307
Subject Index
Acetylcholinesterase
activity during development of Xenopus
laevis: GINDI & KNOWLAND 51, 209
development in cleavage-arrested ascidian
embryos: SATOH 54,131
Adenosine monophosphate (see AMP)
Adenylation
and ADP-ribosylation in the mouse 1-cell
embryo: YOUNG & SWEENEY 49, 139
ADP-ribosylation
and adenylation
in the mouse 1-cell
specification: ELSDALE & PEARSON
53, 245
limb regeneration
neuro trophic and X-ray blocks in
blastemal cell cycle: MADEN 50, 169
role of irradiated tissue during pattern
formation: MADEN 50, 235
and surface potentials: LASSALLE 53, 213
Apical ectodermal ridge
of the embryonic chick limb bud, in vitro
studies on the differentiation of subjacent mesoderm: KOSHER, SAVAGE &
embryo: YOUNG & SWEENEY 49, 139
Aggregation
and morphogenesis of area opaca endoderm cells from chick embryo: MILOS,
ZALIK & PHILLIPS 51, 121
a-Amanitin
effect on molecular differentiation of inside
cells and inner cell masses isolated from
preimplantation mouse embryos: JOHNSON 53, 335
time-dependent effects on blastocyst formation in the mouse: BRAUDE 52, 193
Ambystoma mexicanum (SEE Axolotl)
Ammonia
role in gene expression in Dictyostelium
discoideum: KAY 52, 171
cAMP
chemotactic cell sorting in Dictyostelium
CHAN 50, 75
Appendicular musculature
origin in bird embryos: CHEVALLIER 49, 73
apterous Alleles
in Drosophila, lineage analysis: WHITTLE
53, 291
area opaca
endoderm cells from chick embryo, aggregation and morphogenesis: MILOS, ZALIK
& PHILLIPS 51, 121
Ascidian
embryogenesis I. Acetylcholinesterase
development in cleavage-arrested embryos: SATOH 54,131
Autonomy
of tendon development in the chick wing:
KIENY & CHEVALLIER 49, 153
externally applied, responses of the early
Autoradiographic study
of macromolecular synthesis in the fusion
epithelium of the developing rat primary
chick embryo: GINGLE & ROBERTSON 53,
palate in vitro: FIGUEROA & PRATT 50,
353
role in gene expression in Dictyostelium
discoideum: KAY 52, 171
Amphibian
embryo
145
of pathway selection by optic fibres of
ventral retinal origin during development and regeneration in Xenopus:
Concanavalin A binding t o : BOUCAUT
Avian
double monsters, use in studies on induction of nervous system: ULSHAFER &
discoideum in response t o : MATSUKUMA
& DURSTON 50, 243
et a I. 51, 63
fate maps and cell differentiation - an
experimental
study:
LANDSTROM &
L0VTRUP 54, 113
somitogenesis
i. Temporal factors in the specification
STRAZNICKY, GAZE & HORDER 50, 253
CLAVERT 53, 237
embryo
skeletogenic potential of membrane bone
periosteal cells: THOROGOOD 54, 185
&
role of the somitic mesoderm in the
development of thoracic and appen-
ii. Origins in early embryogenesis of
two factors involved in somite
dicular musculature: CHEVALLIER 49,
of somite pattern:
ELSDALE 51, 27
PEARSON
73
308
Subject Index
limb bud, muscle-forming potential of the
non somitic cells: MCLACHLAN & HORNBRUCH 54, 209
Axial bending
as a response of the early chick embryo to
external cAMP sources: GINGLE &
ROBERTSON 5 3 , 353
Bristle
patterns and compartment boundaries in
the tarsi of Drosophila:
STRUHL & MORATA 5 1 , 195
LAWRENCE
5-Bromodeoxyuridine (BUdR)
cellular effect on the mammalian embryo:
BANNIGAN & LANGMAN 50, 123
AxolotI
DNA synthesis after polyspermic fertili-
effect on haemoglobin and melanin synthesis by unincubated chick blastoderms
in culture: ZAGRIS 50, 47
zation : WAKIMOTO 52, 39
duplications during regeneration of juveniles: WALLACE & WATSON 49, 243
embryo, fate maps and cell differentiation an experimental study: LANDSTROM &
L0VTRUP 54, 113
regulation and limb regeneration: MADEN
52, 183
Callosobruchus maculatus
the specification of metameric order: VAN
DER MEER 5 1 , 1
Carcinoma cells
mouse embryonal
effect of prolonged decompaction:
JOHNSON et al. 54, 241
Basichondrocranium
notochordal relationships: abnormalities
in experimental axial skeletal (dysraphic)
growth and differentiation of cell line
( c l 4 5 b ) PAPAIOANNOU, EVANS, GARDNER & GRAHAM 54, 277
metabolic co-operation with embryonic
disorders: MARIN-PADILLA 53, 15
Beak
lower, influence on the interorbital septum
-prenasal complex in the chick embryo:
WOUTERLOOD & VAN PELT 49, 61
cells: GAUNT & PAPAIOANNOU 54, 263
Catecholamines
role in the regeneration of planarian,
Polycelis tenuis: FRANQUINET 51, 85
Blastema
amphibian limb regeneration, role of
irradiated tissue during pattern formation: MADEN 50, 235
axolotl, regulative ability: MADEN 52, 183
cell cycle, neurotrophic and X-ray blocks:
MADEN 50, 169
Cartilage
chick embryonic
changes in collagen ultrastructure,
macroscopic properties and chemical
composition: HJELLE & GIBSON 53,179
differentiation in the limb bud in vitro:
VASAN & LASH 4 9 , 47
denervation, formation of muscles in re- Cell attraction
generating limbs of newt: GRIM &
as a response of the early chick embryo t o
CARLSON 54, 99
external cAMP sources: GINGLE &
Blastocysts(s)
ROBERTSON 5 3 , 353
of mouse embryo,
Cell contact
cell differentiation in isolated inner cell
and positional communication in hydra:
masses: DZIADEK 53, 367
WAKEFORD 54, 171
inhibition of spermidine and spermine
synthesis during the formation of:
ALEX ANDRE 53, 145
injection of embryonal carcinoma cells
Cell counts
in the ventral horn in a Xenopus with
naturally occurring supernumerary hind
in mouse: PAPAIOANNOU, EVANS &
GRAHAM 54, 277
Cell cycle
control of, and sequential cell recruitment
during mesoderm formation in the
embryo of Xenopus laevis: COOKE 53,269
during new pattern formation in response
to implanted organizers in Xenopus:
injection of inner cell mass cells into the:
GARDNER & ROSSANT 52, 141
interaction between inner cell mass and
trophectoderm II. Fate of polar trophectoderm: COPP 51, 109
COOKE 51, 165
time-dependent effects of a-amanitin on
formation: BRAUDE 52, 193
Blastoderm
of chick,
limbs: LAMB 49, 13
in regenerating amphibian limb, blockage
by denervation and X-irradiation:
MADEN 50, 169
differentiation
ZAGRIS 50, 47
capacity
of:
Cell death
in mouse embryos as a result of injection
Subject Index
of 5-bromodeoxyuridine into pregnant
females: BANNIGAN & LANGMAN 50, 123
Cell differentiation
and fate maps in the amphibian embryo an experimental study: LANDSTROM &
L0VTRUP 54, 113
in isolated inner cell masses of mouse
blastocysts in vitro; onset of specific gene
expression: DZIADEK 53, 367
Cell killing
