EMBRYONIC MENffiRANES (coritd) 



function & properties, Teleostei WINNICKl 

 functional histology. Aves. Mammalia. pg-j-RY 

 Homf'^ SCHRAM 

 prot'ein transmission, Lagomorpha .r:>.K^rin 

 RNA synthesis, RodentU BELLAIRi 

 pZenTia ORSINI 

 yolk^"sac, blood cells, Rodentia JONES 

 etc.. histochemistry, enzymology, _„^^„„,^, 



. glycogen metabolism, Aves. ^°"'°-.^.^^o 



RodenUa BAXTER 



membrane, endoderm. """Structure 



Aves ^ WILLIER 



, functional histochemistry, Aves 



WILLltK 



, , metabolism, hormonal control, ^„^.,.,_e 



Aves THOMMtlj 



, morphology 6 electron '°'"°'«^°Pyp,npr,N, 



Mollasca un^KTF 



— — structure 6 vascularization, Aves KUiAlli 

 \ UDPG glycogen synthetase, '^"^^^lANGO 



Alcanna GEIGY 



see also specific organs; Hormones 



adrenal dependent phenomena, effect o' „ 



hypophysectomy, Aves ^"Op^^'l^ 

 androgenic gland, Crustacea f « i ci^ 

 . role in non-functional male rroiBn 



hermaphroditism, Crustacea tKltU 

 . sex differentiation, ^,,.„^„>,,v 



Crustacea ^ ^"^^MFmv 



, ultrastructure, Crustacea JvJ^aMP 



as affected by mutants. Diptera ,„,P>V^i/a 



comparative histology. Amphibia ^^,^\^\ 



correlations. Amphibia X^KSK^K 



— Crustacea MbUbY 

 cytodifferentiation. histochemistry, ^omo FALIN 

 cytology, histochemistry. Teleostei OLIVEREAU 

 embryonic, physiology. At>es r^aiVnTTn 

 experimental embryology. Rodentxa DAIKOKU 

 fine structure. Aves walTaPT 

 foetal 6 neonatal. Rodentia ^^^,Vl 

 -. organ culture. Rodentia COLLb 



— . Rodentia 



function, larva! 



Decapoda 



KROHN 



development & metamorphosis 



HUBSCHMAN 

 RAYNAUD 



functional differentiation. Lacertilia 

 nads & adrenals, androgens 6 « 

 effect of hypophysectomy. Aves 



. hydroxysteroid dehydrogenases. ,.,„^r,c 



effect of hypophysectomy. Aves rWiJn^n 



histogenesis & interrelations. Che/on.a DIMOND 



histophysiology. Teleoste, OLIVEREAU 



hypophysis, adrenals & gonads, develop- 

 mental correlations, in vivo & in vitro. 

 Ai^es MANELLI 



in postembryonic development, ^''^''"P'^pf.T T-)x,pj^ 



influence on reproduction. Aves ^i^^^7 



mitosis, distribution. Rodentia MtKlZ, 



morphogenesis in vitro. Anura, Mammalia p 



p!iXT'' ''"''°"''' hauenJcSild 



pre- 6 postmetamorphic, Urodela PRAHLAD 



prothoracic gland^ role in postembryonic 



development. Orthoptera BODENSTEIN 

 . ultrastructure. biochemistry. „ , „. 



Lepidoptera ^^^l^A^p' 



relation with growth. Aves KAMAR 



role in growth, moulting 6 9^"*'°9^°"i?i > ^x„mi 



Cladocera ZAFFAGNINI 

 sex differentiation & maturation. „,__,.,_ 



Nemertini ^JPaM, 



Teleostei EGAMl 



ventral glands, breakdown. Dermaptera OZEKI 



ENERGY (developmental) 



