H.P.4    Baylies, M.K.5    Skaer, H.6
  • 16
    • 0348013145 scopus 로고    scopus 로고
    • C. elegans ankyrin repeat protein VAB-19 is a component of epidermal attachment structures and is essential for epidermal morphogenesis
    • Ding, M., Goncharov, A., Jin, Y. and Chisholm, A. D. (2003). C. elegans ankyrin repeat protein VAB-19 is a component of epidermal attachment structures and is essential for epidermal morphogenesis. Development 130, 5791-5801.
    • (2003) Development , vol.130 , pp. 5791-5801
    • Ding, M.1    Goncharov, A.2    Jin, Y.3    Chisholm, A.D.4
  • 17
    • 6344254915 scopus 로고    scopus 로고
    • The cytoskeleton and epidermal morphogenesis in C. elegans
    • Ding, M., Woo, W.-M. and Chisholm, A. D. (2004). The cytoskeleton and epidermal morphogenesis in C. elegans. Exp. Cell Res. 301, 84-90.
    • (2004) Exp. Cell Res. , vol.301 , pp. 84-90
    • Ding, M.1    Woo, W.-M.2    Chisholm, A.D.3
  • 18
    • 0029841343 scopus 로고    scopus 로고
    • Morphogenesis of the axolotl pronephric duct: A model system for the study of cell migration in vivo
    • Drawbridge, J. and Steinberg, M. (1996). Morphogenesis of the axolotl pronephric duct: a model system for the study of cell migration in vivo. Int. J. Dev. Biol. 40, 709-713.
    • (1996) Int. J. Dev. Biol. , vol.40 , pp. 709-713
    • Drawbridge, J.1    Steinberg, M.2
  • 19
    • 0029586671 scopus 로고
    • The epidermis is a source of directional information for the migrating pronephric duct in Ambystoma mexicanum embryos
    • Drawbridge, J., Wolf, A. E., Delgado, Y. L. and and Steinberg, M. S. (1995). The epidermis is a source of directional information for the migrating pronephric duct in Ambystoma mexicanum embryos. Dev Biol. 172, 440-451.
    • (1995) Dev Biol. , vol.172 , pp. 440-451
    • Drawbridge, J.1    Wolf, A.E.2    Delgado, Y.L.3    Steinberg, M.S.4
  • 20
    • 0034353641 scopus 로고    scopus 로고
    • GDNF and GFRa-1 are components of the axolotl pronephric duct guidance system
    • Drawbridge, J., Meighan, C. M. and Mitchell, E. A. (2000). GDNF and GFRa-1 are components of the axolotl pronephric duct guidance system. Dev. Biol. 228, 116-124.
    • (2000) Dev. Biol. , vol.228 , pp. 116-124
    • Drawbridge, J.1    Meighan, C.M.2    Mitchell, E.A.3
  • 22
    • 0022607176 scopus 로고
    • Morphogenetic waves in the development of the lateral mesoderm in the Mexican axolotl (Ambystoma mexicanum) and their relationship to pronephric duct migration
    • Gillespie, L. L. and Armstrong, J. B. (1986). Morphogenetic waves in the development of the lateral mesoderm in the Mexican axolotl (Ambystoma mexicanum) and their relationship to pronephric duct migration. J. Exp. Zool. 237, 327-338.
    • (1986) J. Exp. Zool. , vol.237 , pp. 327-338
    • Gillespie, L.L.1    Armstrong, J.B.2
  • 24
    • 0028795362 scopus 로고
    • Mechanisms of cell rearrangement and cell recruitment in Drosophila ovary morphogenesis and the requirement of bric a brac
    • Godt D. and Laski, F. A. (1995). Mechanisms of cell rearrangement and cell recruitment in Drosophila ovary morphogenesis and the requirement of bric a brac. Development 121, 173-187.
    • (1995) Development , vol.121 , pp. 173-187
    • Godt, D.1    Laski, F.A.2
  • 25
    • 0027504827 scopus 로고
    • Pattern formation in the limbs of Drsophila: Bric-a-brac is expressed in both a gradient and a wave-like pattern and is required for specification and proper segmentation of the tarsus
    • Godt, D., Couderc, J. L, Cramton, S. E. and Laski, F. A. (1993). Pattern formation in the limbs of Drsophila: bric-a-brac is expressed in both a gradient and a wave-like pattern and is required for specification and proper segmentation of the tarsus. Development 119, 799-812.
    • (1993) Development , vol.119 , pp. 799-812
    • Godt, D.1    Couderc, J.L.2    Cramton, S.E.3    Laski, F.A.4
  • 27
    • 3943102141 scopus 로고    scopus 로고
    • Planar cell polarity signalling controls cell division orientation during zebrafish gastrulation
    • Gong, Y., Mo, C. and Fraser, S. (2004). Planar cell polarity signalling controls cell division orientation during zebrafish gastrulation. Nature 430, 689-693.