by X-irradiation, effect on pattern formation in the chick limb: WOLPERT, TICKLE
& SAMPFORD 50, 175
Cell movements
during preimplantation mouse development : GRAHAM & LEHTONEN 49, 277
Cell number
in embryo of Xenopus laevis
i. Cell cycle during new pattern formation in response to implanted organizers: COOKE 51, 165
n. mesoderm formation: COOKE 53, 269
Cell patterns
in preimplantation mouse development:
GRAHAM & LEHTONEN 49, 277
Cell sorting
chemotactic, in Dictyostelium discoideum:
MATSUKUMA & DURSTON 50, 243
Cell surface pattern
in a mutant of Tetrahymena thermophila
with partial mirror-image duplication
i. Analysis of the phenotype: JERKADZIADOSZ & FRANKEL 49, 167
ii. Nature of genie control: FRANKEL &
JENKINS 49, 203
Cell-to-cell interactions
in the early mouse embryo: GAUNT &
PAPAIOANNOU 54, 263
Cellular adhesion
differential, as the mechanism of sortingout of slime molds; STERNFELD 53, 163
Chemotactic
cell sorting in Dictyostelium discoideum:
MATSUKUMA & DURSTON 50, 243
Chick
blastoderm in culture, differentiation
capacity: ZAGRIS 50, 47
embryo
aggregation and morphogenesis of area
opaca endoderm cells: MILOS, ZALIK
& PHILLIPS 51, 121
autonomy of tendon development in the
wing: KIENY & CHEVALLIER 49, 153
changes in collagen ultrastructure,
macroscopic properties and chemical
composition induced by /?-D-xyloside:
309
HJELLE & GIBSON 5 3 , 179
development of the segmental innervation of the forelimb: PETTIGREW,
LINDEMAN & BENNETT 49, 115
development of the tibiotarsus: biosynthetic activities of histologically
distinct regions: STOCUM, DAVIS, LEGER
& CONRAD 54,155
experimental investigation into the
possible origin of pancreatic islet cells
from rhombencephalic neurectoderm:
ANDREW & KRAMER 52, 23
influence of local environment on the
organization of mesenchyme cells:
FISHER & SOLURSH 49, 295
influence of the lower beak on the interorbital septum-prenasal process complex : WOUTERLOOD & VAN PELT 49, 61
ontogeny and localization of crystallins
during lens development in normal
and Hy-1 (hyperplastic lens epithelium): MCDEVITT & CLAYTON 50, 31
production of erythropoietic colonyforming units: SAMARUT, JURDIC &
NIGON 50, 1
responses to external cAMP sources:
GINGLE & ROBERTSON 53, 353
reversible inhibition of chondrogenic
expression by certain hyaluronidase
preparations: PENNYPACKER & GOETINCK 53, 91
role of extracellular matrix in formation
of sclerotome: SOLURSH, FISHER, MEIER
& SINGLEY 54, 75
segmental innervation of forelimb following embryonic manipulation: BENNETT, LINDEMAN & PETTIGREW 54, 141
somite formation: HORNBRUCH, SUMMERBELL & WOLPERT 51, 51
somite segmentation: BELLAIRS 51, 227
waves propagated during development:
ROBERTSON 50, 155
limb bud
effect of cell killing by X-irradiation on
pattern formation: WOLPERT, TICKLE
& SAMPFORD 50, 175
in vitro studies on the differentiation of
mesoderm subjacent to the apical
ectodermal ridge: KOSHER, SAVAGE &
CHAN 50, 75
proteoglycan heterogeneity in chondrogenic differentiation: VASAN & LASH
49,47
target tissue of polarizing activity in the
induction of supernumerary structures : MACCABE & PARKER 53, 67
Subject Index
310
limb morphogenesis, evidence that the
zone of polarizing activity is active:
SUMMERBELL 50, 217
marginal zone cells as the primitive streakinducing component of the primary
hypoblast: AZAR & EYAL-GILADI 52, 79
wing bud, evidence for a positional
memory during development: SMITH 52,
105
wing
autonomy of tendon development:
KIENY & CHEVALLIER 49, 153
Chimaerism
in the mouse
factors regulating the degree and extent
of experimental: MYSTKOWSKA, OZDZENSKI & NIEMIERKO 5 1 , 217
produced by blastocyst injection of
inner cell mass cells: GARDNER &
ROSSANT 52, 141
used to investigate the lethal yellow
AVIAV embryo: PAPAIOANNOU &
GARDNER 52, 153
Chlorambucil
effects on skeletogenesis in fetal rat:
BRUMMETT & JOHNSON 53, 203
Cholinesterases
activity during the development of Xenopus
laevis: GINDI & KNOWLAND 51, 209
Chondrocytes
histological changes during development
of chick tibiotarsus: STOCUM, DAVIS,
LEGER & CONRAD 54, 155
Chondrogenesis
in embryonic chick limb buds, role of
monomeric and aggregate proteoglycans: VASAN & LASH 49, 47
Chondrogenic expression
reversible inhibition by certain hyaluronidase preparations: PENNYPACKER &
GOETINCK 53, 91
Chondrogenic potential
of ectomesenchyme cells in avian embryo:
THOROGOOD 54,185
Chondroitin sulfate
role m chick embryonic cartilage: HJELLE
& GIBSON 53, 179
synthesis during development of chick
tibiotarsus: STOCUM, DAVIS, LEGER &
CONRAD 54, 155
'Clock' mechanism
determining time of tissue-specific enzyme
development during ascidian embryogenesis: SATOH 54, 131
Cobalt chloride
impregnation technique to examine central
optic pathways in Xenopus: STEEDMAN,
STIRLING & GAZE 50, 199
Cockroach
post-embryonic determination of the ecdysial line: SHELTON 49, 27
Colchicine
effects on spermiogenesis in the mouse:
HANDEL 51, 73
Collagen
synthesis during development of chick
tibiotarsus: STOCUM, DAVIS, LEGER &
CONRAD 54, 155
ultrastructure, macroscopic properties and
chemical composition induced by /fl-Dxyloside: HJELLE & GIBSON 53, 179
Compartment(s)
boundaries and bristle patterns in the
tarsi of Drosophila: LAWERENCE, STRUHL
& MORATA 51, 195
in regenerating wing discs of Drosophila:
SZABAD, SIMPSON & NOTHIGER 49, 229
Concanavalin A
binding to amphibian embryo and effect
on morphogenesis: BOUCAUT et al. 51, 63
Congenital
malformations caused by 5-bromodeoxyuridine in the mammalian embryo:
BANNIGAN & LANGMAN 5 0 , 123
Cortical
layer of non-nucleated fragments of the
newt's egg: SAWAI 51, 183
Cranial neurulation
effect of oxygen concentration in cultured
rat embryos: MORRISS & NEW 54,17
Crinkly-tail (cy)
a mild skeletal mutant in the mouse:
JOHNSON & WALLACE 5 3 , 327
Crystallins
during lens development in normal and
Hy-1 chick embryos: MCDEVITT & CLAY-
50, 31
Culture conditions
for maintenance of early somite mouse
embryos during organogenesis: SADLER
49, 17
Cyclic
changes in cortical layer of non-nucleated
fragments of the newt's egg: SAWAI 51,
183
Cynops pyrrhogaster
cyclic changes in the cortical layer of nonnucleated fragments of the egg: SAWAI
51, 183
Cytochalasin B
treatment of ascidian embryos resulting in
cleavage arrest: SATOH 54,131
TON
Subject Index
treatment of 8-cell mouse embryos: GRANHOLM, BRENNER & RECTOR 5 1 , 97
Cytological damage
to egg of Callosobruchus maculatus Fabr.
