Nagahama Y. Histo-physiological studies on the pituitary gland of someteleost fishes, with special reference to the classification of hormone-producing cells in the adenohypophysis [J]. Mem Fac Fish. Hokkaido University, 1973,21:1-63

Wiebke H, Zeng X C, Zsolt L, et al. Adenohypophysis formation inthe zebrafish and its dependence on Sonic hedgehog [J]. Dev. Biol,2003, 254:36-49

Villaplana M, García Ayala A and Agulleiro B. Immunocytochemicaldemonstration of melanotropic and adrenocorticotropic cells from thegilthead sea bream ( Sparus aurata L., Teleostei) by light and electron microscopy:an ontogenic study [J]. Gen. Comp. Endocrinol,2002,125:410-425

Kimmel C B, Warga R M, Schilling T F. Origin and organization ofthe zebrafish fate map [J]. Development, 1990,108:581-594

Jennifer L S, Michael J F B, Rolf O K. Multiple roles for Hedgehogsignaling in zebrafish pituitary development [J]. Dev. Biol, 2003,254:19-35

Whitlock K E, Westerfield M. The olfactory placodes of the zebrafishform by convergence of cellular fields at the edge of the neural plate[J]. Development, 2000,127:3645-3653

Naito N, De Jesus G, Nakai Y, et al. Ontogeny of pituitary cell-typesand the hypothalamo2hypophysial relationship during early developmentof chum salmon, Oncorhynchus keta [J]. Cell Tissue Res, 1993,272:429-437

Raul L C, María del M S N, María del P M R, et al. Ontogeny ofadenohypophyseal cells in the pituitary of the American shad ( Alosasapidissima) [J]. Gen. Comp. Endocrinol, 2003,132:454-464

Zhang F. A developmental histology on the pituitary of larval sea-horse( Hippocampus japonicus) [J]. Journal of Dalian Fisheries College,1994,9 (1. 2):41-46 [张峰. 日本海马( Hippocampus japonicus)仔鱼期脑垂体发育的组织学研究. 大连水产学院学报, 1994,9(1. 2):41-46]

Lu S Q, Liu Y, Chen S Q. Studies on the origin and development ofthe pituitary gland of the teleost, Ctenopharyngodon idellus [J].Journal of Hunan Agricultural University, 1996, 22 (2): 182-186[鲁双庆, 刘筠, 陈淑群. 草鱼脑垂体的起源和发生的研究.湖南农业大学学报, 1996,22(2):182-186]

Tang YJ. Studies on the origin and development of the pituitary glandand its ultrastucture of the teleost, Silurus asotus [D]. South ChinaNormal University, 2002 [唐以杰. 鲇脑垂体的起源和发生及其超微结构的研究. 华南师范大学, 2002]

Xie B W, Yue XJ, Zhang Y G, et al. Studies on the development ofthe pituitary in silurus meridionlis [J]. Acta Hydrobiologica Sinica,2004, 28 (6):600-606 [谢碧文, 岳兴建, 张耀光, 等. 南方鲇脑垂体发育的研究. 水生生物学报, 2004,28(6):600-606]

Mal A O, Swanson P, Dickho W W. Immunocytochemistry of the developing salmon pituitary gland [J]. Am. Zool,1989,29:94-102

CambréM, Mareels G, Corneillie S, et al. Chronological appearanceof the different hypophyseal hormones in the pituitary of sea bass larvae( Dicentrarchus labrax) during their early development:an immunocytochemical demonstration [J]. Gen. Comp. Endocrinol, 1990,77:408-415

Power D M, Canario A V M. Immunocytochemistry of somatotrophs,gonadotrophs, prolactin and adrenocorticotropin cells in larval seabream ( Sparus auratus) pituitaries [J]. Cell Tissue Res, 1992,269:341-346

Saga T, Oota Y, Nozaki M, et al. Salmonid pituitary gonadotrophs.III. Chronological appearance of GTH I and other adenohypophysialhormones in the pituitary of the developing rainbow trout ( Oncorhynchus mykiss irideus) [J]. Gen. Comp. Endocrinol,1993,92:233-241

Tanaka M, Tanagonan J B, Tagawa M, et al. Development of the pituitary, thyroid and interrenal gland and applications of endocrinologyto the improved rearing of marine fish larvae [J]. Aquaculture,1995,135:111-126

Feist G, Schreck C B. Brain-pituitary-gonadal axis during early development and sexual differentiation in the rainbow trout [J]. Gen.Comp. Endocrinol, 1996,102:394-409

Wingstrand K G. Comparative anatomy and evolution of the hypophysis[A]. In: Harris G W, Donovan B T ( Eds. ), The pituitary gland[M]. London:Butterworth. 1996,1:58-126

Saga T, Yamaki K, Doi Y, et al. Chronological study of the appear2ance of adenohypophysial cells in the ayu ( Plecoglossus altivelis) [J].Anat. Embryol, 1999,200:469-475