    • (2004) Nature , vol.430 , pp. 689-693
    • Gong, Y.1    Mo, C.2    Fraser, S.3
  • 28
    • 0242333956 scopus 로고    scopus 로고
    • mua-6, a gene required for tissue integrity in Caenorhabditis elegans, encodes a cytoplasmic intermediate filament
    • Hapiak, V., Hresko, M. C., Schriefer, L A., Saiyasisongkhram, K., Bercher M. and Plenefisch, J. (2003). mua-6, a gene required for tissue integrity in Caenorhabditis elegans, encodes a cytoplasmic intermediate filament. Dev Biol. 263, 330-342.
    • (2003) Dev Biol. , vol.263 , pp. 330-342
    • Hapiak, V.1    Hresko, M.C.2    Schriefer, L.A.3    Saiyasisongkhram, K.4    Bercher, M.5    Plenefisch, J.6
  • 29
    • 33745901493 scopus 로고
    • Context-sensitive cell behaviors during gastrulation
    • Hardin, J. (1990). Context-sensitive cell behaviors during gastrulation. Semin. Dev. Biol. 1, 335-345.
    • (1990) Semin. Dev. Biol. , vol.1 , pp. 335-345
    • Hardin, J.1
  • 30
    • 0018838995 scopus 로고
    • Silicone rubber substrata: A new wrinkle in the study of cell locomotion
    • Harris, A. K., Wild, P. and Stopak, D. (1980). Silicone rubber substrata: a new wrinkle in the study of cell locomotion. Science 208, 177-179.
    • (1980) Science , vol.208 , pp. 177-179
    • Harris, A.K.1    Wild, P.2    Stopak, D.3
  • 31
    • 0003021966 scopus 로고
    • Collagen and embryonic development
    • (ed. R. Trelstad) New York: Alan Liss
    • Hay, E. (1984). Collagen and embryonic development. In The Role of the Extracellular Matrix in Development (ed. R. Trelstad), pp. 379-409. New York: Alan Liss.
    • (1984) The Role of the Extracellular Matrix in Development , pp. 379-409
    • Hay, E.1
  • 32
    • 0028053438 scopus 로고
    • Sequential fates in a single cell are established by the neurogenic cascade in the malpighian tubules of Drosophila
    • Hoch, M., Broadie, K., Jackle, H. and Skaer, H. (1994). Sequential fates in a single cell are established by the neurogenic cascade in the malpighian tubules of Drosophila. Development 120, 3439-3450.
    • (1994) Development , vol.120 , pp. 3439-3450
    • Hoch, M.1    Broadie, K.2    Jackle, H.3    Skaer, H.4
  • 33
    • 0028055026 scopus 로고
    • Assembly of body wall muscle and muscle cell attachment structures in Caenorhabditis elegans
    • Hresko, M. C., Williams, B. D. and Waterston, R. H. (1994). Assembly of body wall muscle and muscle cell attachment structures in Caenorhabditis elegans. J. Cell Biol. 124, 491-506.
    • (1994) J. Cell Biol. , vol.124 , pp. 491-506
    • Hresko, M.C.1    Williams, B.D.2    Waterston, R.H.3
  • 34
    • 0033538845 scopus 로고    scopus 로고
    • Myotactin, a novel hypodermal protein involved in muscle-cell adhesion in Caenorhabditis elegans
    • Hresko, M. C., Schriefer, L. A., Shirmankar, P. and Waterston, R. H. (1999) Myotactin, a novel hypodermal protein involved in muscle-cell adhesion in Caenorhabditis elegans. J. Cell Biol. 146, 659-672.
    • (1999) J. Cell Biol. , vol.146 , pp. 659-672
    • Hresko, M.C.1    Schriefer, L.A.2    Shirmankar, P.3    Waterston, R.H.4
  • 35
    • 0029945362 scopus 로고    scopus 로고
    • Cell fate determination in an annelid equivalence group
    • Huang, F. Z. and Weisblat D. (1996). Cell fate determination in an annelid equivalence group. Development 122, 1839-1847.
    • (1996) Development , vol.122 , pp. 1839-1847
    • Huang, F.Z.1    Weisblat, D.2
  • 36
    • 0003037231 scopus 로고
    • Clonal analysis of the blastoderm anlage of the Malpighian tubules in Drosophila melanogaster
    • Janning, W., Lutz. A. and Wissen. D. (1986). Clonal analysis of the blastoderm anlage of the Malpighian tubules in Drosophila melanogaster. Roux Arch. Dev. Biol. 195, 22-32.
