Диссертация (1145791), страница 25
Текст из файла (страница 25)
Hengartner, H.Ichijo, B. Joseph, P. J. Jost, T. Kaufmann, O. Kepp, D. J. Klionsky, R. A. Knight, S. Kumar, J. J.Lemasters, B. Levine, A. Linkermann, S. A. Lipton, R. A. Lockshin, C. López-Otín, E. Lugli, F. Madeo,W. Malorni, J-C. Marine, S. J. Martin, J-C. Martinou, J. P. Medema, P. Meier, S. Melino, N. Mizushima,U. Moll, C. Muñoz-Pinedo, G. Nuñez, A. Oberst, T. Panaretakis, J.
M. Penninger, M. E. Peter, M.Piacentini, P. Pinton, J. H. Prehn, H. Puthalakath, G. A. Rabinovich, K. S. Ravichandran, R. Rizzuto, C.M. Rodrigues, D. C. Rubinsztein, T. Rudel, Y. Shi, H-U. Simon, B. R. Stockwell, G. Szabadkai, S. W.Tait, H. L. Tang, N. Tavernarakis, Y. Tsujimoto, T. Vanden Berghe, P. Vandenabeele, A. Villunger, E.F. Wagner, H. Walczak, E.
White, W. G. Wood, J. Yuan, Z. Zakeri, B. Zhivotovsky, G. Melino, G.Kroemer // Cell Death & Differentiation. – 2015. – V. 22. – N 1. – P. 58-73.142. Gamo, H. An in vivo observation of mitotic multiplication of periblast nuclei in embryo ofthe medaka, Oryzias latipes / H. Gamo, F. Araki // Bull. Japan. Soc. Sei.
Fish. - 1961. - V. 27. - N 10. –P.897-902.143. Gingerich, J.L. Analysis of axis induction mutant embryos reveals morphogenetic eventsassociated with zebrafish yolk extension formation / J. L. Gingerich, R. Lindeman, E. Putiri, K.Stolzmann, F. Pelegri // Dev. Dyn. – 2006. – V. 235. – N 10. – P. 2749-2760.116144. Giorgi, F.
Structure of yolk granules in oocytes and eggs of Blattella germanica and theirinteraction with vitellophages and endosymbiotic bacteria during granule degradation / F. Giorgi, J. H.Nordin // Journal of Insect Physiology. – 1994. – V. 40. – N 12. – P. 1077-1092.145. Glasauer, S.M.K. Whole-genome duplication in teleost fishes and its evolutionaryconsequences / S.M.K. Glasauer, S.C.F. Neuhauss // Molecular genetics and genomics. – 2014. – V.289. – N 6. – P. 1045-1060.146.
González‐Doncel, M. A quick reference guide to the normal development of Oryzias latipes(Teleostei, Adrianichthyidae) / M. González‐Doncel, M.S. Okihiro, S. Villalobos, D.E. Hinton, J.V.Tarazona // J. Appl. Ichthyol. – 2005. – V. 21. – N 1. – P. 39-52.147. Gore, A.V. Localization of transcripts of the Zebrafish morphogen Squint is dependent onegg activation and the microtubule cytoskeleton / A.V.
Gore, K. Sampath // Mech. Dev. - 2002. - V. 112.- P.153–156.148. Godard, B.G. Early patterning in a chondrichthyan model, the small spotted dogfish:towards the gnathostome ancestral state / B.G. Godard, S. Mazan // J Anat. - 2013. - V. 222. - P.56-66.149. Godard, B.G. Mechanisms of endoderm formation in a cartilaginous fish reveal ancestraland homoplastic traits in jawed vertebrates / B.G.
Godard, M. Coolen, S. Le Panse, A. Gombault, S.Ferreiro-Galve, L. Laguerre, R. Lagadec, P. Wincker, J. Poulain, C. Da Silva, S. Kuraku, W. Carre, A.Boutet, S. Mazan // Biol. Open. – 2014. – P. 1098–1107.150. Goi, M. Patterning mechanisms of the sub-intestinal venous plexus in zebrafish / M. Goi,S.J. Childs // Dev.