(Coleoptera) resulting in incomplete
segment pattern: VAN DER MEER 51, 1
Cytoplasm
dorsal yolk-free and immediately surrounding, in egg of Xenopus laevis, ultrastructure: HERKOVITS & UBBELS 51, 155
Cytoplasmic protein synthesis
in preimplantation mouse embryos: HOWE
& SOLTER 52, 209
Dark-reared mice
development of retinal synaptic arrays in
the inner plexiform layer: FISHER 54,219
Decompaction
prolonged, effect on development of preimplantation mouse embryo: JOHNSON
et al. 54, 241
Deoxyribonucleic acid (DNA)
synthesis after polyspermic fertilization in
the axolotl: WAKIMOTO 52, 39
Deoxyribonuclease (DNase)
from mouse teratocarcinoma cells during
cell differentiation, immunofiuorescence
studies: SORIANO & PAULIN 54, 37
Diazo-oxo-norleucine (DON)
inhibition of tooth germ differentiation in
311
Double monsters
avian, use in studies on induction of
nervous system: ULSHAFER & CLAVERT
53, 237
Drosophila melanogaster
acquisition of differentiative capacity in
imaginal discs: BOWNES & ROBERTS 49,
103
bristle patterns and compartment boundaries in the tarsi: LAWRENCE, STRUHL &
MORATA 51, 195
eye morphogenesis, the time of action of
three mutations: RANSOM 53, 225
oocyte, temporal stability: WYMAN 50, 137
regeneration and compartments in wing
discs: SZABAD, SIMPSON & NOTHIGER 4 9 ,
229
replacement of posterior by anterior
structures in wing caused by the mutation apterous-blot: WHITTLE 53, 291
spermatogenesis in in vitro cultures: CROSS
& SHELLENBARGER 5 3 , 345
Duplicates
arising during regeneration in axolotl:
WALLACE & WATSON 49, 243
DYFC (dorsal yolk-free cytoplasm)
in egg of Xenopus laevis: HERKOVITS &
UBBELS 51, 155
vitro: HURMERINTA, THESLEFF & SAXEN
Ecdysial line
post-embryonic determination in the cock-
50,99
Dictyostelium discoideum
chemotactic cell sorting: MATSUKUMA &
Elevation
of lesioned palatal shelves of mouse in
DURSTON 50, 243
gene expression: KAY 52, 171
sorting-out behaviour of disaggregated
cells in the absence of morphogenesis:
TASAKA & TAKEUCHI 49, 89
Dictyostelium
species, evidence for differential cellular
adhesion as the mechanism of sortingout: STERN FELD 53, 163
Differentiation capacity
acquisition in imaginal wing discs of
Drosophila melanogaster: BOWNES &
ROBERTS 49, 103
of unincubated chick blastoderm in culture: ZAGRIS 50, 47
Digit fusion
in the mouse embryo: MACONNACHIE 49,
259
Disaggregated cells
sorting-out behaviour in the absence of
morphogenesis in Dictyostelium discoideum : TASAKA & TAKEUCHI 49, 89
roach : SHELTON 49, 27
vitro: BRINKLEY & VICKERMAN 54, 229
Embryonal carcinoma (EC) cells
cell line (cl45b), growth and differentiation: PAPAIOANNOU, EVANS, GARDNER
& GRAHAM 54, 277
metabolic co-operation with embryonic
cells of the mouse: GAUNT & PAPAIOANNOU 54, 263
Endoderm cells
of area opaca from primitive-streak chick
embryo: MILOS, ZALIK & PHILLIPS 51,121
of quail embryos, the development of
hepatogenic potency: FUKUDA 52, 49
Enzyme analysis
of mouse extra-embryonic tissues: SHERMAN & ATIENZA-SAMOLS 52, 127
Epithelial cells
changes associated with palatal shelf reorientation in the hamster: SHAH 53, 1
Epithelial fusion
during digit development in the mouse
embryo: MACONNACHIE 49, 259
Subject Index
312
Erythrocytes
production during chick embryo development : SAMARUT, JURDIC & NIGON 50, 1
Erythroid
colony-forming technique in the mouse:
RICH & KUBANEK 50, 57
Erythropoiesis
hepatic and maternal in the mouse detected
by the erythroid colony-forming technique: RICH & KUBANEK 50, 57
in mouse foetal liver II. Topographic
histology: NESSI & BOZZINI 52, 13
Erythropoietic
colony-forming units production during
chick embryo development: SAMARUT,
JURDIC & NIGON 50, 1
Extracellular matrix
role in formation of the sclerotome in chick:
SOLURSH, FISHER, MEIER & S1NGLEY 54, 75
Extra-embryonic tissues
in mouse, enzyme, analysis: SHERMAN &
AT1ENZA-SAMOLS 52, 127
Eye
anlage, rotations and translocations in
Xenopus embryos: GAZE,
COOKE & CHUNG 53, 39
FELDMAN,
morphogenesis in Drosophila, time of
action of three mutations: RANSOM 53,225
mutations, eyeless*, eyeless dominant and
sine oculis, their time of action in Drosophila : RANSOM 53, 225
Fate maps
and cell differentiation in the amphibian
embryo - an experimental study: LANDSTROM & L0VTRUP 54, 113
FRANKEL & JENKINS 49, 203
Goldfish
optic fibre interaction controlling the
locations of their terminals in optic
tectum: COOK 52, 89
Gonads
morphology in spontaneous mouse hermaphrodites: WHITTEN, BEAMER & BYSKOV
52,63
Grasshopper
Schistocerca nitens, quantitative staging of
embryonic development: BENTLEY,
KESHISHIAN, SHANKLAND & TOROIANRAYMOND 54, 47
Gromphadorhina portentosa
post-embryonic determination of the ecdysial line: SHELTON 49, 27
Haemoglobin
synthesis by unincubated chick blastoderms in culture: ZAGRIS 50, 47
Haemopoiesis
in mouse during hepatic period II. Topographic histology: NESSI & BOZZINI 52,13
Hamster
cellular mechanism for the palatal shelf
reorientation from a vertical to a horizontal plane: SHAH 53, 1
experimentally induced axial skeletal
(dysraphic)
disorders: MARIN-PADILLA
53, 15
Hensen's node
grafts in early chick embryo: HORNBRUCH,
SUMMERBELL & WOLPERT 5 1 , 51
Hepatic
erythropoiesis in the mouseII. Topographic
Fertilization
histology: NESSI & BOZZINI 52, 13
polyspermic in the axolotl, DNA syn- Hepatocytes
thesis : WAKIMOTO 52, 39
changes in cell population during erythroFollicle cells
poiesis in the mouse: RICH & KUBANEK
differentiation and proliferation during
50,57
oocyte growth in lizard: FILOSA, TADDEI
Hepatogenic potency
& ANDREUCCETTI 54, 5
in the endoderm of quail embryos:
FUKUDA 52, 49
Gap junctions
as a channel for positional communication
in hydra: WAKEFORD 54,171
