[1]
Aboobakery A, Blaxter M. 2003. Hox gene evolution
in nematodes: novelty conserved. Current Opinion in Genetics &
Development, 13:593–598. 文件编号: 14043.
[2]
Ahmad SM, Baker BS. 2002. Sex-Specific Deployment
of FGF Signaling in Drosophila Recruits Mesodermal
Cells into the Male Genital Imaginal
Disc . Cell, 109:651–661. 文件编号: 14067.
[3]
Antonchuk J, Sauvageau G, Humphries RK. 2002. HOXB4-Induced
Expansion of Adult Hematopoietic Stem
Cells Ex Vivo. Cell, 109:39–45. 文件编号: 14046.
[4]
Arbeitman MN, et al. 2002. Gene Expression During the Life Cycle of Drosophila
melanogaster .
SCIENCE, 297:2270-2275. 文件编号: 14130.
[5]
Arnold H, Della-Fera MA, Baile CA. 2001. Review
of myostatin history, physiology and
applications. Int Arch Biosci, 2001:1014-1022.
文件编号: 14006.
[6]
Arnosti DN. 2002. Design and function of transcriptional switches in Drosophila.
Insect Biochemistry and Molecular Biology, 32(10):1257-73. 文件编号: 14115.
[7]
Aubry L ,Firtel R. 1999.
Integration Of Signaling Networks That
Regulate Dictyostelium Differentiation. Annu.
Rev. Cell Dev. Biol, 15:469–517. 文件编号: 14047.
[8]
Autran D Huanca-Mamani W, Vielle-Calzada
JP. 2005. Genomic imprinting in plants: the epigenetic version
of an Oedipus complex. Current Opinion in Plant Biology, 8(1):19-25.
文件编号: 14078.
[9]
Averof M. 2002. Arthropod Hox genes: insights on
the evolutionary forces that shape gene functions. Current Opinion
in Genetics & Development, 12:386–392. 文件编号: 14019.
[10]
Bargmann C, Hodgkin J. 2002. Accolade for elegans.
Cell, 111:759–762. 文件编号: 14018.
[11]
Benkova E, et al. 2003. Local, Efflux-Dependent Auxin
Gradients as a Common Module for Plant Organ Formation. Cell,
115:591–602. 文件编号: 14050.
[12]
Ben-Porath I, Cedar
H. 2000. Imprinting: focusing on the center .
Current Opinion in Genetics & Development, 10(5):550-554.
文件编号: 14088.
[13]
Billker O, et al. 2004. Calcium and a Calcium-Dependent Protein Kinase Regulate Gamete Formation and Mosquito Transmission
in a Malaria Parasite. Cell, 117:503–514. 文件编号: 14022.
[14]
Brannan CI, Bartolomei
MS. 1999. Mechanisms of genomic imprinting. Current Opinion in
Genetics & Development, 9(2):164-170. 文件编号: 14091.
[15]
Brent AE, Schweitzer R, Tabin CJ. 2003. A Somitic Compartment
of Tendon Progenitors. Cell, 113:235–248. 文件编号: 14017.
[16]
Burns CE, Zon LI. 2002.
Portrait of a stem cell. Developmental Cell, 3:612-613. 文件编号: 14058.
[17]
Cassidy R, Frisén
J . 2002. Embryonic Stem Cells: Taming
the Fountain of
Youth. Current Biology, 12:R705–R706. 文件编号: 14102.
[18]
Chargé SBP, Rudnicki
MA. 2004. Cellular and Molecular Regulation of Muscle Regeneration.
Physiol Rev, 84:209-238. 文件编号: 14155.
[19]
Charron F. 2003. The Morphogen Sonic Hedgehog Is
an Axonal Chemoattractant that Collaborates
with Netrin-1 in Midline Axon Guidance. Cell, 113:11–23.
文件编号: 14040.
[20]
Chen Y, Schier AF.
2002. Lefty Proteins Are Long-Range Inhibitors of Squint-Mediated
Nodal Signaling . Current Biology, 12(24):2124-2128. 文件编号: 14095.
[21]
Cho NK, et al. 2002. Developmental Control of Blood Cell Migration by
the Drosophila VEGF Pathway. Cell, 108:865–876. 文件编号: 14029.
