differentiation, histochemistry, Diptera SPREY 



— in vitro, Diptera TURNtR 

 effect of chemicals, part. 5-FU, Lepidop- > 



tera LAFONT 



x rays & ecdysteron, Diptera VIJVERBERG 



evagination & differentiation in vitro, 



Diptera n . MAN °^S? 



eye, effect of eyeless mutant, Diptera ARKING 

 gene expression in vitro, Diptera ^ct V rTo 



head, experimental study, Diptera SCHOELLbR 

 imaginal buds, Diptera Wi 5ggFNGTON 



in vitro, single cell cultivation, Dl 'P'?' fl KURODA 



— vivo & in vitro, Lepidoptera OBERLANDER 

 intergeneric grafts, Diptera BODENSTEIN 

 leg, ultrastructure, Diptera ^»V^c 

 normal & abnormal, in vitro, Diptera G^EFF 

 organization, Diptera UKSFKUMj 



Pa D^r f a ° rmati ° n ' ^ ViV ° CUltUre ' OUWENEEL 



Pr SSS 0n & DNA SyDtheSiS ' VIJVERBERG 



regeneration & duplication, Diptera BRYANT 



regulation of determination & diii erena a !fK>n, 



Diptera SANDERS 



specificity of cell recognition, Diptera GARC IA. 

 teratoaenesis by thermal stress, Diptera HO *\=>t;AL.L 

 transdetermination, Diptera CD ,c-rVrw 



ultrastructure, Dipteia ™^t rcn 



wing, Diptera, Lepidoptera V VrnvT 



— , biochemistry, Lepidoptera ^V^ta 



_, development & culture, D/'prera GARCIA 



— , developmental genetics, Diptera GARCIA 



zygotic lethals, clonal behaviour, Diptera R1PUCL 



IMMUNOCHEMISTRY ^ cl}TQr . H 



cellular differentiation, Acrasiales GtRl^uti 



egg protein, transfer to embryo, ^>« rill ^ LL1 

 eye lens, Anura, Axes CLAYTON 



TRUMAN 



proteins, Aves, Homo DOORENMAALEN 



immunofluorescence, albumen uptake m 



embryo, Gastropoda ^\Viri^ 



— , brain differentiation, Ares Snwo 



— , primary induction, Aves Jb aa*« 



Langerhans cell, origin, Rodentia „ *^r££l 



muscle differentiation, Anura, Aves IRA ^yASHI 



P-teu^changes, early °- elo e men £ TANISSTREET 



— synthesis, clonal liver cells, Homo, 



Rodentia KAIGHN 



tooth, extracellular substances, Lago- „__, 



morpha SLAVKIN 



IMMUNOLOGY (developmental) 



actin & myosin synthesis in somite, ATTr - VT 



Aves . ALLEN 



antibody absorption, neonatal, Insectivora, 



Rodentia MORRlb 



— against lens protein, effect on lens, 1 „ Mm _ 

 Lagomorpha ™ ^U 



— , cytotoxic, Homo AD £rb7~u 



— effects on fertilization, Anura BARCW 



— production, humoral, primary, Aves SE1U 



— to nervous tissue, producing dysraphia, 



Aves BARS ON 



— transfer, perinatal, via placenta, fetal 

 membranes, mammary gland, gut, A ^ T _____- I 

 Rodentia ANDERSON 



anti-brain antibodies, teratological effect, 



A ves FRIEDMAN 



antigens, cell surface, spermatogenesis & 

 embryology, Rodentia BENNfcll 



_ tumor & embryonic cell, ^^„. T 



Rodentia EDIDIN 



— coded for by paternal nucleus, first 

 appearance, Echinoidea S'lt-u a 



— , early stages, Amphibia „?T$h£v 



PALECEK 

 ROMANOVSKY 



— , effect on follicular epithelium, 



Aves KURULASHVILI 



— . eve & kidney, Aves, Homo, 



Rodentia A ^™^^ 



BARABANOV 



TITOVA 



VYAZOV 



— , histocompatibility, Homo ADINOLFI 



f — t early embryo, Rodentia EDIDIN 



— in brain, Rodentia VAN ALTEN 



— , Miillerian duct epithelium, 



Rodentia FORSBERG 



— , reaction of intestine, Aves CHANTURISHVILI 



suprarenals, Aves OTZCHELI 



_', testis, Aves KANKAVA 



— , spermatozoa, location, Anura SHAVER 



— , testis, Rodentia 7-,tt^t 



— , transplantation, Rodentia EDIDIN 



antipituitary sera, effect on development, 



Aves VENEZIANO 



antisera from egg & embryo extracts, effect on 



development, Asteroidea PEARCfc. 