    • (1986) Roux Arch. Dev. Biol. , vol.195 , pp. 22-32
    • Janning, W.1    Lutz, A.2    Wissen, D.3
  • 37
    • 0037235515 scopus 로고    scopus 로고
    • Localized JAK/STAT signaling is required for oriented cell rearrangement in a tubular epithelium
    • Johansen, K. A., Iwaki, D. D. and Lengyel, J. A. (2003). Localized JAK/ STAT signaling is required for oriented cell rearrangement in a tubular epithelium. Development 130, 135-145.
    • (2003) Development , vol.130 , pp. 135-145
    • Johansen, K.A.1    Iwaki, D.D.2    Lengyel, J.A.3
  • 38
    • 20544465389 scopus 로고    scopus 로고
    • Renal tubule development in Drosophila: A closer look at the cellular level
    • Jung, A. C., Denholm, B., Skaer, H. and Affolter, M. (2005). Renal tubule development in Drosophila: a closer look at the cellular level. J. Am. Soc. Nephrol. 16, 322-328.
    • (2005) J. Am. Soc. Nephrol. , vol.16 , pp. 322-328
    • Jung, A.C.1    Denholm, B.2    Skaer, H.3    Affolter, M.4
  • 39
    • 1842579704 scopus 로고    scopus 로고
    • Matrix loading: Assembly of extracellular matrix collagen fibrils during embryogenesis
    • Kadler, K. E. (2004). Matrix loading: assembly of extracellular matrix collagen fibrils during embryogenesis. Birth Defects Res. 72, 1-11.
    • (2004) Birth Defects Res. , vol.72 , pp. 1-11
    • Kadler, K.E.1
  • 41
    • 0037032828 scopus 로고    scopus 로고
    • Shaping the vertebrate body plan by polarized embryonic cell movements
    • Keller, R. (2002). Shaping the vertebrate body plan by polarized embryonic cell movements. Science 298, 1950-1954.
    • (2002) Science , vol.298 , pp. 1950-1954
    • Keller, R.1
  • 42
  • 44
    • 0018140937 scopus 로고
    • Ultrastructural identification of collagen and glycosaminoglycans in notochordal extracellular matrix in vivo and in vitro
    • Kenney, M. and Carlson, E. (1978). Ultrastructural identification of collagen and glycosaminoglycans in notochordal extracellular matrix in vivo and in vitro. Anat. Rec. 190, 827-850.
    • (1978) Anat. Rec. , vol.190 , pp. 827-850
    • Kenney, M.1    Carlson, E.2
  • 45
    • 0013117528 scopus 로고
    • Biomechanical approaches to morphogenesis
    • Koehl, M. A. R. (1990). Biomechanical approaches to morphogenesis. Semin. Dev Biol. 1, 367-378.
    • (1990) Semin. Dev Biol. , vol.1 , pp. 367-378
    • Koehl, M.A.R.1
  • 46
    • 0039365187 scopus 로고
    • Mechanical development of the notochord in Xenopus early tail-bud embryos
    • (ed. N. Akkas) Berlin, Heidelberg: Springer-Verlag
    • Koehl, M. A. R., Adams, D. S. and Keller, R. E. (1990). Mechanical development of the notochord in Xenopus early tail-bud embryos. In Biomechanics of Active Movement and Deformation. Vol. H42 (ed. N. Akkas), pp. 471-485. Berlin, Heidelberg: Springer-Verlag.
    • (1990) Biomechanics of Active Movement and Deformation , vol.H42 , pp. 471-485
    • Koehl, M.A.R.1    Adams, D.S.2    Keller, R.E.3
  • 47
    • 33745980422 scopus 로고    scopus 로고
    • Mechanical design of fiber-wound hydraulic skeletons: The stiffening and straightening of embryonic notochords
    • Koehl, M. A. R., Quillin, K. J. and Pell, C. A. (2000). Mechanical design of fiber-wound hydraulic skeletons: the stiffening and straightening of embryonic notochords. Am. Zool. 40, 28-41.
    • (2000) Am. Zool. , vol.40 , pp. 28-41
    • Koehl, M.A.R.1    Quillin, K.J.2    Pell, C.A.3
  • 48
    • 1842336264 scopus 로고    scopus 로고
    • Mutations in the alpha 1 subunit of an L-type voltage-activated Ca2+ channel cause myotonia in Caenorhabditis elegans
    • Lee, R. Y. N., Lobel, L., Hengartner, M., Horvitz, R. and Avery, L. (1997). Mutations in the alpha 1 subunit of an L-type voltage-activated Ca2+ channel cause myotonia in Caenorhabditis elegans. EMBO J. 16, 6066-6076.
    • (1997) EMBO J. , vol.16 , pp. 6066-6076
    • Lee, R.Y.N.1    Lobel, L.2    Hengartner, M.3    Horvitz, R.4    Avery, L.5
  • 49
    • 0036499810 scopus 로고    scopus 로고
    • It takes guts: The Drosophila hindgut as a model system for organogenesis
    • Lengyel, J. A. and Iwaki, D. D. (2002). It takes guts: the Drosophila hindgut as a model system for organogenesis. Dev Biol. 243, 1-19.