[22]
Church VL, Francis-West P. 2002. Wnt
signalling during limb development.
Int. J. Dev. Biol, 46:927-936. 文件编号: 14048.
[23]
Cohn MJ, Bright PE.
1999. Molecular control of vertebrate limb development, evolution
and congenital malformations. Cell Tissue Res,
296:3–17. 文件编号: 14126.
[24]
Crittenden1 SL, et al. 2003. Regulation of the
mitosis/meiosis decision in the Caenorhabditis
elegans germline . Phil. Trans. R. Soc. Lond. B,
358:1359–1362. 文件编号: 14128.
[25]
Davis
GK, Patel NH.
2002. SHORT, LONG, AND BEYOND: Molecular and Embryological Approaches
to Insect Segmentation. Annu. Rev. Entomol,
47:669–99. 文件编号: 14132.
[26]
de Crombrugghe B, Lefebvre V, Nakashima K.
2001. Regulatory mechanisms in the pathways of cartilage and bone
formation. Current Opinion in Cell Biology, 13:721–727. 文件编号: 14105.
[27]
Deans RJ, Moseley AB. 2000. Mesenchymal stem cells: Biology and potential clinical uses.
Experimental Hematology, 28(8):875-884. 文件编号: 14003.
[28]
Dekel D. 2005. Cellular, biochemical and molecular mechanisms regulating
oocyte maturation. Molecular and Cellular Endocrinology, 234:19-25.
文件编号: 14150.
[29]
Delaval K, Feil R. 2004. Epigenetic regulation of
mammalian genomic imprinting. Current Opinion in Genetics &
Development, 14(2):188-195. 文件编号: 14081.
[30]
Doe CQ, Bowerman B.
2001. Asymmetric cell division: fly neuroblast
meets worm zygote. Current Opinion in Cell Biology, 13:68–75.
文件编号: 14152.
[31]
Dong ZP, Sinanan A,
Parkinson, Eric Parmantier D, et al.
1999. Schwann Cell Development in Embryonic
Mouse Nerves. Journal of Neuroscience Research, 56:334–348. 文件编号: 14066.
[32]
Donovan PJ, de Migue MP. 2003. Turning germ cells into stem cells. Current
Opinion in Genetics & Development, 13:463–471. 文件编号: 14100.
[33]
Draper JS, Fox V. 2003. Human Embryonic Stem
Cells: Multilineage Differentiation and Mechanisms of Self-Renewal.
Archives of Medical Research, 34:558–564. 文件编号: 14101.
[34]
Duprez D. 2002. Signals regulating muscle formation in the limb during embryonic
development. Int. J. Dev. Biol, 46:915-925.
文件编号: 14068.
[35]
Edlund T, Jessell TM. 1999. Progression from Extrinsic
to Intrinsic Review Signaling in Cell Fate Specification:A View from the Nervous System. Cell, 96:211–224. 文件编号: 14059.
[36]
Edwards GM, et al.. 1998. Regulation of Mammary Differentiation by Extracellular Matrix Involves Protein-tyrosine Phosphatases. The Journal of Biological Chemistry, 16(17):9495–9500.
文件编号: 14007.
[37]
Ephrussi A, St Johnston D. 2004. Seeing Is Believing: The Bicoid Morphogen Gradient Matures . Cell, 116:143–152. 文件编号: 14113.
[38]
Ephrussi1 A, St Johnston D. 2004. Seeing Is Believing: The Bicoid Morphogen Gradient Matures . Cell, 116:143–152. 文件编号: 14133.
[39]
Esplin MS, Fausett
MB, Fraser A, et
al. 2001. Paternal and maternal components of the predisposition
to preeclampsia. The New England Journal
of Medicine, 344:867-872. 文件编号: 14157.
[40]
Evans JP, Florman HM.
2002. The state of the union: the cell biology of fertilization.
Nat Cell Biol, 4:s57-s63. 文件编号: 14010.
[41]
Evens MJ, Kaufman MH. 1981. Establishment in
culture of pluripotential cells from
mouse embryos. Nature, 292(9):154-156. 文件编号: 14016.
[42]
Falls JG, Pulford DJ,
Wylie AA, et al. 1999. Genomic Imprinting: Implications for Human
Disease. Am J Pathol, 154:635–647. 文件编号: 14144.
