1 卜范峰, 鲁艳芹, 韩金祥. miRNA研究进展[A]. 山东省药学会2006年生化与生物技术药物学会研讨会论文集[C]. 2006.2 王星果, 郁建锋, 顾志良. microRNA在肌肉发育中的功能研究进展[J]. 生命科学, 2010, 22(2): 133~138.3 付绍印, 赵德超, 赵宏丽, 等. 利用种子序列检测山羊皮肤中microRNA靶基因的分子方法的建立[J]. 遗传, 2012, 34(7): 919~926.4 李志娟, 高士争, 赵素梅. microRNA的生物学功能及其在动物肌肉和脂肪组织中表达的研究进展[J]. 中国畜牧兽医, 2012, 39(7): 102~107.5 吴丹, 胡兰. miRNA及其研究进展[J]. 中国畜牧兽医, 2006, 33(1): 40~42.6 宋宝, 宋现让, 刘杰, 等. miRNAs及其靶基因的识别[J]. 基础医学与临床, 2007,127(9): 1063~1065.7 赵晓, 莫德林, 张悦, 等. 猪的骨骼肌生长发育研究进展[J]. 生命科学, 2011, 23(1): 37~44.8 盛熙晖, 杜立新. microRNA及其在人和动物上的研究进展[J]. 遗传, 2007, 29(6): 651~658.9 Allen R E, Merkel R A, Young R B. Cellular aspects of muscle growth: Myogenic cell proliferation[J]. J Anim Sci, 1979, 49(1): 115~127.10 Aravin A A, Lagos-Quintana M, Yalcin A, et al.The small RNA profile during Drosophila melanogaster development[J]. Developmental Cell, 2003, 5(2): 337~350.11 Bartel D P. microRNAs: Genomics, biogenesis, mechanism, and function[J]. Cell, 2004, 116: 281~297.12 Braun T, Rudnicki, M A, Arnold H H, et al.Targeted inactivation of the muscle regulatory gene Myf-5 results in abnormal rib development and perinatal death[J]. Cell, 1992, 71(3): 369~382.13 Bryson-Richardson R J, Currie P D. The genetics of vertebrate myogenesis[J]. Nat Rev Genet, 2008, 9(8): 632~646.14 Buckingham M, Vincent S D.Distinct and dynamic myogenic populations in the vertebrate embryo[J]. Curr Opin Genet Dev, 2009, 19(5): 444~453.15 Chen J F, Mandel E M, Thomson J M, et al.The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation[J]. Nature Genetics, 2006, 38(2): 228~233.16 Hasty P, Bradley A, Morris J H, et al. Muscle deficiency and neonatal death in mice with a targeted mutation in the myogenin gene[J]. Nature, 1993, 364(6437): 501~506.17 Kloosterman W P, Plasterk R H. The diverse functions of microRNAs in animal development and disease[J]. Developmental Cell, 2006, 11(4): 441~450.18 McDaneld T G, Smith T P L, Doumit M E, et al. microRNA transcriptome profiles during swine skeletal muscle development[J]. BMC Genomics, 2009, 10: 77.19 Molkentin J D, Olson E N. Combinatorial control of muscle development by basic helix-loop-helix and MADS-box transcription factors[J]. Proceedings of the National Academy of Sciences of the United States of America, 1996, 93(18): 9366~9373.20 Nabeshima Y, Hanaoka K, Hayasaka M, et al. Myogenin gene disruption results in perinatal lethality because of severe muscle defect[J]. Nature, 1993, 364(6437): 532~535.21 O’Rourke J R, Georges S A, Seay H R, et al. Essential role for Dicer during skeletal muscle development[J]. Dev Biol, 2007, 311(2): 359~368.22 Oshima H, Rochat A, Kedzia C, et al. Morphogenesis and renewal of hair follicles from adult multipotent stem cells[J]. Cell, 2001, 104: 233~245.23 Rajewsky N. microRNA target predictions in animals[J]. Nature Genetics Supplement, 2006, 38: 8~13.24 Rudnicki M A, Braun T, Hinuma S, et al. Inactivation of MyoD in mice leads to up-regulation of the myogenic HLH gene Myf-5 and results in apparently normal muscle development[J]. Cell, 1992, 71(3): 383~390.25 Rudnicki M A, Schnegelsberg P N, Stead R H, et al. MyoD or Myf-5 is required for the formation of skeletal muscle[J]. Cell, 1993, 75(7): 1351~1319.26 Sun Q, Zhang Y, Yang G, et al.Transforming growth factor-β regulated miR-24 promotes skeletal muscle differentiation[J].Nucleic Acids Res, 2008, 36(5): 2690~2699.27 Tang Z, Li Y, Wan P, et al. LongSAGE analysis of skeletal muscle at three prenatal stages in Tongcheng and Landrace pigs[J].Genome Biol, 2007, 8(6): 115.28 Te Pas M F, De Wit A A, Priem J, et al. Transcriptome expression profiles in prenatal pigs in relation to myogenesis[J].J Muscle Res Cell Motil, 2005, 26(2~3): 157~165. |