Hermaphrodites
spontaneous mouse, morphology of the
foetal
gonads:
WHITTEN,
BEAMER &
Gene expression
BYSKOV 52, 63
. in Dictyostelium discoideum, mutually Heterotopic transplant
antagonistic roles of cAMP and aminto chick hosts showing influence of local
monia: KAY 52, 171
environment on mesenchyme migration:
specific, onset in isolated inner cell masses
FISHER & SOLURSH 49, 295
of mouse blastocysts in vitro: DZIADEK Hyaluronic acid
53, 367
role in expansion of intercellular spaces
Genie control
during sclerotome formation in chick:
of symmetry in Tetrahymena thermophila:
SOLURSH, FISHER, MEIER & SINGLEY 54, 75
Subject Index
Hyaluronidase
reversible inhibition of chondrogenic expression : PENNYPACKER & GOETINCK 53,
91
Hydra
cell contact and positional communication:
WAKEFORD 54, 171
313
from the preimplantation mouse embryo: JOHNSON 53, 335
Interorbital septum-prenasal process (ISPP)
complex in the chick embryo, influence of
lower beak: WOUTERLOOD & VAN PELT
49,61
in vitro development
following cytochalasin B treatment of
Hy-I (hyperplastic lens epithelium)
mouse embryos: GRANHOLM, BRENNER
chick embryos, crystallins: MCDEVITT &
& RECTOR 51, 97
CLAYTON 50, 31
Ion levels
Hypoblast
and phosphatase activity associated with
chick primary, marginal zone cells as the
normal and abnormal skeletogenesis in
primitive streak-inducing component:
AZAR & EYAL-GILADI 5 2 , 79
Immunofluorescence
studies on deoxyribonuclease from mouse
teratocarcinoma cells during cell differentiation : SORIANO & PAULIN 54, 37
Inhibition
of tooth germ differentiation in vitro by
diazo-oxo-norleucine (DON): HURMERINTA, THESLEFF & SAXEN 50, 99
Inner cell mass (ICM)
and trophectoderm of mouse blastocyst
II. Fate of polar tophectoderms: COPP
51, 109
formation in preimplantation mouse embryo, effect of prolonged decompaction:
JOHNSON et al. 54, 241
molecular differentiation when isolated
from the preimplantation mouse em-
Jaw regeneration
effects of X-rays on the adult newt,
Notophthalmus
viridescens:
DONALDSON 5 3 , 315
WERTZ &
Karyotype
of embryonal carcinoma cells in mouse:
PAPAIOANNOU, EVANS, GARDNER & GRAHAM 54, 277
Lacerta sicula
follicle cells, differentiation and proliferation during oocyte growth: FILOSA,
TADDEI & ANDREUCCETTI 54, 5
Lens
development in normal and Hy-1 (hyperplastic lens epithelium) chick embryos:
MCDEVITT & CLAYTON 50, 31
bryo: JOHNSON 53, 335
of mouse blastocysts, cell differentiation
when isolated: DZIADEK 53, 367
of mouse injected into genetically dissimilar blastocysts: GARDNER & ROSSANT
52, 141
of the lethal AV\AV mouse embryo injected into genetically marked blastocysts: PAPAIOANNOU & GARDNER 52, 153
Inner plexiform layer (IPL)
development of retinal synaptic arrays in
dark-reared mice: FISHER 54, 219
Innervation
segmental
development in chick forelimb: PETTIGREW, LINDEMAN & BENNETT 49, 115
of chick forelimb following embryonic
manipulation: BENNETT, LINDEMAN &
PETTIGREW 54, 141
Insect
egg, constriction-induced cytological
damage: VAN DER MEER 51, 1
Inside Cells (1C)
molecular differentiation
fetal rat: BRUMMETT & JOHNSON 53, 203
when isolated
Lesions
of mouse palatal shelves in vitro: BRINKLEY
& VICKERMAN 54, 229
Lethal gene
Bid in the mouse, developmental studies:
VANKIN & CASPARI 49, 1
c25H/c25H
in
mouse
embryos,
ultra-
s t r u c t u r e : NADIJCKA, HILLMAN&GLUECKSOHN-WAELSCH 5 2 , 1
oligosyndactylism{Os)
in the mouse:
PATERSON 52, 115
yellow AV\AV embryo, investigation using
mouse chimaeras: PAPAIOANNOU &
GARDNER 52, 153
Lethality
of radioisotopes in early mouse embryos:
MACQUEEN 52, 203
Limb bud
avian, muscle-forming potential of the
non-somitic cells: MCLACHLAN & HORNBRUCH 54, 209
chick
effect of cell killing by X-irradiation on
Subject Index
314
pattern formation: WOLPERT, TICKLE
& SAMPFORD 50, 175
in vitro studies on differentiation of
mesoderm subjacent to apical ectodermal
ridge:
KOSHER,
SAVAGE &
CHAN 50, 75
polarizing activity in the induction of
supernumerary structures: MACCABE
& PARKER 53, 67
proteoglycan heterogeneity in chondrogenic differentiation: VASAN & LASH
49,47
Limb morphogenesis
in chick, evidence that the zone of polarizing activity is active during normal:
SUMMERBELL 50, 217
Limb regeneration
effects of X-rays in the adult newt,
tionships: abnormalities in experimental axial skeletal (dysraphic)
disorders: MARIN-PADILLA 53, 15
Marginal zone cells
as the primitive streak-inducingcomponent
of the primary hypoblast in the chick:
AZAR & EYAL-GILADI 52, 79
Maternal effect
linked to the ac mutation, correction by
injury of the egg in the salamander,
Pleurodeles waltlii: FERNANDEZ 53, 305
Meckel's cartilage
evidence that position and size are under
epigenetic influence of upper beak in
the chick: WOUTERLOOD & VAN PELT 49,61
Meiosis
during spermatogenesis in Drosophila:
CROSS & SHELLENBARGER 5 3 , 345
after
Membrane bone
periosteal cells, in vitro studies on skeletogenic potential: THOROGOOD 54,185
Mesenchymal cells
changes associated with palatal shelf re-
denervation of the blastema: GRIM &
CARLSON 54, 99
influence of local environment on organi-
Notophthalmus
viridescens:
DONALDSON 5 3 , 315
WERTZ &
role of irradiated tissue during pattern
formation: MADEN 50, 235
in newt, formation
of muscles
surface potentials and control of, in
amphibia: LASSALLE 53, 213
Limbs
chick
development of the segmental innervation of the forelimb: PETTIGREW,
LINDEMAN & BENNETT 49, 115
segmental innervation of developing
forelimb following embryonic manipulation: BENNETT, LINDEMAN &
PETTIGREW 54, 141
supernumerary in Xenopus, ventral horn
cell counts: LAMB 49, 13
Lizard
• follicle cells, differentiation and proliferation during oocyte growth: FILOSA,