[43]
Feil R, Khosla S. 1999. Genomic imprinting in
mammals: an interplay between chromatin and DNA methylation?. Trends in Genetics, 15(11):431-435. 文件编号: 14090.
[44]
Ferguson-Smith A, Lin SP, Tsai CE, et al. 2003.
Genomic imprinting—insights from studies in mice . Seminars in Cell & Developmental
Biology, 14(1):43-49. 文件编号: 14084.
[45]
French V . 2001. Insect
segmentation: Genes, stripes and segments in ‘Hoppers’. Current
Biology, 11:R910–R913. 文件编号: 14118.
[46]
Gamer LW, Nove J, Rosen
V. 2003. Return of the Chalones. Developmental
Cell, 4:143–151. 文件编号: 14072.
[47]
Garcia-Garcia MJ, Anderson KV. 2003. Essential
Role of Glycosaminoglycansin Fgf Signaling during Mouse Gastrulation.
Cell, 114:727–737. 文件编号: 14035.
[48]
Gehring WJ. 2004. Historical perspective on the development and evolution
of eyes and photoreceptors. Int. J. Dev. Biol,
48: 707-717. 文件编号: 14166.
[49]
Go MJ, Eastman DS, Artavanis-Tsakonas S. 1998. Cell proliferation control by
Notch signaling in Drosophila development. Development, 125:2031-2040.
文件编号: 14025.
[50]
Greenwood MJ, Lansdorp PM. 2003. Telomeres, telomerase, and hematopoietic stem cell biology. Archives of Medical Research,
34(6):489-495. 文件编号: 14002.
[51]
Groves Aak, Bronner-Fraser m. 2000. Competence,
specification and commitment in otic
placode induction. Development, 127:3489-3499. 文件编号: 14027.
[52]
Gupta SK, Jethanandani P, Afzalpurkar
A, et al. 1997. Prospects of zona pellucida
glycoproteins as immunogens
for contraceptive vaccine . Human Reproduction
Update, 3(4):311–324. 文件编号: 14060.
[53]
Halet G. 2004. PKC signaling at fertilization in mammalian eggs. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research,, 1742:185-189. 文件编号: 14151.
[54]
Hamatani T, Sasaki H, Ishihara K, et al. 2001. Epigenetic mark sequence of
the H19 gene in human sperm. Biochimica
et Biophysica Acta (BBA) - Gene Structure
and Expression, 1518(1-2):137-144. 文件编号: 14142.
[55]
Hanks MC, et al. 1998. Drosophila engrailedcan
substitute for mouse Engrailed1 function in midhindbrain,but
not limb development. Development, 125:4521-4530. 文件编号: 14119.
[56]
Hebrok M, Kim SK, St-Jacques B, et al. 2000. Regulation of pancreas development
by hedgehog signaling. Development, 127:4905-4913. 文件编号: 14015.
[57]
Heissig B, et al. 2002. Recruitment of Stem and Progenitor Cells from the
Bone Marrow Niche Requires MMP-9 Mediated Release of Kit-Ligand . Cell, 109:625–637.
文件编号: 14063.
[58]
Hernández-Hoyos G, Alberola-Ila J. 2003. A Notch so simple
influence on T cell development .
Seminars in Cell & Developmental Biology, 14(2):121-125. 文件编号: 14077.
[59]
Hoch RV, Soriano P. 2003. Roles of PDGF in animal
development . Development, 130:4769-4784. 文件编号: 14065.
[60]
Houck JC, Hennings
H. 1973. CHALONES: Specific Endogenous Mitotic Inhibitors. FEBS
Letters, 32(1):1-8. 文件编号: 14075.
[61]
Huntly BJP, Gilliland DG. 2004. Blasts from the past: New lessons in stem
cell biology from chronic myelogenous
leukemia. Cancer Cell, 6(3):199-201. 文件编号: 14001.
[62]
Ingham PW, McMahon AP. 2001. Hedgehog signaling
in animal development: paradigms and principles. Genes & Development,
15:3059–3087. 文件编号: 14012.
[63]
Isles AR, Holland AJ. 2005. Imprinted genes and mother–offspring
interactions . Early Human Development,
81(1):73-7. 文件编号: 14079.