blood antigens in haemolymph & tissues, 



Hymenoptera . LENSKY 



brain antigens, microcomplement fixation, 



Aves WENGER 



— , normal & abnormal development, Aves, 



Rodentia ^JXSJJ^S 



cell surface antigens, Rodentia F ^^Tavt 



chromatophore interactions, Urodela DUNCAN 

 competent cells, origin & differentiation, in 



vitro, Lacertilia MUTHUKKARUPPAN 



complement, synthesis in vitro, Homo ADINOLFI 

 decidualization, Rodentia cwavtpb 



egg jellv, Anura SHAVtR 



embryo-maternal relation, Homo, Primates. 



Rodentia VERBICKY 



embrvonic immunity, Porifera M °}'1T T 9S A ^ 



enzyines, Aves J?£2}i a«7? 



ervthrocyte membrane, Rodentia FURUSA VVA 



erythropoiesis in metamorphosis, Anura INGRAM 

 eye cup & retina, Amphibia C ^A ? YTON 



— lens crystallins, Aves ^^tw?^?™ 



proteins, Aves, Homo DOORENMAALEN 



regeneration, Amphibia CAMPBELL 



TRUMAN 

 fetal & neonatal immunity, thymus & spleen, 



Homo D a ■ ¥!$£££ 



fetal-maternal relations, Homo, Rodentia KtittitL 

 in interseneric hybrids, Artio- 



dacnla HANCOCK 



° McGOVERN 



gonads, Lagomorpha, Rodentia ELGER 



grafting, Nemertea BIERNE 



histocompatibility antigens in matrix vesicles, 



effect on homotypic cell cultures, 



Lagomorpha SL vXtS£ 



, nuclear transplant animals, Anura VULft 



homoaraft reaction, primary, Aves SETO 



hormone antibodies, effect on fetus & post- 



natal growth, Rodentia CHAMBERLAIN 



hvpophvsis, gonadotropic function, Verte- 



' brata . SEGAL 



immune capacitv. control mechanism, in vitro, 



Lacertilia MUTHUKKARUPPAN 



— reactions against spermatozoa, effect on 

 embrvonic development, Lagomorpha MENGE 



- response & lymphoid tissue, ^«^ TELOJJRK 



( cell interaction, Rodentia ARGYRIS 



— sera, maternal, effect on embryo, 



Rodentia DEUCHAR 



STANISSTRF.ET 



svstem, Aves, Rodentia ALBRIGHT 



- 1 Rodentia MAKINODAN 

 immunocompetence, experimental onset, ______ 



Aves, Rodentia SOLOMON 



— , normal & abnormal development, 



A nura KIDDER 



An RUBEN 



immunoeenesis, cellular foundation KORKIA 



immunogenic responce, in vitro, Rodentia pUTI UN 

 immunoglobulin, lymphoid cells, Homo, Lago- 

 morpha, Rodentia CEBRA 

 immunomorphology, embryo, effect of tem- 

 perature, Aves CRA J?i^ 



PREDA 



lvmphocyte competence, mitogens, Aves, 

 ' Rodentia VAN ALTEN 



macrophages, role in antibody synthesis, 



Rodentia ARGYRIS 



maturation, correlation to lymphoid tissue, 



larva, Anura MA J?5£ f - G ! 



— of immune capacity, Rodentia ARGYRIS 



mechanism controlling compensatory hyper- 



trophv, Rodentia BABAYEVA 

 microtubule proteins, comparative study, 



Echinoidea . ^IMURA 



muscle development, Aves, Rodentia LANGMAN 



279 



