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1 anterior and posterior cell fates along the anteroposterior axis.
2 t patterns developing egg chambers along the anteroposterior axis.
3 and serves to polarize these cells along the anteroposterior axis.
4 or a functional division primarily along the anteroposterior axis.
5 ormation, and embryonic elongation along the anteroposterior axis.
6 notochord in the posterior, along the entire anteroposterior axis.
7 pression of genes along the dorsoventral and anteroposterior axis.
8 f the paraxial mesoderm into units along the anteroposterior axis.
9 lly differentiated cells, organized along an anteroposterior axis.
10 vulval precursor cells distributed along the anteroposterior axis.
11 anizer pattern the neural ectoderm along the anteroposterior axis.
12 sgene was consistently seen across the whole anteroposterior axis.
13 pecification of segmental identity along the anteroposterior axis.
14 itions the migrating Q descendants along the anteroposterior axis.
15 the caudal aspect of the embryo and thus the anteroposterior axis.
16 al is required for patterning the developing anteroposterior axis.
17 omponent of the sperm normally specifies the anteroposterior axis.
18 a fluid-to-solid tissue transition along the anteroposterior axis.
19 rived STR promotes cell elongation along the anteroposterior axis.
20 dermal fates depending on position along the anteroposterior axis.
21 body forward or backward along the sagittal-anteroposterior axis.
22 of the conceptus or failure to elongate the anteroposterior axis.
23 new gut branches are added along the entire anteroposterior axis.
24 ange in signaling by the notochord along the anteroposterior axis.
25 ng the complete pattern of digits across the anteroposterior axis.
26 ogical and molecular heterogeneity along the anteroposterior axis.
27 arget area because of guidance errors in the anteroposterior axis.
28 in a continuous range of locations along the anteroposterior axis.
29 as somite pairs sequentially form along the anteroposterior axis.
30 lling polarizes neural progenitors along the anteroposterior axis.
31 f cilia, depending on the location along the anteroposterior axis.
32 spatially varying tissue mechanics along the anteroposterior axis.
33 t is the establishment of polarity along the anteroposterior axis.
34 that of visceral muscle precursors along the anteroposterior axis.
35 enesis is differentially regulated along the anteroposterior axis.
36 gradient and initiates patterning along the anteroposterior axis.
37 ting the existing proximodistal axis into an anteroposterior axis.
38 ical neurons or white matter cells along the anteroposterior axis.
39 ells and Gli3 is broadly expressed along the anteroposterior axis.
40 genes cooperate to pattern the FRT along the anteroposterior axis.
41 link somitogenesis to the elongation of the anteroposterior axis.
42 rently depending on their location along the anteroposterior axis.
43 ly blood and endothelial genes all along the anteroposterior axis.
44 fer positional identities to cells along the anteroposterior axis.
45 n essential step in the determination of the anteroposterior axis.
46 ween Bicoid and Hunchback, which pattern the anteroposterior axis.
47 e induction of multiple structures along the anteroposterior axis.
48 s by which the embryo is patterned along the anteroposterior axis.
49 core of the nucleus accumbens and across its anteroposterior axis.
50 dent of cell interactions conveyed along the anteroposterior axis.
52 tly associated, such as specification of the anteroposterior axis and anterior neural development, or
53 n of individual sclerotome progeny along the anteroposterior axis and development of the axial skelet
54 a fluid-to-solid tissue transition along the anteroposterior axis and the tissue surface tension dete
55 Here we identify the cue that specifies the anteroposterior axis, and investigate how this cue is in
56 erning of the pharyngeal apparatus along the anteroposterior axis, and local regulation of retinoic a
57 ic defects including spina bifida, shortened anteroposterior axis, and reduced anterior structures.
58 long axis of the ellipse oriented along the anteroposterior axis, and this orientation may adversely
59 uman gastruloids undergo elongation along an anteroposterior axis, and we use spatial transcriptomics
60 yos are characterised by a truncation of the anteroposterior axis anterior to the somites, defects in
61 ed limbs are typically very narrow along the anteroposterior axis, are occasionally truncated, and ex
63 of amphioxus, AmphiEn is expressed along the anteroposterior axis as metameric stripes, each located
64 The neural crest is regionalized along the anteroposterior axis, as demonstrated by foundational li
65 ertebrate body is its segmentation along the anteroposterior axis, as illustrated by the repetition o
66 Hox genes has shifted dramatically along the anteroposterior axis between Onychophora and different a
67 otic vesicle is highly asymmetric about the anteroposterior axis, both morphologically and molecular
68 ablation of Aurora A properly establish the anteroposterior axis but fail to progress through gastru
69 orphogen controls cell fate along 70% of the anteroposterior axis but is translated from mRNA localiz
70 ments with respect to distribution along the anteroposterior axis but support a 'leaky' resegmentatio
71 g completely reverses the orientation of the anteroposterior axis, but gives otherwise normal develop
72 n signaling to polarize the termini of their anteroposterior axis, but little is known about how rege
73 By contrast, Bozozok can rescue the complete anteroposterior axis, but not notochord, in embryos bloc
74 ating morphogenetic activity: patterning the anteroposterior axis by diffusion of a transcription fac
75 fferences in neuronal architecture along the anteroposterior axis by the selective elimination of mat
78 esponsible for organizing and patterning the anteroposterior axis during the development of amphibian
79 mpanied by biased cell orientation along the anteroposterior axis, especially at neural plate hinges,
81 Blimp1 is required for the establishment of anteroposterior axis formation and the formation of head
82 s on the early evolution of spiral cleavage, anteroposterior axis formation, body axis segmentation,
83 s establish that Eomes is a key regulator of anteroposterior axis formation, EMT and definitive endod
84 cing atRAL levels and is required for proper anteroposterior axis formation, neuroectoderm patterning
86 bryonic from extra-embryonic cells along the anteroposterior axis from the outset of development - a
87 oid determines position along the Drosophila anteroposterior axis in a concentration-dependent manner
92 ry, we identify new muscle domains along the anteroposterior axis in the zebrafish that are defined b
93 acZ expression to distinct regions along the anteroposterior axis including the ventral midline of th
94 genes specify appendage identities along the anteroposterior axis independently of Tc-hth/Tc-exd and
97 , when differential Hox expression along the anteroposterior axis is being established, we found conc
99 ntity within dorsolateral mesoderm along the anteroposterior axis is determined by the combined actio
102 ssion of genes such as omb and sal along the anteroposterior axis is restricted by lateral-to-medial
104 have defined expression boundaries along the anteroposterior axis (known as the axial Hox code).