    • (2002) Dev Biol. , vol.243 , pp. 1-19
    • Lengyel, J.A.1    Iwaki, D.D.2
  • 50
    • 1842665671 scopus 로고    scopus 로고
    • Chemkine signaling regulates sensory cell migration in zebrafish
    • Li, Q., Shirabe, K. and Kuwada, J. (2004). Chemkine signaling regulates sensory cell migration in zebrafish. Dev Biol. 269, 123-136.
    • (2004) Dev Biol. , vol.269 , pp. 123-136
    • Li, Q.1    Shirabe, K.2    Kuwada, J.3
  • 51
    • 0031835177 scopus 로고    scopus 로고
    • H-spectrin homolog required for Caenorhabditis elegans morphogenesis
    • H-spectrin homolog required for Caenorhabditis elegans morphogenesis. Development 128, 2087-2098.
    • (1998) Development , vol.128 , pp. 2087-2098
    • McKeown, C.1    Pratis, V.2    Austin, J.3
  • 52
    • 0036843202 scopus 로고    scopus 로고
    • Planar cell polarization: Do the same mechanisms regulate Drosophila tissue polarity and vertebrate gastrulation?
    • Mlodzik, M. (2002). Planar cell polarization: do the same mechanisms regulate Drosophila tissue polarity and vertebrate gastrulation? Trends Genet. 18, 564-571.
    • (2002) Trends Genet. , vol.18 , pp. 564-571
    • Mlodzik, M.1
  • 53
    • 0345717881 scopus 로고
    • An experimental study of the development of the notochordal sheath
    • Mookerjee, S. (1953). An experimental study of the development of the notochordal sheath. J. Embryol. Exp. Morphol. 1, 411-416.
    • (1953) J. Embryol. Exp. Morphol. , vol.1 , pp. 411-416
    • Mookerjee, S.1
  • 55
    • 0028278605 scopus 로고
    • A fiber optic system for measuring dynamic mechanical properties of embryonic tissues
    • Moore, S. W. (1994). A fiber optic system for measuring dynamic mechanical properties of embryonic tissues. IEEE Trans. Biomed. Eng. 41, 45-50.
    • (1994) IEEE Trans. Biomed. Eng. , vol.41 , pp. 45-50
    • Moore, S.W.1
  • 56
    • 0028875028 scopus 로고
    • The dorsal involuting marginal zone stiffens anisotropically during its convergent extension in the gastrula of Xenopus leavis
    • Moore, S. W., Keller, R. E. and Koehl, M. A. R. (1995). The dorsal involuting marginal zone stiffens anisotropically during its convergent extension in the gastrula of Xenopus leavis. Development 121, 3130-3140.
    • (1995) Development , vol.121 , pp. 3130-3140
    • Moore, S.W.1    Keller, R.E.2    Koehl, M.A.R.3
  • 57
    • 0347382520 scopus 로고    scopus 로고
    • Axolotl pronephric duct migration requires an epidermally derived, laminin 1 -containing extracellular matrix and the integrin receptor a6b1
    • Morris, A. R., Drawbridge, J. and Steinberg, M. S. (2003). Axolotl pronephric duct migration requires an epidermally derived, laminin 1 -containing extracellular matrix and the integrin receptor a6b1. Development 130, 5601-5608.
    • (2003) Development , vol.130 , pp. 5601-5608
    • Morris, A.R.1    Drawbridge, J.2    Steinberg, M.S.3
  • 58
    • 14644446006 scopus 로고    scopus 로고
    • Making tubes in the Drosophila embryo
    • Myat, M. M. (2005). Making tubes in the Drosophila embryo. Dev. Dyn. 232, 617-632.
    • (2005) Dev. Dyn. , vol.232 , pp. 617-632
    • Myat, M.M.1
  • 59
    • 0036716748 scopus 로고    scopus 로고
    • Convergence and extension in vertebrate gastrulae: Cell movements according to or in search of identity?
    • Myers, D. C., Sepich, D. S. and Solnica-Krezel, L (2002). Convergence and extension in vertebrate gastrulae: cell movements according to or in search of identity? Trends Genet. 18, 447-455.
    • (2002) Trends Genet. , vol.18 , pp. 447-455
    • Myers, D.C.1    Sepich, D.S.2    Solnica-Krezel, L.3
  • 60
    • 0026356296 scopus 로고
    • Conversion of ectoderm to mesoderm by cytoplasmic extrusion in leech embryos
    • Nelson, B. H. and Weisblat, D. A. (199 1). Conversion of ectoderm to mesoderm by cytoplasmic extrusion in leech embryos. Science 253, 435-438.