zation : FISHER & SOLURSH 49, 295
Mesenchyme
effect on acquisition of hepatogenic
potency in the endoderm of quail
embryos: FUKUDA 52, 49
formation, role of extracellular matrix in
formation
of sclerotome: SOLURSH,
FISHER, MEIER & SINGLEY 54, 75
Mesoderm
formation in embryo of Xenopus laevis,
sequential cell recruitment and control
of cell cycle: COOKE 53, 269
subjacent to apical ectodermal ridge of
embryonic chick limb bud; in vitro
studies on differentiation:
SAVAGE & CHAN 50, 75
KOSHER,
Metabolic cooperation
between embryonic and embryonal carci-
TADDEI & ANDREUCCETTI 54, 5
Macromolecular synthesis
in the fusion epithelium of the developing
rat primary palate in vitro: FIGUEROA &
PRATT 50, 145
Male-sterile
:
mutation in Drosophila melanogaster,
dynamics of spermatogenesis in in vitro
cultures: CROSS & SHELLENBARGER53, 345
Mammalian
embryo
cellular effect of 5-bromodeoxyuridine:
BANNIGAN & LANGMAN 50, 123
notochordal-basichondrocranium
orientation in the hamster: SHAH 53, 1
rela-
noma cells of mouse: GAUNT & PAPAIOANNOU 54, 263
Metameric order
specification in Callosobruchus maculatus
I. Incomplete segment patterns: VAN
DER MEER 5 1 , 1
Methylglyoxal-Bis (guanylhydrazone)
(MeGAG)
inhibition of spermidine and spermine
synthesis in the preimplantation mouse
embryo: ALEXANDRE 53, 145
Methysergide
effects on palate rotation in mouse embryo
315
Subject Index
culture: WEE, BABIARZ, ZIMMERMAN &
ZIMMERMAN 53, 75
Microtubules
an essential role in spermiogenesis in the
mouse: HANDEL 51, 73
Mirror-image duplication
of cell surface pattern in a mutant of
Tetrahymena thermophila
i. Analysis of the phenotype: JERKADZIADOSZ & FRANKEL 4 9 , 167
ii. Nature of genie control: FRANKEL &
JENKINS 49, 203
Mitochondria
in normal and high O2-cultured embryos
of rat: MORRISS & NEW 54,17
Modelization
of chick embryo erythropoiesis, an attempt
at: SAMARUT, JURDIC & NIGON 50, 1
Molecular differentiation
of inside cells and inner cell masses isolated
from the preimplantation mouse emdiscoideum:
TASAKA & TAKEUCHI 4 9 , 89
effect
of Concanavalin
vitro: BRINKLEY & VICKERMAN 54, 229
investigation of the lethal yellow Av\
Av: PAPAIOANNOU & GARDNER 52, 153
lethality of radioisotopes: MACQUEEN 52,
203
metabolic cooperation between embryonic and embryonal carcinoma
cells: GAUNT & PAPAIOANNOU 54, 263
preimplantation, cell patterns in development: GRAHAM & LEHTONEN 49,
277
preimplantation, cytoplasmic and nuclear protein synthesis: HOWE &
SOLTER 52, 209
preimplantation, effect of prolonged
decompaction on development:
JOHNSON et al. 54, 241
preimplantation, molecular differentiation of inside cells and inner cell
masses: JOHNSON 53, 335
bryo: JOHNSON 53, 335
Morphogenesis
absence in Dictyostelium
FUJIMOTO & YANAGISAWA 50, 21
elevation of lesioned palatal shelves in
A-binding in
preimplantation, utilization of an inhibitor of spermidine and spermine
synthesis as a tool for studying
cavitation: ALEXANDRE 53, 145
amphibian embryo: BOUCAUT et al. 51,
studies on the lethal oligosyndactylism
63
Mouse
blastocyst(s)
interaction between inner cell mass and
trophectoderm II. Fate of polar tro-
study of digit fusion: MACONNACHIE 49,
259
ultrastructure of lethal c25H/c25H:
phectoderm: COPP 51, 109
in vitro, cell differentiation in isolated
inner cell masses: DZIADEK 53, 367
time-dependent effects of a-amanitin:
BRAUDE 52, 193
:
crinkly-tail (cy), a mild skeletal mutant:
JOHNSON & WALLACE 53, 327
dark-reared, development of retinal
synaptic arrays in the inner plexiform
layer: FISHER 54, 219
embryo .
1-cell, adenylation and ADP-ribosylation: YOUNG & SWEENEY 49, 139
8-cell, in vitro development following
cytochalasin B treatment: GRANHOLM,
BRENNER & RECTOR 5 1 , 97
cellular effect of 5-bromodeoxyuridine:
BANNIGAN & LANGMAN 50, 123
early somite, culture: SADLER 49, 17
effects of serotonin and its antagonists
on palate rotation in culture: WEE,
BABIARZ, ZIMMERMAN & ZIMMERMAN
53,75
effect of the T-mutation on histogenesis:
(Os): PATERSON 52, 115
NADIJCKA, HILLMAN & GLUECKSOHNWAELSCH 52, 1
embryonal carcinoma cell line (cl45b)
growth and differentiation: PAPAIOAN-
NOU, EVANS, GARDNER & GRAHAM 54, 277
extra-embryonic tissues, enzyme analysis:
SHERMAN & ATIENZA-SAMOLS 52, 1 27
factors regulating the degree and extent of
experimental chimaerism: MYSTKOWSKA,
OZDZENSKI & NIEMIERK 5 1 , 217
foetal
gonads in spontaneous
herma-
phrodites, morphology: WHITTEN, BEAMER & BYSKOV 52, 63
foetal haemopoiesis during hepatic period
II. Topographic
BOZZINI 52, 13
histology:
NESSI &
hepatic and maternal erythropoiesis: RICH
& KUBANEK 50, 57
inhibition of tooth germ differentiation in
vitro by diazo-oxo-norleucine (DON):
HURMERINTA, THESLEFF & SAXEN 50, 99
inner cell mass cells injected into genetically dissimilar blastocysts: GARDNER &
ROSSANT 52, 141
post-implantation
development
of the
Subject Index
316
lethal homozygote Bid: VANKIN & CAS- Nerve fibres
and formation of muscle pattern in regulating amphibian limb: GRIM & CARLSON
spermiogenesis, effects of colchicine: HAN54,99
DEL 51, 73
Nervous system
teratocarcinoma cells, immunofluorstudies on induction using avian double
escence studies on deoxyribonuclease:
PARI 49, 1
SORIANO & PAULIN 54, 37
time-dependent effects of a-amanitin on
blastocyst formation: BRAUDE 52, 193
Muscle(s)
formation in regenerating limbs of newt
after denervation of the blastema: GRIM
& CARLSON 54, 99
forming potential of non-somitic cells of
early avian limb bud: MCLACHLAN &
HORNBRUCH 54, 209
segmental innervation in chick forelimb:
BENNETT, LINDEMAN & PETTIGREW 54, 141
Musculature
thoracic and appendicular, origin in bird
embryos: CHEVALLIER 49, 73
Mutant
av av, periodic albino of Xenopus: MACMILLAN 52, 165.