[64]
Jakoby M, Schnittger A. 2004. Cell cycle and differentiation.
Current Opinion in Plant Biology, 7:661–669. 文件编号: 14024.
[65]
Jan YN, Jan LY. 2001. Asymmetric cell division
in the Drosophila nervous system. Nat Rev Neurosci,
2:772-779. 文件编号: 14154.
[66]
Jiang YH, Tsai TF Bressler J, et al. 1998. Imprinting
in Angelman and Prader-Willi
syndromes. Current Opinion in Genetics & Development,, 8(3):334-342.
文件编号: 14140.
[67]
Jones PL. 2003.
Homeobox Genes in Pulmonary Vascular
Development and Disease. Trends Cardiovasc
Med, 13:336–345. 文件编号: 14041.
[68]
Jovine L, Qi HY, Williams Z, et al. 2002. The ZP
domain is a conserved module for polymerization of extracellular
proteins. NATURE CELL BIOLOGY, 4:457-461. 文件编号: 14053.
[69]
Kadyk LC, Kimble J. 1998. Genetic regulation of entry into meiosis in Caenorhabditis elegans . Development, 125:1803-1813. 文件编号: 14137.
[70]
Keller R, Davidson LA, Shook DR, et al. 2003.
How we are shaped: The biomechanics of gastrulation.
Differentiation, 71:171–205. 文件编号: 14159.
[71]
Keller R. 2005. Cell migration during gastrulation.
Current Opinion in Cell Biology, 17:533–541. 文件编号: 14164.
[72]
Kohda T, Lee J, Inoue K, et al. 2002. Epigenetic regulation in mammalian
development and dysfunction: the effects of somatic cloning and
genomic imprinting. International Congress Series, 1246:151-159.
文件编号: 14080.
[73]
Kono T, Obata Y, Wu Q, et al. 2004. Birth of parthenogenetic
mice that can develop to adulthood. NATURE, 428:860-864. 文件编号: 14145.
[74]
Kramera J, et al. 2000. Embryonic stem cell-derived chondrogenic
differentiation in vitro:activation
by BMP-2 and BMP-4 . Mechanisms of Development, 92:193-205. 文件编号: 14107.
[75]
Kramps T, et al. 2002. Wnt/Wingless Signaling Requires
BCL9/Legless-Mediated Recruitment of Pygopus
to the Nuclear β-Catenin-TCF Complex.
Cell, 109:47–60. 文件编号: 14042.
[76]
Kroll KL, Amaya E.
1996. Transgenic Xenopusembryos from
sperm nuclear transplantations reveal FGF signaling requirements
during gastrulation . Development,
122:3173-3183. 文件编号: 14127.
[77]
Kunkel JG. 1991. Models of pattern formation
in insect oocytes. In Vivo, 5(5):443-56.
文件编号: 14120.
[78]
Labouesse M, Mango SE. 1999. Patterning the C. elegans
embryo: moving beyond the cell lineage. Trends Genet, 15(8):307-13.
文件编号: 14138.
[79]
Lagasse E, et al. 2001. Toward Regenerative Medicine. Immunity, 14:425–436.
文件编号: 14104.
[80]
Lawrence PA, Sampedro J. 1993. Drosophila segmentation:
after the first three hours. Development, 119:971-976. 文件编号: 14116.
[81]
Lee JT. 2003. Molecular Links between X-Inactivation
and Autosomal Imprinting: X-Inactivation
as a Driving Force for the Evolution of Imprinting? . Current Biology, 13(6):R242-R254. 文件编号: 14083.
[82]
Lee SJ, McPherron AC.
1999. Myostatin and the control of skeletal
muscle mass. Current Opinion in Genetics & Development, 9:604–607.
文件编号: 14071.
[83]
Leevers SJ, McNeill H.
2005. Controlling the size of organs and
organisms. Current Opinion in Cell Biology, 17:604–609. 文件编号: 14165.
[84]
Levin M. 2001. Isolation and communication: A
review of gap-junctional communication
in embryonic patterning. Membrane Biology, 185:177-192. 文件编号: 14125.