Chondcostei ZOTIN 



Echinoidea rMicni\7R 



metabolism. Amphibia. Teleostei DUSPIVA 



-. RNA synthesis. Teleostei. ^rodela^^^^^^^^ 



origin, early development. Teleostei pg^j^LERS 



pathways, differentiation. Vertefcrafa WILDE 



Teleostei , t-AUblUV 



transfer, cellular interactions in """"'SV!' __p„ 

 cultures, Aves. Rodentia lll^l^ll 



ear y embryo. Aves ^fIS?To5 



Urodela ^OTIN 



ENTEROCHROMAFFIN CELLS 



see Chromaffin cells 



ENZYME(S) 



acid hydrolases, acrosome. £<^'""°"'^^•_cD„r^T IM 

 «o<fentia. Urodela ,BERTOLIN 



YAMAMURA 



DOANE 

 SALLACH 



Roden 

 activity. Homo cnPPO 



alcohol dehydrogenase, Dipfera x.actrD^ 



aldolase iso-, Ai^es, Mammalia MAblhKb 



amylases, electrophoretic variants, control of 



isozyme production. Diptera 

 Anura 



"ist'em"'''' -'P'^-^'y'l-'^^^- ""'^^"iNCLEWSKI 

 ATP-ase cation pump, liver, Rodentia ^AKKEREN 



ATP-ase, embryo, Tunicata .wavmOUTH 



_, kidney 6 lung, Rodentia WAYMOUTH 



— . localization in egg. Echinoidea i^toinvj 



-, Na + K activated, retina 6 ciliary 



body. Aves. Lagomorpha KUUCKS 



bile acid formation, embryonic ''^er. 



Aves LAMBIOTlt, 



biochemistry, intestine. Rodentia MOOG 



brain, optic system & thalamus. ^°°^"'^ruiEBLER 

 ~. relation with myelination, Aves. ocr-iic 



«°''-''-^ keIISeI 



SZEKELY 



cell-specific, control of synthesis KIRK 



chemoreceptor cell of glomus caroticum. ^_^,,_ 



Carn.yora. Homo. Rodentia KRAUb 



cholesterol esterase, brain. Rodentia pj^j^^j^^j^p 



choline acetyltransferase. optic lobe. „ „ 



normal and eyeless. Aves MARCHISIO 



-^--^^spinal 6 sympathetic ganglia. ^^^^^^,5,^ 



^'ptt^r'nic'r''"'"^ "" °''"'' DURANTE 

 connective 6 supporting tissue, ^rtiodactyla. 



Aves. Homo. Rodentia kRA^zIcS 



5-aminolevulinate synthetase, induction. 



Aves SIMONS 



dehydrogenase isozymes, cytochemistry. 



electrophoresis CON KLIN 



dehydrogenases, embryo 6 adult. Aves ^^^^^^^^^ 



— in early embryo, Aves SPRATT 

 desoxyribonucleotide biosynthesis 6 



degradation. Aves. Carnivora. ^^^""""'g^^^pBUR 



_. postgastrula. Amphibia FINNEGAN 

 disaccharidases. intestine, ^arniyora. 



Rodentia „ KRETCHMER 



DNAse. effect of irradiation 6 ^'^v'^''^^ ^.-Dut 



agents. A.es TEMPEL 



— . function in embryo. Aves damT 



egg. Diptera. Lepidoptera jXnnr 



embryo. Aves. Mammalia MANCmO 



- /— ^-- r?verb"er° 



esterases, allelic forms in tissues. POPP 



— . differentiating tissues. Amphibia HAYASHI 



— . multiple, compensatory effect, null 



genes. Rodentia 

 female genital tract. Mammalia ,,RSPRUNG 



fertilization. Tunicata URSPRUNO 



fetal, effect of diabetes, Aves. Homo r-oiTir> 



^^<xi^"tia WMKFR 



fetus 6 neonate. Mammalia uaMrnY 



formation in vitro \\;D,rHT 



genetic control. Dipfera \yRIGHT 



glucose-6-phosphate dehydrogenase, adrena 



cortex. Rodentia WENGER 

 . central nervous system & *'*°^^^' ,,,cm,-co 



during cartilage induction, Aves WbNOtK 

 . spinal 6 sympathetic ganglia, ^"^gj^^^gj^ 



glutamine synthetase, optic tectum, Aves 



POPP 

 THIERY 



SHIMADA 



222 