c25H/c25H, lethal gene in mouse embryos,
ultrastructure: NADIJCKA, HILLMAN &
GLUECKSOHN-WAELSCH 52, 1
crinkly-tail (cy) in the mouse: JOHNSON &
WALLACE 53, 327
oligosyndactylism (Os) in the mouse:
PATERSON 52, 115
yellow AVIAV
mouse embryos: PAPAIO-
ANNOU & GARDNER 52, 153
Mutant clone CU-127
of Tetrahymena thermophila showing partial mirror-image duplication of cell
surface pattern
i. Analysis of the phenotype: JERKADZIADOSZ & FRANKEL 49, 167
ii. Nature of genie control: FRANKEL &
JENKINS 49, 203
Mutation(s)
ac in the salamander Pleurodeles waltlii,
correction of the linked maternal effect:
FERNANDEZ 53, 305
apterous-blot in Drosophila wing, replacement of posterior by anterior structures:
WHITTLE 53, 291
eyeless2, eyeless dominant and sine oculis,
their time of action in Drosophila:
RANSOM 53, 225
male-sterile, in Drosophila melanogaster,
dynamics of spermatogenesis in in vitro
cultures: CROSS & SHELLENBARGER 53,345
J-mutation, effect on histogenesis of mouse
embryo: FUJIMOTO & YANAGISAWA 50, 21
monsters: ULSHAFER & CLAVERT 53, 237
Neural crest
and cranial neural fold morphogenesis in
rat embryos cultured in different oxygen
concentrations: MORRISS & NEW 54, 17
Neural induction
study using avian double monsters: ULSHAFER & CLAVERT 53, 237
Neuroepithelium
cellular changes as a result of different
O 2 concentrations in cultured rat
embryos: MORRISS & NEW 54,17
Neurotrophic
blocks in the blastemal cell cycle in regenerating amphibian limb: MADEN 50,
169
Newt
Cynops pyrrhogaster
cyclic changes in the cortical layer of the
egg: S A W A I S I , 183
Notophthalmus viridescens
effects of X-rays on regeneration: WERTZ
& DONALDSON 53, 315
formation of muscles in regenerating
limbs after denervation of blastema:
GRIM & CARLSON 54, 99
Non-nucleated
fragments of newt's egg, cyclic changes in
the cortical layer: SAWAI 51, 183
Notochord
effects during induction of nervous system,
studies using avian double monsters:
ULSHAFER & CLAVERT 53, 237
Notochordal-basichondrocranium relationships
abnormalities in experimental axial skeletal (dysraphic) disorders: MARINPADILLA 53, 15
Notophthalmus viridescens (SEE Newt)
Nuclear protein synthesis
in preimplantation mouse embryos: HOWE
& SOLTER 52, 209
Oligosyndactylism (Os)
in the mouse, in vivo and in vitro studies:
PATERSON 52, 115
Oocyte
Drosophila, the temporal stability: WYMAN
50, 137
growth in Lacerta sicula, differentiation
Subject Index
and
proliferation
of follicle
cells:
FILOSA, TADDEI & ANDREUCCETTI 54, 5
Optic axons
in Xenopus, patterns of terminal distribution: GAZE, KEATING, OSTBERG &
CHUNG 53, 103
Optic fibre(s)
anomalous ipsilateral projection in Xenopus induced by larval tectal ablation:
STRAZNICKY & GLASTONBURY 50, 111
central pathways in Xenopus tadpoles:
STEEDMAN, STIRLING & GAZE 50, 199
in goldfish optic tectum, control of the
location of the terminals: COOK 52, 89
pathway selection, an autoradiographic
study in Xenopus: STRAZNICKY, GAZE &
HORDER 50, 253
Optic tectum
of goldfish, interactions between optic
fibres controlling the locations of their
terminals: COOK 52, 89
Organizers
implants in Xenopus laevis, cell cycle
during new pattern formation: COOKE
51, 165
Organogenesis
in early somite mouse embryos maintained
in culture: SADLER 49, 17
Orientation
of visuotectal map in Xenopus: developmental aspects: GAZE, FELDMAN, COOKE
& CHUNG 53, 39
Orthotopic transplants
into chick hosts showing influence of local
environment on mesenchyme migration:
FISHER & SOLURSH 4 9 , 295
Oryzias latipes (Medaka)
waves propagated during embryogenesis:
observations and comments: ROBERTSON
50, 155
Oxygen concentration
effect on morphogenesis of cranial neural
folds and neural crest in cultured rat
embryos: MORRISS & NEW 54,17
317
Pancreatic islet cells
their possible origin from
rhombence-
phalic neurectoderm: ANDREW & KRAMER
52,23
Pathway selection
by optic fibres of ventral retinal origin
during development and in regeneration
in Xenopus:
STRAZNICKY,
HORDER 50, 253
GAZE
&
Pattern(s)
bristle, and compartment boundaries in
the tarsi of Drosophila: LAWRENCE,
STRUHL & MORATA 5 1 , 195
cell surface, a partial mirror-image duplication in a mutant of Tetrahymena
thermophila:
i. Analysis of the phenotype: JERKADZIADOSZ & FRANKEL 49, 167
ii. Nature of genie control: FRANKEL &
JENKINS 49, 203
formation
during somitogenesis in amphibian
embryos;
i. temporal factors: PEARSON & ELSDALE 51, 27
II. origin of two factors involved in
somite specification: ELSDALE &
PEARSON 53, 245
effect of cell killing by X-irradiation in
the chick limb: WOLPERT, TICKLE &
SAMPFORD 50, 175
in the regenerating limb, role of irradiated tissue: MADEN 50, 235
primary in embryo of Xenopus laevis
i. cell cycle during new pattern formation in response to implanted
organizers: COOKE 51, 165
II.mesodermformation: COOKE53, 269
incomplete segment, resulting from
constriction-induced damage to insect
egg: VAN DER MEER 51, 1
regulation, in the medio-lateral axis
during post-embryonic determination
of the ecdysial line in the cockroach:
SHELTON 49, 27
Palatal shelf(ves)
elevation after lesion in vitro: BRINKLEY &
VICKERMAN 54, 229
reorientation from a vertical to a horizontal plane in hamster: SHAH 53, 1
Palate (SEE Primary palate; Secondary palate)
Palate morphogenesis
effects of serotonin and its antagonists on
rotation in mouse embryo culture: WEE,
BABIARZ, ZIMMERMAN & ZIMMERMAN 5 3 ,
75
Percent-system
of staging the embryonic development of
the grasshopper, Schistocerca nitens:
BENTLEY, KESHISHIAN, SHANKLAND &
TOROIAN-RAYMOND 54, 47
Periodic albino mutant (APAP)
of Xenopus, an analysis of pigment cell
development: MACMILLAN 52, 165
Periosteal cell
membrane bone, in vitro studies on skeletogenic potential: THOROGOOD 54, 185
318
Subject Index
Phenotypic
analysis of mutant of Tetrahymena with a
partial mirror-image duplication of cell
surface pattern: JERKA-DZIADOSZ &
FRANKEL 49, 167
Phospatase
activity and ion levels associated with
normal and abnormal skeletogenesis in
fetal rat: BRUMMETT & JOHNSON 53, 203
Photometric method
for quantifying coat chimaerism in mouse:
MYSTKOWSKA, OZDZENSKI & NIEMIERKO
51, 217
Pigment cell
development in the periodic albino mutant
of Xenopus: MACMILLAN 52, 165
Planaria
role of catecholamines and serotonin in
regeneration: FRANQUINET 51, 85
Protein synthesis
cytoplasmic and nuclear, in preimplantation mouse embryos: HOWE & SOLTER
52, 209
during development of Xenopus: BALLANTINE, WOODLAND & STURGESS 5 1 , 137
Proteoglycan
heterogeneity in the chondrogenic differentiation of embryonic chick limb buds:
VASAN & LASH 49, 47
Quail
embryos
development of hepatic potency in the
endoderm: FUKUDA 52, 49
transplantation to chick embryos of
mesenchyme: FISHER & SOLURSH 49,
295
grafts of Hensen's node into early chick
Pleurodeles waltlii
embryo: HORNBRUCH, SUMMERBELL &
Concanavalin A binding to embryo and
WOLPERT 51, 51
effect on morphogenesis: BOUCAUT et al.