[85]
Lin J, Arnold HM, Della-Fera MA, et al. 2002. Myostatin
Knockout in Mice Increases Myogenesis
and Decreases Adipogenesis. Biochemical and Biophysical Research Communications,
291(3):701-706. 文件编号: 14098.
[86]
Lodish H, et al. 1999. Chapter 14: Gene Control in Development. Molecular
Cell Biology 4th ed. W. H. Freeman and Company, 537-577. 文件编号: 14026.
[87]
Lohmann I, McGinnis W. 2002. Hox Genes: It’s All
a Matter of Context. Current Biology, 12:R514–R516. 文件编号: 14045.
[88]
Lu QX, Shur BD. 1997.
Sperm from b1,4-galactosyltransferase-null
mice are refractory to ZP3-induced acrosome
reactions and penetrate the zona pellucida
poorly. Development, 124:4121-4131. 文件编号: 14064.
[89]
Luciano Zamboni L, Mishell Jr DR,
Bell JH, et al. 1966.
Fine structure of the human ovum in the pronuclear stage. The
Journal Of Cell Biology, 30:579-600. 文件编号: 14156.
[90]
Lyle R. 1997. Gametic imprinting in development and disease. Journal of
Endocrinology, 155:1–12. 文件编号: 14124.
[91]
Lynch J, Desplan C.
2003. Evolution of Development: Beyond Bicoid.
Current Biology, 13:R557–R559. 文件编号: 14036.
[92]
Martinez P, Amemiya CH. 2002. Genomics of the HOX gene
cluster. Comparative Biochemistry and Physiology Part B, 133:571–580.
文件编号: 14139.
[93]
Mathis L, Nicolas JF. 2002. Cellular patterning
of the vertebrate embryo. Trends in Genetics, 18(1):627-635. 文件编号: 14005.
[94]
Matzuk MM, Lamb DJ. 2002. Genetic dissection
of mammalian fertility pathways. Nature Cell Biology & Nature
Medicine, 4Suppl:s41-9. 文件编号: 14039.
[95]
Mayhall EA, Paffett-Lugassy N. Zon, L. 2004. The clinical potential of stem cells. Current
Opinion in Cell Biology, 16:713–720. 文件编号: 14062.
[96]
McGrath J, Solter D.
1984. Completion of mouse embryogenesis requires both the maternal
and paternal genomes. Cell, 37(1):179-83. 文件编号: 14121.
[97]
Miller DJ. 1999. A sperm's perspective of fertilization.
Proceedings of the American Society of Animal Science, 1999:1-12.
文件编号: 14009.
[98]
Morrison SJ, Shah, NM, Anderson DJ. 2002. Regulatory
Mechanisms in Stem Cell Biology. Cell, 88(3):287-298. 文件编号: 14004.
[99]
Muller B, Hartmann B Pyrowolakis G, et al. 2003. Conversion of an Extracellular Dpp/BMP Morphogen Gradient into an Inverse Transcriptional Gradient.
Cell, 13:221–233. 文件编号: 14028.
[100]
Müller WA. 1999. Differentiation: A Central Topic in Developmental and Cell
Biology. Naturwissenschaften, 86:457-467.
文件编号: 14146.
[101]
Niwa H, Masui S, Chambers I, et al. 2002. Phenotypic
Complementation Establishes Requirements for Specific POU Domain
and Generic Transactivation Function of Oct-3/4 in Embryonic Stem Cells. Molecular and Cellular
Biology, 22(5):1526-1536. 文件编号: 14014.
[102]
Nixon B, Asquith KL, Aitken RJ. 2005. The role of molecular chaperones in mouse
sperm–egg interactions. Molecular and Cellular Endocrinology,
240:1-10. 文件编号: 14149.
[103]
O’Dell DS. 1972. CHALONES: A report on the International
Chalone Conference held at
Brook Lodge, Augusta, Michigan, during 5-7 June, 1972.
FEBS Letters, 26(1):1-5. 文件编号: 14074.
[104]
Packard M, et al. 2002. The Drosophila Wnt,
Wingless, Provides an Essential Signal for Pre- and Postsynaptic
Differentiation . Cell, 111:319–330.
文件编号: 14056.
[105]
Park FD, Priess JR.