Wang L C, Liu X Y, Yan J B. Studies on the pituitary gland of juvenile Mugil Soiuy [J]. Marine Science,1984, (4):27-32 [王良臣,刘修业, 闫家本. 梭鱼幼鱼腺垂体的研究. 海洋科学, 1984,(4):27-32]

Fang Z Q, Tang YJ. Observations on the morphological developmentof pituitary of Silurus asotus with light and laser scanning confocal microscope [J]. Journal of South China Normal University (Natural science edition ), 2004, 3:96-103 [方展强,唐以杰. 鲇脑垂体发生形态学的光镜和激光扫描共聚焦显微观察. 华南师范大学学报(自然科学版), 2004,3:96-103]

Dasen J S, Rosenfeld M G. Signaling mechanisms in pituitary morphogenesis and cell fate determination [J]. Current Opinion in Cell Biology, 1999,11:669-677

Schoots A F M, Ruijter J M, Van Kemenade J A M, et al. Immunoreactive prolactin in the pituitary gland of cypronodont fish at thetime of hatching [J]. Cell Tissue Res, 1983,233:611-618

Volckaert F A M, Mugoyo J WM, Lescroart O, et al. Immunohisto-chemically detected ontogeny of prolactin and growth hormone cells inthe African catfish Clarias gariepinus [J]. Comp. Biochem. Physiol, 1999,122:423-431

Villaplana M, García Ayala A, Chaves Pozo E, et al. Identification ofmammosomatotropes, growth hormone cells, and prolactin cells in thepituitary gland of the gilthead seabream ( Sparus aurata L., Teleostei)using light immunocytochemical methods: an ontogenetic study [J].Anat. Embryo, 2000,202:421-429

Rand-Weaver M, Pottinger T G, Sumpter J P. Plasma somatolactinconcentrations in salmonid fish are elevated by stre ss [J]. J Endocrino,1993,138:509-515

Fu C C, Zhu Z Y. Impacts on growth and osmoreegulation in fishes bygrowth hormone (GH) and GH-transgene [J]. Acta Zoologica Sinica,2000, 46 (4):407-415 [傅萃长, 朱作言. 生长激素及其基因转移对鱼类生长和渗透压的调节作用. 动物学报, 2000, 46(4):407-415]

Cheng Y, Hu ZQ. The reviewof the studies on regulative molecular indevelopment of adenohypophysis [J]. Section Genet Foreign Med Sci,2005,28(1):14, 33-36 [程玉, 胡志强. 腺垂体发育调控分子的研究进展. 国外医学遗传学分册. 2005,28(1):14,33-36]

Chen W, Burgess S, Hopkins N. Analysis of the zebrafish smoothenedmutant reveals conserved and divergent functions of hedgehog activity[J]. Development, 2001,128:2385-2396

Varga ZM, Amores A, Lewis K E, et al. Zebrafish smoothened func2tions in ventral neural tube specification and axon tract formation [J].Development, 2001,128:3497-3509

Karlstrom R O, Talbot WS, Schier A F. Comparative synteny cloningof zebrafish you-too:mutations in the Hedgehog target gli-affect ventral forebrain patterning [J]. Genes Dev, 1999,13:388-393

Karlstrom R O, Trowe T, Klostermann S, et al. Zebrafish mutationsaffecting retinotectal axon path-finding [J]. Development, 1996,123:427-438

Kondoh H, Uchikawa M, Yoda H, et al. Zebrafish mutations in Gli-mediated hedgehog signaling lead to lens transdifferentiation from theAdenohypophysis anlage [J]. Mech. Dev, 2000,96:165-174

Glasgow E, Karavanov A A, Dawid I B. Neuronal and neuroendocrineexpression of lim, a LIM class homeobox gene, is altered in mutantzebrafish with axial signaling defects [J]. Dev. Biol, 1997, 192:405-419

Scully KM, RosenfeldM G. Pituitary development:regulatory codes inmammalian organogenesis [J]. Science, 2002,295:2231-2235

Sampath K, Rubinstein A L, Cheng A M S, et al. Induction of thezebrafish ventral brain and floorplate requires cyclops/ nodal sigalling[J]. Nature, 1998,395:185-189

Rebagliati M R, Toyoma R, Haffter P, et al. Cyclops encodes aNodalrelated factor involved in midline signaling [J]. Proc. Natl.Acad. Sci. USA, 1998,95:9932-9937

Schreibman MP, Holtzman S, Cepriano L. The life cycle of the brain-pituitary-gonadaxis in teleosts [A]. In:Epple A, Scanes C G, Stet2son M H (Eds. ), Progress in Comparative Endocrinology [M]. NewYork:Wiley-Liss. 1990,399-408

Nozaki M, Naito N, Swanson P, et al. Salmonid pituitary gonadotrophs II. Ontogeny of GTH I and GTH II cells in the rainbowtrout ( Salmo gairdneri irideus) [J]. Gen. Comp. Endocrinol,1990b,77:358-367

