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王金霓,等                                                                 水产学报, 2025, 49(5): 059607

                    logy[J]. Biochimica et Biophysica Acta (BBA) - Gene Regulat-  sion pattern of Amh and its preliminary functional analysis in
                    ory Mechanisms, 2013, 1829(8): 810-816.         male  sexual  differentiation  in  Pelodiscus  sinensis[J].  SCIEN-
              [12]   Tanaka S S, Toyooka Y, Akasu R, et al. The mouse homolog of  TIA SINICA Vitae, 2016, 46(12): 1423-1433 (in Chinese).
                    Drosophila vasa is required for the development of male germ  [20]   王莉, 孙伟, 储经乾, 等. 中华鳖  SOX9  基因在胚胎期性腺中
                    cells[J]. Genes & Development, 2000, 14(7): 841-853.  的表达模式及在性逆转中的表达变化    [J]. 水产学报, 2014,
              [13]   Dehghani  M,  Lasko  P.  C-terminal  residues  specific  to  Vasa  38(9): 1286-1293.
                    among  DEAD-box  helicases  are  required  for  its  functions  in  Wang  L,  Sun  W,  Chu  J  Q,  et  al.  The  expression  pattern  of
                    piRNA  biogenesis  and  embryonic  patterning[J].  Development  SOX9  gene  during  embryonic  development  and  its  expression
                    Genes and Evolution, 2016, 226(6): 401-412.     changes  in  sex  reversal  in  Pelodiscus  sinensis[J].  Journal  of
              [14]   张飘逸, 李伟, 朱新平, 等. 中华鳖  vasa 基因克隆及在卵母细           fisheries of China, 2014, 38(9): 1286-1293 (in Chinese).
                    胞中的表达分析    [J]. 水生生物学报, 2017, 41(2): 306-313.  [21]   Tokita M, Kuratani S. Normal embryonic stages of the Chinese
                    Zhang P Y, Li W, Zhu X P, et al. Cloning and expression ana-  softshelled turtle Pelodiscus sinensis (Trionychidae)[J]. Zoolo-
                    lysis of vasa in Chinese soft-shell turtle oocytes[J]. Acta Hydro-  gical Science, 2001, 18(5): 705-715.
                    biologica Sinica, 2017, 41(2): 306-313 (in Chinese).  [22]   Livak K J, Schmittgen T D. Analysis of relative gene expres-
              [15]   张飘逸, 李伟, 徐红艳, 等. 中华鳖  VASA  基因在雄性生殖细           sion  data  using  real-time  quantitative  PCR  and  the   2 −∆∆C t
                    胞中的表达分析    [C] //中国水产学会. 2015  年中国水产学会          method[J]. Methods, 2001, 25(4): 402-408.
                    学术年会论文摘要集. 杭州: 中国水产学会, 2015: 1.           [23]   DeFalco  T,  Capel  B.  Gonad  morphogenesis  in  vertebrates:
                    Zhang  P  Y,  Li  W,  Xu  H  Y,  et  al.  VASA  expression  in  male  divergent means to a convergent end[J]. Annual Review of Cell
                    germ cell during spermatogenesis in Chinese soft-shelled turtle  and Developmental Biology, 2009, 25: 457-482.
                    (Pelodicus sinensis)[C]// China Fisheries Association. Abstracts  [24]   Komiya T, Tanigawa Y. Cloning of a gene of the DEAD box
                    of  the  2015  Annual  Academic  Conference  of  China  Fisheries  protein family which is specifically expressed in germ cells in
                    Association,  5  November  2015.  Hangzhou,  2015:  1  (in  rats[J].  Biochemical and  Biophysical  Research   Communica-
                    Chinese).                                       tions, 1995, 207(1): 405-410.
              [16]   Kawagoshi T, Uno Y, Matsubara K, et al. The ZW micro-sex  [25]   Knaut H, Pelegri F, Bohmann K, et al. Zebrafish vasa RNA but
                    chromosomes of the Chinese soft-shelled turtle (Pelodiscus sin-  not its protein is a component of the germ plasm and segregates
                    ensis,  Trionychidae,  Testudines)  have  the  same  origin  as  asymmetrically before germline specification[J]. The Journal of
                    chicken chromosome 15[J]. Cytogenetic and Genome Research,  Cell Biology, 2000, 149(4): 875-888.
                    2009, 125(2): 125-131.                    [26]   Tsunekawa  N,  Naito  M,  Sakai  Y,  et  al.  Isolation  of  chicken
              [17]   包海声, 蔡晗, 韩伟, 等. Cyp19a1  基因在中华鳖早期卵巢分化          vasa  homolog  gene  and  tracing  the  origin  of  primordial  germ
                    中的功能研究   [J]. 中国科学: 生命科学, 2017, 47(6): 640-649.  cells[J]. Development, 2000, 127(12): 2741-2750.
                    Bao H S, Cai H, Han W, et al. Functional characterization of  [27]   Komiya T, Itoh K, Ikenishi K, et al. Isolation and characteriza-
                    Cyp19a1  in  female  sexual  differentiation  in  Pelodiscus  tion of a novel gene of the DEAD box protein family which is
                    sinensis[J]. Science China-Life Sciences, 2017, 47(6): 640-649  specifically  expressed  in  germ  cells  of  Xenopus  laevis[J].
                    (in Chinese).                                   Developmental Biology, 1994, 162(2): 354-363.
              [18]   孙伟, 史思瑞, 蔡晗, 等. 中华鳖  Dmrt1  基因在雄性性别分化    [28]   Lei L, Chen C, Zhu J X, et al. Transcriptome analysis reveals
                    中的功能分析   [J]. 中国科学: 生命科学, 2015, 45(9): 881-889.  key  genes  and  pathways  related  to  sex  differentiation  in  the
                    Sun W, Shi S R, Cai H, et al. Function analysis of Dmrt1 in  Chinese  soft-shelled  turtle  (Pelodiscus  sinensis)[J].  Comparat-
                    male  sexual  differentiation  in  Pelodiscus  sinensis[J].  SCIEN-  ive Biochemistry and Physiology Part D: Genomics and Proteo-
                    TIA SINICA Vitae, 2015, 45(9): 881-889 (in Chinese).  mics, 2022, 42: 100986.
              [19]   蔡晗, 孙伟, 刘豪彬, 等. 中华鳖  Amh  基因的克隆、表达及在     [29]   Chen  K  L,  Xu  J  F,  Ban  W  Z,  et  al.  The divergent  and   con-
                    雄性分化中的功能初探       [J]. 中国科学: 生命科学, 2016,         served expression profile of turtle Nanog gene comparing with
                    46(12): 1423-1433.                              fish and mammals[J]. Biology, 2022, 11(9): 1342.
                    Cai H, Sun W, Liu H B, et al. Molecular cloning and expres-  [30]   Youngren K K, Coveney D, Peng X N, et al. The Ter mutation

              https://www.china-fishery.cn                           中国水产学会主办    sponsored by China Society of Fisheries
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