Biol. – 2016. – V. 409. – N 1. – P. 114-128.151. Hamlett, W.C. Subcellular organization of the yolk syncytial-endoderm complex in thepreimplantation yolk sac of the shark, Rhizoprionodon terraenovae / W.C. Hamlett, F.J. Schwartz, L.J.A.DiDio // Cell ass. Res. -1987. - V. 247. - P.275-285.152. Hamlett, W.C. Comparative morphology of the elasmobranch placental barrier / W.C.Hamlett // Arch. Biol. (Bruxelles). - 1987. - V. 98. - P.135-162.153. Hamlett, W.C. Uterogestation and placentation in elasmobranchs / W.C. Hamlett, A.M.Eulitt, R.L.
Jarrell, M.A. Kelly //Journal of Experimental Zoology. – 1993. – V. 266. – N 5. – P. 347367.154. Haniffa, M.A. Breeding behaviour and embryonic development of koi carp (Cyprinuscarpio) / M.A. Haniffa, P.A. Benziger, A.J. Arockiaraj, M. Nagarajan, P. Siby // TAIWANIA-TAIPEI– 2007. – V. 52. – N 1. – P. 93.155. Hashimoto, H. Zebrafish Dkk1 functions in forebrain specification and axial mesendodermformation / H. Hashimoto, M. Itoh, Y.
Yamanaka, S. Yamashita, T. Shimizu, L. Solnica-Krezel, M. Hibi,T. Hirano // Dev. Biol. – 2000. – V. 217. – N 1. – P. 138-152.117156. Hauptmann, G. Pou-2 - a zebrafish gene active during cleavage stages and in the earlyhindbrain / G. Hauptmann, T. Gerster // Mech. Dev. - 1995. - V. 51. - N 1. - P.127-138.157. He, S. Molecular phylogenetics of the family Cyprinidae (Actinopterygii: Cypriniformes)as evidenced by sequence variation in the first intron of S7 ribosomal protein-coding gene: Furtherevidence from a nuclear gene of the systematic chaos in the family / S. He, R.L.
Mayden, X. Wang, W.Wang, K.L. Tang, W.J. Chen, Y. Chen // Molecular phylogenetics and evolution. – 2008. – V. 46. – N3. – P. 818-829.158. Helker, C. S. M. The zebrafish common cardinal veins develop by a novel mechanism:lumen ensheathment / C.S.M. Helker, A.
Schuermann, T. Karpanen, D. Zeuschner, H.-G. Belting, M.Affolter, S. Schulte-Merker, W. Herzog // Development. – 2013. – V. 140. – N 13. – P. 2776-2786.159. Heming, T.A. Yolk absorption in embryonic and larval fishes. In: Fish Physiology. V. 11.The Physiology of Developing Fish. / T.A. Heming, R.K.
Buddington. - London, UK: Academic Press,INC. - 1988. - P. 408-446.160. Hemberger, M. IFPA award in placentology lecture - characteristics and significance oftrophoblast giant cells / M. Hemberger // Placenta. - 2008. - V. 29. – P. 4-9.161. Hernández, P.P. Zebrafish (Danio rerio) as a model for studying the genetic basis of coppertoxicity, deficiency, and metabolism / P.P.
Hernández, M.L. Allende // Am. J. Clin. Nutr. - 2008. - V.88. - N 3. - P. 835S-9S.162. Hirata, T. Novel mix-family homeobox genes in zebrafish and their differential regulation/ T. Hirata, Y. Yamanaka, S.L. Ryu, T. Shimizu, T. Yabe, M. Hibi, T.
Hirano // Biochemical andbiophysical research communications. – 2000. – V. 271. – N 3. – P. 603-609.163. Hisano, Y. Maternal and zygotic sphingosine kinase 2 are indispensable for cardiacdevelopment in zebrafish / Y. Hisano, A. Inoue, M. Okudaira, K. Taimatsu, H. Matsumoto, H. Kotani,R. Ohga, J. Aoki, A.