105 ow the structural differences along its long anteroposterior axis might beget meaningful functional d
106 g is required for correct positioning of the anteroposterior axis, normal anterior and midline patter
107 t control neural crest development along the anteroposterior axis of a jawless vertebrate, the sea la
110 ans, Hox genes determine cell fate along the anteroposterior axis of embryos and are implicated in dr
111 eneity was observed between groups and along anteroposterior axis of healthy hippocampus in both grou
112 nases are asymmetrically localized along the anteroposterior axis of newly fertilized C. elegans embr
115 ed in specifying positional values along the anteroposterior axis of the caudal central nervous syste
116 lished in the one-cell embryo determines the anteroposterior axis of the developing animal and is ess
119 ntial nuclear organisation of Hoxb along the anteroposterior axis of the developing neural tube is co
120 ern of expression with that of Mn1 along the anteroposterior axis of the developing palatal shelves a
121 A exhibits differential expression along the anteroposterior axis of the developing secondary palate,
123 les and cellular hairs (trichomes) along the anteroposterior axis of the Drosophila thorax (notum).
124 roduction of individual embryos the original anteroposterior axis of the egg is lost and axial patter
125 ex-expressing cells distinguishes the future anteroposterior axis of the embryo and provide landmarks
126 y in the mouse embryo and indicates that the anteroposterior axis of the embryo develops from convers
127 develop at two specific positions along the anteroposterior axis of the embryo, whereas other region
129 f polarising activity, which establishes the anteroposterior axis of the limb bud and maintains proli
134 oxd13, and Fgf4 are expressed throughout the anteroposterior axis of the mutant limb bud, despite nor
136 that controls spatial organization along the anteroposterior axis of the neural tube and is particula
137 f retinoic acid signalling in patterning the anteroposterior axis of the neural tube remains uncertai
138 oocyte is located adjacent to them, and the anteroposterior axis of the oocyte is re-oriented with r
140 rning process that passes wavelike along the anteroposterior axis of the presomitic mesoderm (PSM).
141 L1-minus temporal axons extended across the anteroposterior axis of the SC like wild-type axons but
147 ed pattern of neurons is specified along the anteroposterior axis of the vertebrate spinal cord by in
149 RE strongly suggest a role for Hoxb-1 in the anteroposterior axis patterning of the gut and a critica
150 l cord at two restricted locations along the anteroposterior axis, presumably the subpopulation of mo
151 eotides resulted in a phenotype of shortened anteroposterior axis, reduced head structure, and pertur
152 sibility that the later dispersion along the anteroposterior axis results from the parasagittal patte
153 Here we demonstrate that, during Xenopus anteroposterior axis specification, Rspo2 functions as a
155 istinct midline expression domains along the anteroposterior axis that overlap with the expression pa
156 like gene are expressed in domains along the anteroposterior axis that reset to new positions during
157 is divided into three main regions along the anteroposterior axis: the forebrain, midbrain and hindbr
158 achieves much of its power to diversify the anteroposterior axis through fine spatiotemporal differe
159 nin specifies the posterior character of the anteroposterior axis throughout the Bilateria and specif
160 al germ layer becomes regionalized along its anteroposterior axis to give rise to a variety of organs
161 he dorsal adult muscles are polarised in the anteroposterior axis: we disprove the hypothesis that mu
162 s first differentiate in intervals along the anteroposterior axis, whereas in deep neural explants, m
163 of the Bicoid (Bcd) morphogen organizes the anteroposterior axis while the ends of the embryo are pa
164 dition, disrupts the proper alignment of the anteroposterior axis with the shape of the embryo and th
165 proximodistal axis, but uniformly across the anteroposterior axis, with all proximal limb bud cells e
166 ertebrates is relatively symmetric about the anteroposterior axis, with only two semicircular canals
167 are expressed in distinct domains along the anteroposterior axis within the dorsal vessel, and, in p