    • (1991) Science , vol.253 , pp. 435-438
    • Nelson, B.H.1    Weisblat, D.A.2
  • 61
    • 3142659600 scopus 로고    scopus 로고
    • Antero-posterior tissue polarity links mesoderm convergent extension to axial patterning
    • Ninomiya, H., Elinson, R. P. and Winklbauer, R. (2004). Antero-posterior tissue polarity links mesoderm convergent extension to axial patterning. Nature 430, 364-367.
    • (2004) Nature , vol.430 , pp. 364-367
    • Ninomiya, H.1    Elinson, R.P.2    Winklbauer, R.3
  • 62
    • 0037071536 scopus 로고    scopus 로고
    • A spectrin is essential for morphogenesis and body wall muscle formation in Caenorhabditis elegans
    • Norman, K. and Moerman, D. (2002). A spectrin is essential for morphogenesis and body wall muscle formation in Caenorhabditis elegans. J. Cell Biol. 157, 665-677.
    • (2002) J. Cell Biol. , vol.157 , pp. 665-677
    • Norman, K.1    Moerman, D.2
  • 63
    • 0002262710 scopus 로고
    • Studies on the mode of outgrowth of the amphibian pronephric duct
    • Overton, J. (1959). Studies on the mode of outgrowth of the amphibian pronephric duct. J. Embryol. Exp. Morphol. 7, 86-93.
    • (1959) J. Embryol. Exp. Morphol. , vol.7 , pp. 86-93
    • Overton, J.1
  • 64
    • 0002036636 scopus 로고
    • SEM-aided analysis of morphogenetic movements: Development of the amphibian pronephric duct
    • Poole, T. J. and Steinberg, M. S. (1977). SEM-aided analysis of morphogenetic movements: development of the amphibian pronephric duct. IITRI/SEM/1977 2, 43-52.
    • (1977) IITRI/SEM/1977 , vol.2 , pp. 43-52
    • Poole, T.J.1    Steinberg, M.S.2
  • 65
    • 0019393548 scopus 로고
    • Amphibian pronephric duct morphogenesis: Segregation, cell rearrangement and directed migration of the Ambystoma duct rudiment
    • Poole, T. J. and Steinberg, M. S. (1981). Amphibian pronephric duct morphogenesis: segregation, cell rearrangement and directed migration of the Ambystoma duct rudiment. J. Embryol. Exp. Morphol. 63, 1-16.
    • (1981) J. Embryol. Exp. Morphol. , vol.63 , pp. 1-16
    • Poole, T.J.1    Steinberg, M.S.2
  • 66
    • 0020320803 scopus 로고
    • Evidence for the guidance of pronephric duct migration by a craniocaudally traveling adhesion gradient
    • Poole, T. and Steinberg, M. S. (1982). Evidence for the guidance of pronephric duct migration by a craniocaudally traveling adhesion gradient. Dev. Biol. 92, 144-158.
    • (1982) Dev. Biol. , vol.92 , pp. 144-158
    • Poole, T.1    Steinberg, M.S.2
  • 67
    • 0022778251 scopus 로고
    • Caenorhabditis elegans morphogenesis: The role of the cytoskeleton in elongation of the embryo
    • Priess, J. R. and Hirsh, D. I. (1986). Caenorhabditis elegans morphogenesis: the role of the cytoskeleton in elongation of the embryo. Dev. Biol. 117, 156-173.
    • (1986) Dev. Biol. , vol.117 , pp. 156-173
    • Priess, J.R.1    Hirsh, D.I.2
  • 68
    • 0033592559 scopus 로고    scopus 로고
    • Rapid epithelial-sheet sealing in the Caenorhabditis elegans embryo requires cadherin-dependent filopodial priming
    • Raich, W. B., Agbunag, C. and Hardin, J. (1999). Rapid epithelial-sheet sealing in the Caenorhabditis elegans embryo requires cadherin-dependent filopodial priming. Curr. Biol. 9, 1139-1146.
    • (1999) Curr. Biol. , vol.9 , pp. 1139-1146
    • Raich, W.B.1    Agbunag, C.2    Hardin, J.3
  • 69
    • 0029142890 scopus 로고
    • Drosophila ovary morphogenesis: Analysis of terminal filament formation and identification of a gene required for this process
    • Sahut-Barnola, I., Godt D., Laski, F. A. and Couderc, J. L (1995). Drosophila ovary morphogenesis: analysis of terminal filament formation and identification of a gene required for this process. Dev. Biol. 170, 127-135.
    • (1995) Dev. Biol. , vol.170 , pp. 127-135
    • Sahut-Barnola, I.1    Godt, D.2    Laski, F.A.3    Couderc, J.L.4
  • 70
    • 0000242304 scopus 로고
    • Specification of the basic body pattern in insect embryogenesis
    • Sander, K. (1976). Specification of the basic body pattern in insect embryogenesis. Adv. Insect Physiol. 12, 125-238.