nuclear marker used to investigate pancreatic islet cells: ANDREW & KRAMER 52,
51,63
23
correction of the maternal effect linked to
wing anlagen grafted into extra-embryonic
to the ac mutation by injury of the egg:
coelom of chicks: MCLACHLAN & HORNFERNANDEZ 53, 305
BRUCH 54, 209
Polar trophectoderm
fate in mouse blastocysts: COPP 51, 109
Radioisotopes
Polarizing activity
lethality in early mouse embryos: MACof chick limb bud in the induction of
QUEEN 52, 203
supernumerary structures: MACCABE &
Rat
PARKER 53, 67
embryo
Polyamine synthesis
effect of oxygen concentration on morand blastocyst formation in the mouse
phogenesis of cranial neural folds and
embryo: ALEXANDRE 53, 145
neural crest: MORRISS & NEW 54, 17
Polycelis tenuis
phosphatase activity and ion levels
role of serotonin and catecholamines in
associated with normal and abnormal
regeneration: FRANQUINET 51, 85
skeletogenesis: BRUMMETT & JOHNSON
Polyspermic fertilization
53, 203
in the axolotl, DNA synthesis: WAKIMOTO
primary palate, autoradiographic study of
52,39
macromolecular synthesis in the fusion
Positional communication
epithelium: FIGUEROA & PRATT 50, 145
and cell contact in hydra: WAKEFORD 54,171
Regeneration
Positional memory
and compartments in wing discs of
in the development of the chick wing bud:
SMITH 52, 105
Primary palate
of rat in vitro, autoradiographic study of
macromolecular synthesis in the fusion
epithelium: FIGUEROA & PRATT 50, 145
Primitive streak
chick embryo, aggregation and morphogenesis of area opaca endoderm cells:
MILOS, ZALIK & PHILLIPS 5 1 , 121
induction by marginal zone cells in the
chick: AZAR & EYAL-GILADI 52, 79
Drosophila: SZABAD, SIMPSON & NOTHIGER 49, 229
in axolotl, occurrence of duplicates:
WALLACE & WATSON 49, 243
in newt, formation of muscles after
denervation of the blastema: GRIM &
CARLSON 54, 99
nerve-dependent (limb) and nerve-independent (jaw) in the adult newt: WERTZ
& DONALDSON 53, 315
of amphibian limb, surface potentials:
Subject Index
319
BRINXLEY & VICKERMAN 54, 229
LASSALLE 53, 213
of limb blastema in the axolotl; the effect
of partial irradiation: MADEN 52, 183
of planaria, Polycelis tenuis, role of sero-
Segmental innervation
development of chick forelimb: PETTIG R E W , LINDEMAN & BENNETT 49, .1 15
tonin and catecholamines: FRANQUINET
of chick forelimb following embryonic
51,85
Regulative ability
of regeneration blastema in the axolotl;
the effect of partial irradiation: MADEN
52, 183
Retina
synaptic arrays in the inner plexiform layer
manipulation: BENNETT, LINDEMAN &
PETTIGREW 54, 141
of dark-reared mice: FISHER 54, 219
Retinal fibres
sslection of appropriate medial branch of
the optic tract, an autoradiographic
study in Xenopus: STRAZNICKY, GAZE &
HORDER 50, 253
Retinal growth
and tectal growth in larval Xenopus: GAZE,
KEATING, OSTBERG & CHUNG 5 3 , 103
Retinal projection
in Xenopus, anomalous ipsilateral optic
fibre projection induced by larval tectal
ablation: STRAZNICKY & GLASTONBURY
50,111
Retinal specificity
determination in Xenopus embryos: GAZE,
FELDMAN, COOKE & CHUNG 5 3 , 39
Retino-tectal projection
development in larval Xenopus:
GAZE,
KEATING, OSTBERG & CHUNG 5 3 , 103
Retinotectal tract
fibres examined by cobalt chloriJe impregnation technique in Xenopus: STEEDMAN, STIRLING & GAZE 50, 199
Retinotopic order
maintenance in the goldfish: COOK 52, 89
Rhombencephalic neurectoderm
as a possible source of pancreatic islet cells
in the chick: ANDREW & KRAMER 52, 23
Rotation
of mouse palate, effects of serotonin and its
antagonists: WEE, BABIARZ, ZIMMERMAN
& ZIMMERMAN 5 3 , 75
Salamander (SEE Pleurodeles waltlii)
Schistocerca nitens
quantitative staging of the embryonic
development: BENTLEY, KESHISHIAN,
SHANKLAND & TOUOIAN-RAYMOND 54, 47
Sclerotome formation
role of extracellular matrix: SOLURSH,
FISHER, MEIER & SINGLEY 54, 75
Secondary palate
conditions for closure in the mouse:
Segmentation
somite, in the chick embryo: BELLAIRS 51
227
Serotonin
effects on palate rotation in mouse embryo
culture: WEE, BABIARZ, ZIMMERMAN &
ZIMMERMAN 53, 75
role in the regeneration of the planarian,
Polycelis tenuis: FRANQUINET 51, 85
Sex determination
in the mouse: WHITTEN, BEAMER & BYSKOV
52, 63
Skeletal (dysraphic) disorders
notochordal-basichondrocranium relationships: MARIN-PADILLA 53, 15
Skeletal mutant
crinkly-tail (cy) in the mouse: JOHNSON &
WALLACE 53, 327
Skeletogenesis
normal and abnormal in fetal rat, phosphatase and ion levels: BRUMMETT &
JOHNSON 53, 203
Skeletogenic potential
of membrane bone periosteal calls, in vitro
studies: THOROGOOD 54, 185
Slime molds
differential cellular adhesion as the mechanism of sorting-out: STERNFELD 53, 163
Somite
formation in the early chick embryo:
HORNBRUCH, SUMMERBELL & WOLPERT
51,51
segmentation
in
the chick
embryo:
BELLAIRS 51, 227
Somitic mesoderm
in the development of thoracic and appendicular musculature in bird embryos:
CHEVALLIER 49, 73
Somitogenesis
in amphibian embryos
i. experimental evidence for an interaction of two temporal factors:
PEARSON & ELSDALE 5 1 , 27
ii. origins in early embryogenesis of two
factors involved in somite specification : ELSDALE & PEARSON 53, 245
Sorting-out
behaviour of disaggregated cells in the absence of morphogenesis in Dictyostelium
Subject Index
320
discoideum:
TASAKA
& TAKEUCHI
49,
89
of various cellular slime mold species:
STERNFELD 5 3 , 163
Spermatogenesis
in Drosophila melanogaster, dynamics in
in vitro cultures: CROSS & SHELLENBARGER
53, 345
Spermidine
and spermine synthesis inhibition, as a
tool for studying cavitation in mouse
embryos: ALEXANDRE 53, 145
Spermiogenesis
effects of colchicine in the mouse: HANDEL
51, 73
Staging system
of embryonic development of the grasshopper, Schistocerca nitens: BENTLEY,
KESHISHIAN, SHANKLAND
RAYMOND 5 4 , 47
& TOROIAN-
Supernumerary limbs
induction of in chick embryos: MACCABE
& PARKER 53, 67
naturally occurring in Xenopus, ventral
horn cell counts: LAMB 49, 13
Surface potentials
and the control of amphibian limb regeneration: LASSALLE 53, 213
Symmetrized egg
of Xenopus laevis, ultrastructure: HERKOVITS & UBBELS 51, 155