2003. Establishment of POP-1 asymmetry in early C. elegansembryos . Development,
130:3547-3556. 文件编号: 14135.
[106]
Patt LM, Hoock JC. 1980. The Incredible Shrinking
Chalone. FEBS Letters, 120(2):163-170.
文件编号: 14073.
[107]
Pavlopoulos A, Averof M. 2002. Developmental Evolution:
Hox Proteins Ring the Changes. Current
Biology, 12:R291–R293. 文件编号: 14030.
[108]
Peel A, Akam M. 2003.
Evolution of Segmentation: Rolling Back the Clock. Current Biology,
13:R708–R710. 文件编号: 14037.
[109]
Pick L. 1998. Segmentation: painting stripes
from flies to vertebrates. Developmental Genetics, 23:1–10. 文件编号: 14117.
[110]
Pirrotta V. 2002. Silence in the Germ. Cell, 110:661–664. 文件编号: 14069.
[111]
Powers TP, Amemiya CT. 2004.
Evolutionary Plasticity of Vertebrate Hox
Genes . Current Genomics, 5:459-472. 文件编号: 14106.
[112]
Primakoff P, Myles
DG. 2002. Penetration, Adhesion, and Fusion in Mammalian Sperm-Egg
Interaction. Science, 296:2183-2185. 文件编号: 14161.
[113]
Proft M, Struhl K. 2004. MAP Kinase-Mediated Stress Relief that Precedes and Regulates
the Timing of Transcriptional Induction. Cell, 118:351–361. 文件编号: 14052.
[114]
Pulkkinen MA, et al. 2003. The IIIb isoform of fibroblast growth factor receptor 2 is required
for proper growth and branching of pancreatic ductal
epithelium but not for differentiation of exocrine or endocrine
cells. Mechanisms of Development, 120:167–175. 文件编号: 14055.
[115]
Qiao JZ, et al. 1999. FGF-7 modulates ureteric
bud growth and nephron number in the
developing kidney. Development, 126:547-554. 文件编号: 14038.
[116]
Raff MC, Durand B, Gao FB. 1998. Cell number control
and timing in animal development: the oligodendrocyte
cell lineage. Int. J. Dev. Biol, 42:263-267.
文件编号: 14011.
[117]
Raff MC, Durand B, Gao FB. 1998. Cell number control
and timing in animal development: the oligodendrocyte
cell lineage. Int. J. Dev. Biol, 42:263-267.
文件编号: 14163.
[118]
Rankin T, Talbot P, Lee E, et al. 1999. Abnormal
zonae pellucidae
in mice lacking ZP1 result in early embryonic loss. Development,
126:3847-3855. 文件编号: 14033.
[119]
Rao M. 2004. Conserved and divergent paths that regulate self-renewal
in mouse and human embryonic stem cells .
Developmental Biology, 275:269-286. 文件编号: 14099.
[120]
Recillas-Targa F. 2002. DNA Methylation, Chromatin Boundaries,
and Mechanisms of Genomic Imprinting .
Archives of Medical Research, 33(5):428-438. 文件编号: 14085.
[121]
Reik W, Allen ND. 1994. Genomic Imprinting: Imprinting with and without
methylation. Current Biology, 4(2):145-147. 文件编号: 14093.
[122]
Reik W, Walter J. 1998. Imprinting mechanisms in mammals .
Current Opinion in Genetics & Development, 8(2):154-164. 文件编号: 14092.
[123]
Reik W, Walter J. 1998.
Imprinting mechanisms in mammals. Current Opinion in Genetics
& Development, 8(2):154-164. 文件编号: 14141.
[124]
Rodda SJ, Kavanagh SJ, Rathjen
J, et al. 2002. Embryonic stem cell differentiation and the analysis
of mammalian development. Int. J. Dev. Biol,
46:449-458. 文件编号: 14158.
[125]
Salazar-Ciudad I, Jernvall1 J, Newman SA. 2003.
Mechanisms of pattern formation in development and evolution.
Development, 130:2027-2037. 文件编号: 14013.
[126]
Schaefer M, Knoblich
JA. 2001. Protein Localization during Asymmetric Cell Division.
Experimental Cell Research, 271:66–74. 文件编号: 14153.