Magliulo-Cepriano L, Schreibman M P, Blüm V. Distribution of variant forms of immunoreactive gonadotropin2releasing hormone andβ-go-nadotropins I and II in the platyfish, Xiphophorus maculatus, frombirth to sexual maturity [J]. Gen. Comp. Endocrinol, 1994,94:135-150

Miranda L A, Strüssmann C A, Somoza G M. Immunocytochemicalidenti. cation of GtH1 and GtH2 cells during the temperature2sensitiveperiod for sex determination in pejerrey, Odontesthes bonariensis [J].Gen. Comp. Endocrinol, 2001,124:45-52

García Ayala A, Villaplana M, García Hernández M P, et al. FSH2,LH2, and TSH2expressing cells during development of Sparus aurataL. ( Teleostei). An immunocytochemical study [J]. Gen. Comp.Endocrinol, 2003,134:72-79

Schulz R W, Peute J, Bogerd J, et al. Pituitary Gonadotrophs arestrongly activated at the beginning of spermatogenesis in African catfish, Clarias gariepinus [J]. Biology of Reproduction,1997,57 (1):139-147

Yang B Y, Greene M, Chen T T. Early embryonic expression of thegrowth hormone family protein genes in the developing rainbow trout,Oncorhynchus mykiss [J]. Mol. Reprod. Dev, 1999,53:127-134

Agnés R, Maria de L G R, Víctor HM, et al. Cloning of the growthhormone cDNA of alligator gar Atractosteus spatula and its expressionthrough larval development [J]. Comparative Biochemistry and Physi2ology, 2005,140A:423-429

Li W S, Chen D, Anderson O L W, et al. Molecular cloning, tissuedistribution, and ontogeny of mRNA expression of growth hormone inorange-spotted grouper ( Epinephelus coioides ) [J]. Gen. Comp.Endocrinol, 2005,144:78-89

Zhang WM, Tian J, Zhang L H, et al. cDNA sequence and spatio-temporal expression of prolactin in the orange-spotted grouper,Epinephelus coioides [J]. Gen. Comp. Endocrinol, 2004, 136:134-142

Stouthart A J H X, Lucassen E C H E T, van Strien F J C, et al.Stress responsiveness of the pituitary-interrenal axis during early lifestages of common carp ( Cyprinus carpio) [J]. J. Endocrinol, 1998,157:127-137

Madsen K, Friberg U, Roos P, et al. Growth hormone stimulates theproliferation of cultured chondrocytes from rabbit ear and rat rib growthcartilage [J]. Nature, 1983,304:545-547

Clevenger C V, Russell D H, Appasamy P M, et al. Regulation ofinterleukin 22driven Tlymphocyte proliferation by prolactin [J]. ProcNatl Acad Sci USA, 1990,87:6460-6464

Santos C R A, Cavaco J EB, Ingleton PM, et al. Developmental ontogeny of prolactin and prolactin receptor in the sea bream ( Sparus au2rata) [J]. Gen. Comp. Endocrinol, 2003,132:304-314

Shiraishi K, Matsuda M, Mori T, et al. Changes in expression of prolactin and cortisol-receptor genes during earlylife stages of euryhalinetilapia ( Oreochromis mossambicus) in fresh water and seawater [J].Zool. Sci, 1999,16:139-146

He X, TreacyMN, Simmons DM, et al. Expression of a large familyof POU2domain regulatory genes in mammalian brain development[J]. Nature, 1989,340:35-41

Bodner M, Karin M. A pituitary2specific transacting factor can stimulate transcription from the growth hormone promoter in extracts of non2expressing cells [J]. Cell, 1987,50:267-275

Ingraham H A, Chen R P, Mangalam H J, et al. Atissue-specifictranscription factor containing a homeodomain specifies a pituitary phe2notype [J]. Cell, 1988,55:519-529

Kimura R, Tanaka M. Prolactin production during larval and early juvenile periods of euryhaline marine fish, black sea bream Acanthopagrus Schlegeli [J]. Nippon Suisan Gakkaishi, 1991,57:1833-1837

Ruijter J M, van Keemenade J A M, Wendelaar Bonga S E. Environ2mental influences on prolactin cell development in the cyprinodontfish, Cynolebias whitei [J]. Cell Tissue Res, 1984,238:595-600

Greene M W, Chen T T. Temporal expression pattern of insulinlikegrowth factor mRNA during embryonic development in a teleost, rainbow trout ( Oncorhynchus mykiss ) [J]. Mol. Mar. Biol. Biotechnol,1997,6:144-151

Funkenstein B, Cohen I. Ontogeny of growth hormone protein andmRNA in the gilthead sea bream Sparus aurata [J]. Growth Regul,1996,6:16-21

Gabillard J C. Differential expression of the two GH genes during em2bryonic development of rainbow trout oncorhynchus mykiss in relationwith the IGFs system [J]. Molecular Reproduction and Development,2003,64(1):32-40