Symmetry
genie control of in Tetrahymena thermophila: FRANKEL & JENKINS 49, 203
Synaptogenesis
rate of in the central retina of dark-reared
mice: FISHER 54, 219
Synthesis
protein, during the development of Xenopus: BALLANTINE, WOODLAND & STURGESS
51, 137
fibres controlling the locations of their
terminals: COOK 52, 89
Temperature shocks
effects on somitogenesis in amphibian
embryos: ELSDALE & PEARSON 53, 245
Temporal factors
in specification
of somite
pattern in
amphibian embryos: PEARSON & ELSDALE
51,27
Temporal stability
of the Drosophila oocyte: WYMAN 50, 137
Tendon
development in the embryonic chick wing:
KIENY & CHEVALLIER 49, 139
Teratocarcinoma cells
of mouse, immunofiuorescence studies on
deoxyribonuclease: SORIANO &PAULIN54,
37
Teratomas
produced during histogenesis of portions
of mouse embryos homozygous for T\T
mutation: FLU IMOTO & YAN AG ISA WA 50,21
Testis capsule
effect of the T-mutation on histogenesis of
the mouse embryo under the: FUJIMOTO
& YANAGISAWA 50, 21
Tetrahymena thermophila
mutant clone, CU-127, showing a partial
mirror-image duplication of cell surface
pattern:
i. analysis of phenotype: JERKADZIADOSZ & FRANKEL 49, 1 67
ii. nature of genie control: FRANKEL &
JENKINS 49, 203
Thorax
development in bird embryos, origin of
thoracic and appendicular musculature:
CHEVALLIER 49, 73
Tibiotarsus
of chick embryo: biosynthetic activities of
histologically distinct regions: STOCUM,
DAVIS, LEGER & CONRAD 54, 155
Tarsi
of Drosophila, bristle patterns and compartment boundaries: LAWRENCE,
ROBERTSON 5 3 , 353
STRUHL & MORATA 5 1 , 195
Tectal ablation
anomalous ipsilateral optic fibre projection in Xenopus induced by: STRAZNICKY & GLASTONBURY 50, 1.11
Tectal growth
and retinal growth in larval
Time-lapse photography
of responses of the early chick embryo to
external cAMP sources: GINGLE &
Xenopus:
GAZE, KEATING, OSTBERG & CHUNG 5 3 ,
103
Tectum
optic goldfish, interaction between optic
of waves propagated during vertebrate
development: ROBERTSON 50, 155
Tissue-specific enzyme
during ascidian embryogenesis, 'clock'
mechanism determining time of development: SATOH 54, 131
Tooth
germ differentiation in vitro, inhibition by
diazo-oxo-norleucine (DON): HURMERINTA, THESLEFF & SAXE>«J 5 0 , 9 9
321
Subject Index
Transcriptional inhibitor
a-amanitin, effect on mouse blastocyst
formation: BRAUDE 52, 193
Wing bud
of chick, evidence for a positional memory
in development: SMITH 52, 105
Transformation
in Drosophila wing caused by the mutation
apterous-blot: WHITTLE 53, 291
Transplants
isotopic and isochronic, between quail and
chick embryos to investigate the origin
of pancreatic islet cells: ANDREW &
KRAMER 52, 23
Trophectoderm
and inner cell mass of mouse blastocyst II
fate of the polar trophectoderm cells:
COPP: 51, 109
of preimplantation mouse embryos, effect
of prolonged decompaction: JOHNSON
et al. 54, 241
Wing discs
of Drosophila
acquisition of differentiativc capacity:
BOWNES & ROBERTS 4 9 , 1 0 3
regeneration and compartments: SZABAD, SIMPSON & NOTHIGER 4 9 , 2 2 9
Xenopus laevis
analysis of pigment cell development in the
periodic albino mutant: MACMILLAN 52,
165
cell number in relation to primary pattern
formation
i. cell cycle during new pattern formation
in response to implanted organizers:
COOKE 51, 165
Ultrastructure
of cytoplasm
in symmetrized
egg of
Xenopus laevis: HERKOVITS & UBBELS 51,
155
of lethal
C23.K^C25K
NADIJCKA, HILLMAN
WAELSCH 5 2 , 1
mouse
embryos:
& GLUECKSOHN-
II. mesoderm formation: COOKE 53, 269
development, activity of cholinesterases
during: GINDI & KNOWLAND 51, 209
optic fibre projection, anomalous ipsilateral, induced by larval tectal ablation:
STRAZNICKY & GLASTONBURY 5 0 , 1 1 1
orientation of the visuotectal map: GAZE,
FELDMAN, COOKE & CHUNG 5 3 , 3 9
Vertebrate
development; waves propagated during:
ROBERTSON 50, .1 55
Ventral horn
cell counts in a Xenopus with naturally
occurring supernumerary hind limbs:
LAMB 49, 13
Viability
of Drosophila oocytes held for 15 days
before mating: WYMAN 50, 137
Visuotectal map
pathway selection by optic fibres of ventral
retinal origin during development and in
in Xenopus, orientation of: GAZE, FELD-
fibres: STEEDMAN, STIRLING & GAZE 50,
MAN, COOKE & CHUNG 53, 39
Wave
propagation during vertebrate development; observations and comments:
ROBERTSON 5 0 , 1 5 5
Wing
of chick embryo, autonomy of tendon
development: KIENY & CHEVALLIER 49,
153
of Drosophila, replacement of posterior by
anterior structures caused by the mutation apterous-blot: WHITTLE 53, 291
Wing anlagen
grafted from quail donors to extraembryonic coelom of chicks: MCLACHLAN & HORNBRUCH 54, 209
regeneration: STRAZNICKY, GAZE & HORDER 50, 253
protein synthesis during
development:
BALLANTINE, WOODLAND & STURGESS 5 1 ,
137
relationship between retinal and tectal
growth:
GAZE,
KEATING,
OSTBERG
&
CHUNG 53, 103
tadpoles, the central pathways of optic
199
ultrastructure of cytoplasm in the egg:
HERKOVITS & UBBELS 5 1 , 1 5 5
with naturally occurring supernumerary
hind limbs, ventral horn cell counts:
LAMB 49, 13
X-irradiation
blockage of blastemal cell cycle in regenerating amphibian limb: MADEN 50,
169
calculation of the expected effects of:
LEWIS 50, 193
effect of cell killing on pattern formation
in the chick limb: WOLPERT, TICKLE &
SAMPFORD 50, 175
effect on nerve-dependent (limb) and nerveindependent (jaw regeneration in the
322
Subject Index
adult newt: WERTZ & DONALDSON 53, P-D-xyloside
315
injected into chick embryos, changes in
of blastema, effects on pattern formation
collagen structure and properties: HJELLE
in amphibian regenerating limb: MADEN
& GIBSON 53, 179
50, 235
of somitic mesoderm showing autonomy Zone of polarizing activity (ZPA)
of tendon development in the embryonic
evidence for a role in normal chick limb
chick wing: KIENY & CHEVALLIER 49, 153
morphogenesis: SUMMERBELL 50, 217
partial, effect on regulation and limb refrom quail grafted into chick hosts: SMITH
generation in the axolotl: MADEN 52,183
52, 105
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