    • (1976) Adv. Insect Physiol. , vol.12 , pp. 125-238
    • Sander, K.1
  • 71
    • 0024320707 scopus 로고
    • Roles of neuroepithelial cell rearrangement and division in shaping of the avian neural plate
    • Schoenwolf, G. C. and Alvarez, I. S. (1989). Roles of neuroepithelial cell rearrangement and division in shaping of the avian neural plate. Development 106, 427-439.
    • (1989) Development , vol.106 , pp. 427-439
    • Schoenwolf, G.C.1    Alvarez, I.S.2
  • 72
    • 0026677505 scopus 로고
    • Role of cell rearrangement in axial morphogenesis
    • Schoenwolf, G. C. and Alvarez, I. S. (1992). Role of cell rearrangement in axial morphogenesis. Curr. Top. Dev. Biol. 27, 129-173.
    • (1992) Curr. Top. Dev. Biol. , vol.27 , pp. 129-173
    • Schoenwolf, G.C.1    Alvarez, I.S.2
  • 73
    • 0028968825 scopus 로고
    • Experimental analyses of the rearrangement of ectodermal cells during gastrulation and neurulation in avian embryos
    • Schoenwolf, G. C. and Yuan, S. (1995). Experimental analyses of the rearrangement of ectodermal cells during gastrulation and neurulation in avian embryos. Cell Tissue Res. 280, 243-251.
    • (1995) Cell Tissue Res. , vol.280 , pp. 243-251
    • Schoenwolf, G.C.1    Yuan, S.2
  • 74
    • 0033606796 scopus 로고    scopus 로고
    • The nonmuscle myosin regulatory light chain gene mlc-4 is required for cytokinesis, anterior-posterior polarity, and body morphology during Caenorhabditis elegans embyrogenesis
    • Shelton, C., Carter, J., Ellis, G. and Bowerman, B. (1999). The nonmuscle myosin regulatory light chain gene mlc-4 is required for cytokinesis, anterior-posterior polarity, and body morphology during Caenorhabditis elegans embyrogenesis. J. Cell Biol. 146, 439-451.
    • (1999) J. Cell Biol. , vol.146 , pp. 439-451
    • Shelton, C.1    Carter, J.2    Ellis, G.3    Bowerman, B.4
  • 75
    • 0027082578 scopus 로고
    • Cell motility driving mediolateral intercalation in explants of Xenopus laevis
    • Shih, J. and Keller, R. (1992a). Cell motility driving mediolateral intercalation in explants of Xenopus laevis. Development 116, 901-914.
    • (1992) Development , vol.116 , pp. 901-914
    • Shih, J.1    Keller, R.2
  • 76
    • 0027051902 scopus 로고
    • Patterns of cell motility in the organizer and dorsal mesoderm of Xenopus laevis
    • Shih, J. and Keller, R. (1992b). Patterns of cell motility in the organizer and dorsal mesoderm of Xenopus laevis. Development 116, 915-930.
    • (1992) Development , vol.116 , pp. 915-930
    • Shih, J.1    Keller, R.2
  • 77
    • 0031898879 scopus 로고    scopus 로고
    • Zebrafish semaphorin Z1a collapses specific growth cones and alters their pathway in vivo
    • Shoji, W., Yee, C. S. and Kuwada, J. (1998). Zebrafish semaphorin Z1a collapses specific growth cones and alters their pathway in vivo. Development 125, 1275-1283.
    • (1998) Development , vol.125 , pp. 1275-1283
    • Shoji, W.1    Yee, C.S.2    Kuwada, J.3
  • 78
    • 0035137405 scopus 로고    scopus 로고
    • Getting into shape: Epidermal morphogenesis in Caenorhabditis elegans embryos
    • Simske, J. S. and Hardin, J. (2001). Getting into shape: epidermal morphogenesis in Caenorhabditis elegans embryos. BioEssays 23, 12-23.
    • (2001) BioEssays , vol.23 , pp. 12-23
    • Simske, J.S.1    Hardin, J.2
  • 79
    • 0001409730 scopus 로고
    • Cell division in malpighian tubule development in Drosophila melanogaster is regulated byt a single tip cell
    • Skaer, H. (1989). Cell division in malpighian tubule development in Drosophila melanogaster is regulated byt a single tip cell. Nature 243, 566-569.
    • (1989) Nature , vol.243 , pp. 566-569
    • Skaer, H.1
  • 80
    • 0026440061 scopus 로고
    • The wingless product is required for cell proliferation in the Malpighian tubule anlage of Drosophila melanogaster
    • Skaer, H. and Arias, A. M. (1992). The wingless product is required for cell proliferation in the Malpighian tubule anlage of Drosophila melanogaster. Development 116, 745-754.