Kawahara // J. Biol. Chem. – 2015. – V. 290. – N 24. – P. 14841-14851.164. Ho, C.Y. A role for the extraembryonic yolk syncytial layer in patterning the zebrafishembryo suggested by properties of the hex gene / C.Y. Ho, C. Houart, S.W. Wilson, D.Y.
Stainier //Curr. Biol. - 1999. - V. 9. - N 19 - P.1131-1134.165. Hong, J-R. Phosphatidylserine receptor is required for the engulfment of dead apoptoticcells and for normal embryonic development in zebrafish / Hong J-R., Lin G-H., Lin C. J-F., W.P. Wang,C.C. Lee, T.L. Lin, J.L. Wu. // Development. - 2004. - V. 131.
– N 21. - P.5417-5427.166. Hong, S.K. Alpha2 macroglobulin-like is essential for liver development in zebrafish / SK. Hong, I.B. Dawid // PLoS ONE. - 2008. - V. 3. - N 11. e3736.118167. Hong, S.K. Embryonic mesoderm and endoderm induction requires the actions of nonembryonic Nodal-related ligands and Mxtx2 / S.K.
Hong, M. K. Jang, J.L. Brown, A.A. McBride, B.Feldman. // Development. - 2011. - V. 138. – N 4. - P. 787-795.168. Howe, D.G. ZFIN, the Zebrafish Model Organism Database: increased support for mutantsand transgenics [Электронный ресурс] / D.G. Howe, Y.M. Bradford, T. Conlin, A.E. Eagle, D.Fashena, K. Frazer, J. Knight, P. Mani, R. Martin, S.A.
Moxon, H. Paddock, C. Pich, S. Ramachandran,B.J. Ruef, L. Ruzicka, K. Schaper, X. Shao, A. Singer, B. Sprunger, C.E. Van Slyke, M. Westerfield //Nucleic Acids Res. – 2013. – N 41(Database issue):D854-60. – Режим доступа: http://zfin.org/169. Hsu, H.J. Zebrafish cyp11a1 and hsd3b genes: structure, expression and steroidogenicdevelopment during embryogenesis / H.J.
Hsu, J.C. Lin, B.C. Chung // Mol. Cell Endocrinol. - 2009. V. 312. – N 1-2. - P.31-34.170. Hu, D. Development and function of trophoblast giant cells in the rodent placenta / D. Hu,J.C. Cross // International Journal of Developmental Biology. – 2009. – V. 54.
– N 2-3. – P. 341-354.171. Huttenhuis, H.B. Carp (Cyprinus carpio L.) innate immune factors are present beforehatching / H.B. Huttenhuis, C.P. Grou, A.G. Taverne-Thiele, N. Taverne, J.H. Rombout // Fish ShellfishImmunol. – 2006. – V. 20.
– N 4. – P. 586-596.172. Hyodo, M. Essential role of the yolk syncytial layer for the development of isolatedblastoderms from medaka embryos / M. Hyodo, A. Aoki, C. Ando, M. Katsumata, S. Nyui, N. Motegi,T. Morozumi, M. Matsuhashi // Develop. Growth Differ. – 1996. – V. 38. – N 4. – P.
383-392.173. Hyodo, M. Yolk syncytial layer independent expression of no tail (Brachyury) or goosecoidgenes in cultured explants from embryos of freshwater fish Medaka / M. Hyodo, A. Aoki, M. Katsumata,T. Horikoshi // Zoological science. – 1999. – V. 16. – N 3. – P. 453-457.174.
Irie, N. The developmental hourglass model: a predictor of the basic body plan? / N. Irie, S.Kuratani // Development. – 2014. – V. 141. – N 24. – P. 4649-4655.175. Isken, A. RBP4 disrupts vitamin a uptake homeostasis in a STRA6-deficient animalmodelfor Matthew-Wood syndrome / A. Isken, M. Golczak, V.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
