NEUROSECRETION ™ tttt1 =r 



autoradiography, Polychaeta MULLtK 



biochemistry & physiology, Coleop- 



tera SCHOONEVELD 



cellular activity cycle, Orthoptera EW^j 



development, Oligochaeta GIOVANNINI 



different sexual development stages, _„__.-_. 



Polychaeta HOFMANN 



effect of eyeless mutant, Diptera „ A £KING 

 embryo, Oligochaeta M l? T cl?-«ci» 



i Orthoptera VlSSCMfcK 



epistellar body, Cephalopoda SACARRAO 



histology & histochemistry, Orthoptera EWtN 



hypothalamus-hypophysis, Axes MALAFKAUL 



morphological & physiological, Amphibia, 



Crustacea, Pisces ,nuwcr.M 



mutant, Rodentia JOHN pn£ 



relation with regeneration, Oligochaeta KUM 



role in development of androgenic gland, 



Crustacea . PAYLN 

 , regeneration & differentiation of genital 



apparatus, Trematoda, Turbellaria GRASSO 



subcommissural organ, structure & funct '° n AxTTcxTT 



Homo, Mammalia L ?SS?£J 



Turbellaria wa JSS5a5 



Vertebrata WATERMAN 



NEUROTRANSMITTERS 



see also Hormones 



adrenal medulla, organ of Zuckerkandl, 



Rodentia AR ^£, S A 2K 



adrenaline & nor-, Aves UIKAKJJ 



catecholamines & receptors, Aves, AlkTrTT , TIT1 . T 



Rodentia MANUKHIN 

 serotonin, central nervous system, ^ TOIT 



*"*"* M^SS! 



GABA, effect on cortical somesthetic response, 



Lagomorpha, Rodentia ^ t R ^^tvit 



metabolism, enzymes, Aves GlACOBim 



monoamine, activity, heart, Homo >^ TKr . A ~~ TAvr 



Mammalia NAVAR A 1 ^-^ 



— , median eminence, Rodentia ^i™*XV„ic 



EURENIUS 



— , sympathetic chain, Rodentia ARV J£?^>j 



pineal organ, Vertebrata COLLIN 



role in early embryogenesis, Anura, _______.,, 



Fchinoidea BUZN1KOV 



Lcninoiaea MARKOVA 



serotonin, metabolism, Echinoidea TONEBY 



— , protection against teratogenic effects, 



Rodentia -S,M BR S 



synthesis, in vivo & in vitro, Aves TEITELMAN 



NEURULA(TION) 



Anura 



electron microscopy, Ascidiacea, „„„_„^ 



Urodela LO ? B lS? 



latency period after induction, Aves GALLERA 

 mechanism, Ascidiacea, Aves, Urodela JACOBSON 

 morphogenetic movements, Anura GOODWIN 



NITROGEN 



excretion, tadpole, effect of prolactin, 



Anura ARIMA 



metabolism, enzyme systems, Anura JANSSENS 



NORMAL TABLES 



see Embryology (general & descriptive) 



NOTOCHORD 



Aves 



developmental changes, Rodentia 



NUCLEAR TRANSPLANTATION 



see Nucleus 



NUCLEIC ACID(S) 



see also specific nucleic acids; 



Nucleotides (& nucleosides) 



during development, Anura DECROLY 



early development, Anostraca, Echinoidea HULTIN 



, Gastropoda **£9 



Echinoidea IVERSON 



effect on development & regeneration, 



Amphibia, Echinoidea WOLSKY 



endopolyploid nuclei, autoradiography, -„ rfvr 



Diptera, Lepidoptera GILLOT 



KHAN 



JACOB 

 JURAND 



fetal & postnatal development, ,. tA ^ A ~ A „, A 



Rodentia NAKAZAWA 



fibroblasts, contact inhibition, Aves HUMPHREYS 

 hybridization, Amphibia GIORGI 



interaction with proteins, early development, 



Echinoidea IMMERS 



limb buds, epidermal & mesodermal cells, ,^ iAT _ 



Chelonia, Laceitilia RAY ?^ A Ji2 



VASSE 



metabolism, Amphibia, Teleostei P A V? P A Xu 



— , Anura SALLACH 



— , biochemistry, autoradiography, dcodv 



Lepidoptera T °™J 



— , effect of nuclease inhibitors, Aves ILMFLL 

 — , egg, Rodentia TSA F T R J R i 



— maturation, Amphibia HANOCQ 



— , embryo, tracer studies, Echinoder- 



mata YANAGISAWA 



— , endocrine regulation, muscle, Aves LOVE 



— in differentiation, Amphibia FAUL ^5 



— , larval, Trematoda GILB I R Jktct> 



moult cycle, Crustacea SK1NNLK 



—\ pre- & postnatal, Insecta KRISHNAKUMARAN 

 mutants, Diptera K mi7 A 



neuroglia at pupation, Lepidoptera fifA 



oogenesis & early development, ^^r—^rrmwiv 



Arnvhibia NEDVIDbK 



Am P nma VILIMKOVA 



— , part. 5s RNA, Anura FORD 



quantitative cytochemistry, induction & 



differentiation, Vertebrata \Atii> 



relation with nuclear transplantation, ,_„__„ 



A ^ hibia Sl?dec!k 



role in primary determination & primary 



differentiation, Orthoptera SAUER 



synthesis after cortical lesions, Anura BRACHE1 

 — , blastocyst, delayed implantation, ~ TTTVAQ 



Mammalia 5irJ A ^ 



f — , hormone action, Rodentia PRASAD 



— ' during development, Anura „Ji£xT?.T 



, early cleavage, Lagomorpha PETZOLDl 



— , effect of conditioned medium from dis- 



sociated morulae, Echinoidea BRACHET 

 t hormones, postembryonic, Blat- 



tariae, Diptera SHAAYA 



— embryo, biochemistry, in vivo & in vitro, 

 Echinoidea INFANTE 



— , larva, Diptera MATTINGLY 



— , polytene chromosomes, normal & infected 



larvae, Diptera PAVAN 



— , prevention by prolactin of hormone- _ AXA 



induced metamorphosis, Anura „,- A J,~ T £ 

 — , queens & workers, Hymenoptera REMBOLD 

 — , regeneration, autoradiography, Oligo- 



chaeta MOUTON 



— regulation, early stages, Anura HONJO 



HORAK 

 REEDER 

 WU 

 template capacity during development, 



Anura DECROLY 



transcription & translation, early stages, 



Echinoidea r I A ?5££5 



wing disc, Lepidoptera LArUNi 



NUCLEO-CYTOPLASMIC RELATIONS 



development, Amphibia HENNEN 



differentiation, Aves, Rodentia ^^nr^i-ik. 



early cleavage, Diptera ^ ta ^ a V*t™ A 



— development, Amphibia NAKAMURA 



TAKASAKI 

 embryonic differentiation, Echinoidea KINOSHITA. 

 oocyte, Anura 

 — , autoradiography, Anura 

 pronucleus, Echinoidea 

 somatic cells, Rodentia 

 tracer studies, Echinoidea 



DE SILVA 



COLE 



LONGO 



SCHMIALEK 



GEZELIUS 



NUCLEOLUS 



see Nucleus 



NUCLEOTIDES (& nucleosides) 



acid-soluble, changes during development, 



Echinodermata YANAG BAWA 



— , in egg & sperm, Echinoidea ISONO 



AMP, cyclic, in bone, effect of PTH, „„__„_ 

 Rodentia HEERSCHE 



— , — , role in action of gonadotropin, 



placenta, Homo CEDARD 



290 