    • (1992) Development , vol.116 , pp. 745-754
    • Skaer, H.1    Arias, A.M.2
  • 81
    • 33745165913 scopus 로고    scopus 로고
    • Xenopus fibrillin is expressed in the organizer and is the earliest component of matrix at the developing notochord-somite boundary
    • (in press)
    • Skoglund, R, Dzamba, B., Coffman, C. R., Harris, W. A. and Keller, R. (2006). Xenopus fibrillin is expressed in the organizer and is the earliest component of matrix at the developing notochord-somite boundary. Dev Dyn. (in press).
    • (2006) Dev Dyn.
    • Skoglund, R.1    Dzamba, B.2    Coffman, C.R.3    Harris, W.A.4    Keller, R.5
  • 82
    • 0029956084 scopus 로고    scopus 로고
    • Cellular mechanisms of epiboly in leech embryos
    • Smith, C. M., Lans, D. and Weisblat, D. A. (1996). Cellular mechanisms of epiboly in leech embryos. Development 122, 1885-1894.
    • (1996) Development , vol.122 , pp. 1885-1894
    • Smith, C.M.1    Lans, D.2    Weisblat, D.A.3
  • 83
    • 0025039545 scopus 로고
    • Development of the mechanoreceptive lateral-line system in the axolotl: Placocle specification, guidance of migration, and the orgin of neuromast polarity
    • Smith, S. C., Lannoo, M. J. and Armstrong, J. B. (1990). Development of the mechanoreceptive lateral-line system in the axolotl: placocle specification, guidance of migration, and the orgin of neuromast polarity. Anat. Embryol. 182, 171-180.
    • (1990) Anat. Embryol. , vol.182 , pp. 171-180
    • Smith, S.C.1    Lannoo, M.J.2    Armstrong, J.B.3
  • 84
    • 0020059039 scopus 로고
    • The development of a simple nervous system
    • Stent, G. S. and Weisblat, D. (1982). The development of a simple nervous system. Sci. Am. 246, 136-146.
    • (1982) Sci. Am. , vol.246 , pp. 136-146
    • Stent, G.S.1    Weisblat, D.2
  • 85
    • 0008098969 scopus 로고
    • The ultrastructure of the developing urodele notochord
    • Waddington, C. H. and Perry, M. (1953). The ultrastructure of the developing urodele notochord. Proc R. Soc. Lond. B Biol. Sci. 156, 459-482.
    • (1953) Proc R. Soc. Lond. B Biol. Sci. , vol.156 , pp. 459-482
    • Waddington, C.H.1    Perry, M.2
  • 86
    • 0036087024 scopus 로고    scopus 로고
    • Convergent extension: The molecular control of polarized cell movement during embryonic development
    • Wallingford, J. B., Fraser, S. E. and Harland, R. M. (2002). Convergent extension: the molecular control of polarized cell movement during embryonic development. Dev. Cell 2, 695-706.
    • (2002) Dev. Cell , vol.2 , pp. 695-706
    • Wallingford, J.B.1    Fraser, S.E.2    Harland, R.M.3
  • 87
    • 33745489162 scopus 로고
    • Simlar pattern of fine structure in the basement lamella of the skin and the external sheath of the notochord in Xenopus larvae
    • Weber, R. (1961). Simlar pattern of fine structure in the basement lamella of the skin and the external sheath of the notochord in Xenopus larvae. Experientia 17, 365.
    • (1961) Experientia , vol.17 , pp. 365
    • Weber, R.1
  • 88
    • 0033956345 scopus 로고    scopus 로고
    • Formation of the avian primitive streak from spatially restricted blastoderm: Evidence for polarized cell division in the elongating streak
    • Wei, Y. and Mikawa, T. (2000). Formation of the avian primitive streak from spatially restricted blastoderm: evidence for polarized cell division in the elongating streak. Development 127, 87-96.
    • (2000) Development , vol.127 , pp. 87-96
    • Wei, Y.1    Mikawa, T.2
  • 89
    • 0030767660 scopus 로고    scopus 로고
    • An actin-mediated two-step mechanism is required for ventral enclosure of the C. elegans hypodermis
    • Williams-Masson, E. M., Malik, A. N. and Hardin, J. (1997). An actin-mediated two-step mechanism is required for ventral enclosure of the C. elegans hypodermis. Development 124, 2889-2901.
    • (1997) Development , vol.124 , pp. 2889-2901
    • Williams-Masson, E.M.1    Malik, A.N.2    Hardin, J.3
  • 90
    • 0032381329 scopus 로고    scopus 로고
    • The cellular mechanism of epithelial rearrangement during morphogenesis of the Caenorhabditis elegans dorsal hypodermis
    • Williams-Masson, E. M., Heid, P. J., Lavin, C. A. and Hardin, J. (1998). The cellular mechanism of epithelial rearrangement during morphogenesis of the Caenorhabditis elegans dorsal hypodermis. Dev Biol. 204, 263-276.