[127]
Schneider VA, Mercola M. 2001. Wnt
antagonism initiates cardiogenesisin
Xenopus laevis. Genes & Development,
15:304–315. 文件编号: 14049.
[128]
Scott RJ, Spielman
M. 2004. Epigenetics: Imprinting in
Plants and Mammals – the Same but Different? . Current Biology, 14:R201-R203. 文件编号: 14082.
[129]
Seaver EC. 2003. Segmentation: mono- or polyphyletic? .
Int. J. Dev. Biol, 47:583-595. 文件编号: 14136.
[130]
Sheth1 B, Fesenko
I, Collins JE et al.
1997. Tight junction assembly during mouse blastocyst
formation is regulated by late expression of ZO-1 α+ isoform.
Development, 124:2027-2037. 文件编号: 14008.
[131]
Shook D, Keller R. 2003. Mechanisms, mechanics
and function of epithelial–mesenchymal
transitions in early development .
Mechanisms of Development, 120:1351-1383. 文件编号: 14148.
[132]
Shvartsman SY, et al. 2001. Spatial Range
of Autocrine
Signaling: Modeling and Computational Analysis. Biophysical Journal,
81(4):1854–1867. 文件编号: 14070.
[133]
Sleutels F, Barlow DP, Lyle R. 2000. The uniqueness of the imprinting mechanism.
Current Opinion in Genetics & Development, 10(2):229-233.
文件编号: 14089.
[134]
Solari F, Bateman A, Ahringer J. 1999. The Caenorhabditis elegans genes egl-27and
egr-1are similar to MTA1, a member of a chromatin regulatory complex,
and are redundantly required for embryonic patterning. Development,
126:2483-2494. 文件编号: 14129.
[135]
Spence HG, Clark, AG, Feldman MW. 1999. Genetic
conflicts and the evolutionary rigin
of genomic imprinting . TREE , 14(5)197:201.
文件编号: 14143.
[136]
Spielman M, Vinkenoog R, Dickinson HG, et al. 2001. The epigenetic basis of
gender in flowering plants and mammals. Trends in Genetics, 17(12):705-701.
文件编号: 14087.
[137]
Stathopoulos A, et al. 2002. Whole-Genome Analysis
of Dorsal-Ventral Patterning in the Drosophila Embryo. Cell, 111:687–701.
文件编号: 14051.
[138]
Stevens LM, Beuchle
D, Jurcsak J, et al. 2003. The Drosophila
Embryonic Patterning Determinant Torsolike
Is a Component of the Eggshell
. Current Biology, 13:1058–1063. 文件编号: 14131.
[139]
Strachan T, Read A. 2003. Chapter 3: Cells and development. Human Molecular
Genetics - Third Edition, Garland Science/Taylor & Francis
Group, 59-100. 文件编号: 14162.
[140]
Surani MA, Barton SC, Norris ML. 1984. Development of reconstituted mouse
eggs suggests imprinting of the genome during gametogenesis.
Nature, 308(5959):548-50. 文件编号: 14122.
[141]
Sutovsky P, et
al. 2004. Proteasomal Interference Prevents
Zona Pellucida Penetration and Fertilization
in Mammals. Biol Reprod,
71(5):1625-1637. 文件编号: 14061.
[142]
Svendsen CN, Smith AG. 1999. New prospects for human stem-cell therapy in the
nervous system. Trends Neurosci, 22:357–364.
文件编号: 14103.
[143]
Talbot P, Shur and
BD, Myles DJ. 2003. Cell Adhesion and Fertilization: Steps in
Oocyte Transport, Sperm-Zona Pellucida Interactions, and Sperm-Egg Fusion. Biology of Reproduction,
68:1–9. 文件编号: 14023.
[144]
Tam PPL, Kanai-Azumay M, Kanaiz Y. 2003. Early
endoderm development in vertebrates: lineage differentiation and
morphogenetic function. Current Opinion in Genetics & Development,
13:393–400. 文件编号: 14032.
[145]
Tekotte H, Davis I. 2002. Intracellular mRNA localization:motors move messages. TRENDS in Genetics, 18(12)636-642.
文件编号: 14111.
[146]
Temple S. 2003. Embryonic
Stem Cell Self-Renewal, Analyzed. Cell, 115:247–253. 文件编号: 14034.