    • (1998) Dev Biol. , vol.204 , pp. 263-276
    • Williams-Masson, E.M.1    Heid, P.J.2    Lavin, C.A.3    Hardin, J.4
  • 92
    • 0024554896 scopus 로고
    • Development of the lateral line system in Xenopus
    • Winklbauer, R. (1989). Development of the lateral line system in Xenopus. Prog. Neurobiol. 32, 181-206.
    • (1989) Prog. Neurobiol. , vol.32 , pp. 181-206
    • Winklbauer, R.1
  • 93
    • 0031028999 scopus 로고    scopus 로고
    • Caenorhabditis elegans LET-502 is related to Rho-binding kinases and human myotonic dystrophy kinase and interacts genetically with a homolog of the regulatory subunit of smooth muscle myosin phosphatase to affect cell shape
    • Wissman, A., Ingles, J., McGhee, J. and Mains, R (1997). Caenorhabditis elegans LET-502 is related to Rho-binding kinases and human myotonic dystrophy kinase and interacts genetically with a homolog of the regulatory subunit of smooth muscle myosin phosphatase to affect cell shape. Genes Dev. 11, 409-422.
    • (1997) Genes Dev. , vol.11 , pp. 409-422
    • Wissman, A.1    Ingles, J.2    McGhee, J.3    Mains, P.4
  • 94
    • 0033135729 scopus 로고    scopus 로고
    • The caenorhabditis elegans mel-11 myosin phosphatase regulatory subunit affects tissue contraction in the somatic gonad and the embryonic epidermis and genetically interacts with the Rac signaling pathway
    • Wissman, A., Ingles, J. and Mains, P. (1999). The caenorhabditis elegans mel-11 myosin phosphatase regulatory subunit affects tissue contraction in the somatic gonad and the embryonic epidermis and genetically interacts with the Rac signaling pathway Dev Biol. 209, 111-127.
    • (1999) Dev Biol. , vol.209 , pp. 111-127
    • Wissman, A.1    Ingles, J.2    Mains, P.3
  • 95
    • 1242317811 scopus 로고    scopus 로고
    • Intermediate filaments are required for C. elegans epidermal elongation
    • Woo W. M., Goncharov, A., Jin, Y. and Chisholm, A. D. (2004). Intermediate filaments are required for C. elegans epidermal elongation. Dev. Biol. 267, 216-229.
    • (2004) Dev. Biol. , vol.267 , pp. 216-229
    • Woo, W.M.1    Goncharov, A.2    Jin, Y.3    Chisholm, A.D.4
  • 96
    • 0023005562 scopus 로고
    • Cranial neural crest cells exhibit directed migration on the pronephric duct pathway: Further evidence for an in vivo adhesion gradient
    • Zackson, S. and Steinberg, M. S. (1986). Cranial neural crest cells exhibit directed migration on the pronephric duct pathway: further evidence for an in vivo adhesion gradient. Dev. Biol. 117, 343-353.
    • (1986) Dev. Biol. , vol.117 , pp. 343-353
    • Zackson, S.1    Steinberg, M.S.2
  • 97
    • 0023521148 scopus 로고
    • Chemotaxis or adhesion gradient? Pronephric duct elongation does not depend on distant sources of guidance information
    • Zackson, S. and Steinberg, M. S. (1987). Chemotaxis or adhesion gradient? Pronephric duct elongation does not depend on distant sources of guidance information. Dev. Biol. 124, 418-422.
    • (1987) Dev. Biol. , vol.124 , pp. 418-422
    • Zackson, S.1    Steinberg, M.S.2
  • 98
    • 0023887431 scopus 로고
    • A molecular marker for cell guidance information in the axolotl embryo
    • Zackson, S. and Steinberg, M. S. (1988). A molecular marker for cell guidance information in the axolotl embryo. Dev. Biol. 127, 435-442.
    • (1988) Dev. Biol. , vol.127 , pp. 435-442
    • Zackson, S.1    Steinberg, M.S.2
  • 99
    • 0024529107 scopus 로고
    • Axolotl pronephric duct cell migration is sensitive to phosphatidylinositol-specific phospholipase C
    • Zackson, S. and Steinberg, M. S. (1989). Axolotl pronephric duct cell migration is sensitive to phosphatidylinositol-specific phospholipase C. Development 105, 1-7.
    • (1989) Development , vol.105 , pp. 1-7
    • Zackson, S.1    Steinberg, M.S.2
  • 100
    • 1642282826 scopus 로고    scopus 로고
    • Patterned gene expression directs bipolar planar polarity in Drosophila
    • Zallen, J. and Wieschaus, E. (2004). Patterned gene expression directs bipolar planar polarity in Drosophila. Dev. Cell 6, 343-355.
    • (2004) Dev. Cell , vol.6 , pp. 343-355
    • Zallen, J.1    Wieschaus, E.2

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.