[147]
Temple S. 2003. Embryonic
Stem Cell Self-Renewal, Analyzed. Cell, 115:247–253. 文件编号: 14134.
[148]
Tiso N, Filippi A Pauls
S, et al. 2002. BMP signalling regulates
anteroposterior endoderm patterning in zebrafish . Mechanisms
of Development, Volume118(1-2):29-37. 文件编号: 14096.
[149]
Trainor PA, Krumlauf R. 2001. Hox
genes, neural crest cells and branchial
arch patterning. Current Opinion in Cell Biology, 13:698–705.
文件编号: 14044.
[150]
Traver D, Zon LI. 2002. Walking the Walk: Migration
Minireview and Other Common Themes in
Blood and Vascular Development. Cell, 108:731–734. 文件编号: 14160.
[151]
Turnpenny PD, Ellard S. 2005. Developmental Genetics.
Emery's elements of medical genetics 12th ed. Edinburgh, Elsevier, 83-103. 文件编号: 14110.
[152]
Uguz G, Iscan Am,Togan i. 2003. Developmental
genetics and physiology of sex differentiation in vertebrates.
Environmental Toxicology and Pharmacology, 14(1-2):9-16. 文件编号: 14076.
[153]
Urbach R, Schnabel R, Technau GM. 2003. The pattern
of neuroblast formation, mitotic domains
and proneural gene expression during early brain development in
Drosophila. Development, 130:3589-3606. 文件编号: 14054.
[154]
Vats A, Bielby RC,
Tolley
NS, et al. 2005.
Stem cells . The Lancet, 366:592-602. 文件编号: 14147.
[155]
Veraksa A, Campo MD, McGinnis W. 2000. Developmental Patterning Genes and
Their Conserved Functions: From Model Organisms to Humans
. Molecular Genetics and Metabolism, 69:85–100. 文件编号: 14108.
[156]
Wagers1 AJ, Weissman IL.
2004. Plasticity of Adult Stem Cells .
Cell, 116:639–648. 文件编号: 14057.
[157]
Wan M, Cao X.
2005. BMP signaling in skeletal development. Biochem
Biophys Res Commun,
328(3):651-7. 文件编号: 14021.
[158]
Weinstein LS. 2001. The role of tissue-specific
imprinting as a source of phenotypic heterogeneity in human disease . Biological Psychiatry, 50(12):927-931. 文件编号: 14086.
[159]
Wichterle H, et al. 2002. Directed Differentiation of Embryonic Stem Cells into
Motor Neurons. Cell, 110:385–397. 文件编号: 14031.
[160]
Wilkie GS, Davis I. 2001. Drosophila wingless and Pair-Rule Transcripts Localize
Apically by Dynein-Mediated Transport of RNA Particles. Cell, 105:209–219.
文件编号: 14114.
[161]
Wilson M, Koopman P.
2002. Matching SOX: partner proteins and co-factors of the SOX
family of transcriptional regulators. Current Opinion in Genetics
& Development, 12:441–446. 文件编号: 14109.
[162]
Wu JL, Saint-Jeannet JP, Klein PS. 2003. Wnt–frizzled
signaling in neural crest formation .
Trends in Neurosciences, 26(1):40-45. 文件编号: 14094.
[163]
Wu XL, Vasisht V, Kosman
D, et al. 2001. Thoracic Patterning by the Drosophila Gap Gene
hunchback. Developmental Biology, 237:79–92. 文件编号: 14112.
[164]
Wutz A, Barlow DP. 1998. Imprinting of the mouse Igf
2r gene depends on an intronic CpG
island . Molecular and Cellular Endocrinology , 140:9–14. 文件编号: 14123.
[165]
Ying QL, et al. 2003. BMP Induction of Id Proteins
Suppresses Differentiation and Sustains Embryonic Stem Cell Self-Renewal
in Collaboration with STAT3. Cell, 115:281–292. 文件编号: 14020.
[166]
Zhu XG, Topouzis S,
Liang LF, et al. 2004. Myostatin
signaling through Smad2, Smad3 and Smad4 is regulated by the inhibitory
Smad7 by a negative feedback mechanism. Cytokine, 26(6):262-272.
文件编号: 14097.