ROBOT Report - ecao

ECAO:0000090

spawned egg

7

WARN

ECAO:0000120

spermatozoa

8

WARN

ECAO:0000140

fertilized egg

9

WARN

ECAO:0000200

The embryo is composed of 28 cells and is surrounded by a fertilization envelope.

10

WARN

ECAO:0000210

The embryo is composed of 32 cells and is surrounded by a fertilization envelope.

11

WARN

ECAO:0000240

The period that immediately follows cleavage and precedes gastrulation. It is characterized by the progressive maturation of the embryo into a hollow sphere, which is one cell layer thick and encompasses a central, fluid-filled cavity (the blastocoel). This period is associated with a gradual increase in cell cycle length and a loss of mitotic synchrony. During mitosis, cells round up and the wall of the blastula becomes irregular, while during interphase the cells flatten and the wall of the blastula appears smooth. During this period, the blastocoel gradually expands and becomes lined by a thin basal lamina. Cells in the wall of the blastula thereby become polarized; the inner (basal) surface of each cell contacts the basal lamina while the outer (apical) surface contacts the hyaline layer, an extracellular matrix that surrounds the embryo. Each cell further forms a single apical cilium. The onset of ciliary motility causes the blastula to move within the fertilization envelope and, after hatching, coordinated ciliary beating allows the embryo to swim freely. The blastula period culminates in the formation of the vegetal plate, a placode of elongated, presumptive endomesoderm cells.

12

WARN

ECAO:0000250

120-cell stage

13

WARN

ECAO:0000250

B1

14

WARN

ECAO:0000260

The embryo is composed of about 100-200 cells and is surrounded by a fertilization envelope. Most blastomeres have completed at least one additional mitotic division since the 60- or 64-cell stage. All cells are approximately the same size and there are no obvious morphological indications of the primary or secondary embryonic axes. All cells have begun to acquire an apical-basal polarity and the embryo is beginning to transform into a hollow sphere with a monolayered epithelial wall and a fluid-filled cavity (the blastocoel) in the center.

15

WARN

ECAO:0000260

B2

16

WARN

ECAO:0000270

B3

17

WARN

ECAO:0000270

midB

18

WARN

B4

19

WARN

LB

20

WARN

pre-HB

21

WARN

prehatched blastula

22

WARN

ECAO:0000290

The fertilization envelope has started to break down due to the secretion by ectodermal cells of the hatching enzyme, a metalloprotease that digests the fertilization envelope and frees the embryo. The embryo rotates within the envelope or swims away as soon as it is free.The vegetal plate has not formed.

23

WARN

ECAO:0000290

B5

24

WARN

ECAO:0000290

very late blastula stage

25

WARN

ECAO:0000310

The embryo has started elongated along the animal-vegetal axis. Its vegetal region has further continued to thicken and it is marked by a characteristic 'V' shape formed by the blastocoel at the level of the cells constituting the vegetal plate, thereby pointing to the vegetal pole.

26

WARN

ECAO:0000320

The period that immediately follows the blastula period and precedes organogenesis. It is characterized by extensive movements of cells in the vegetal region of the embryo. This period culminates in the formation of a multilayered embryo composed of three primary germ layers (ectoderm, mesoderm, and endoderm). The cell movements of gastrulation include ingression of migratory, mesenchymal cells into the blastocoel and invagination of the vegetal plate that creates the primitive gut (archenteron).

27

WARN

ECAO:0000340

Skeletogenic primary mesenchyme cells (PMCs) are starting to ingress from the vegetal plate into the blastocoel through an epithelial–to-mesenchymal transition (EMT).

28

WARN

ECAO:0000350

Almost all skeletogenic primary mesenchyme cells (PMCs) have ingressed into the blastocoel and remain in a mound on the vegetal plate.

29

WARN

ECAO:0000360

All skeletogenic primary mesenchyme cells (PMCs) have ingressed into the blastocoel. Many of these cells have extended filopodia and migrated away from the vegetal plate. The cells are found along the blastocoel wall, although they remain concentrated in the vegetal hemisphere of the embryo. The vegetal plate has flattened following the ingression of the PMCs. However, it has not started to invaginate. It is now composed at its center of the 8 small micromere descendants (the germ line) surrounded by non-skeletogenic mesoderm (NSM).

30

WARN

ECAO:0000380

The embryo is characterized morphologically by a slight invagination of the vegetal plate. This invagination has generated the anterior portion of the archenteron (primitive digestive tract) and the blastopore, an opening that will persist as the larval anus.

31

WARN

ECAO:0000380

blastopore gastrula stage

32

WARN

ECAO:0000390

EG

33

WARN

ECAO:0000400

The archenteron (primitive digestive tract) has elongated to about half (1/3-2/3) of its final length.

34

WARN

ECAO:0000400

mid-G

35

WARN

ECAO:0000410

late-G

36

WARN

ECAO:0000420

The period that immediately follows the gastrula period. It is characterized by the progressive maturation of tissues and organs. This period culminates in the opening of the mouth.

37

WARN

ECAO:0000430

D

38

WARN

ECAO:0000460

2-arm pluteus stage

39

WARN

ECAO:0000460

early pluteus stage

40

WARN

The larva is characterized by the presence, on the ventral side, of four extended arms (two anterolateral arms at the level of the oral hood and two postoral arms) and on the dorsal side by a sleeked apex. The larva now possesses a completely tripartite and functional digestive tract composed of an esophagus, a stomach, and an intestine, respectively limited by a cardiac sphincter, a pyloric sphincter, and an anal sphincter.

41

WARN

P

42

WARN

Plut

43

WARN

Plut4a

44

WARN

pluteus larva

45

WARN

ECAO:0000490

The larva is characterized by the presence on the ventral side of six arms, and by the development, on the anterior midline of the esophagus, of the dorsal arch.

46

WARN

ECAO:0000500

The larva is characterized by the presence on the ventral side of eight arms and by the development within the larva, on the left side of the stomach, of the adult rudiment. This stage is relatively long. It includes distinct changes occurring to the larva as well as within the larva, although the larva consistently exhibits 8 arms.

47

WARN

ECAO:0000510

The competent pluteus larva is characterized by the presence, within the larva, on the left side of its stomach, of the adult rudiment. The rudiment is now the size of or even bigger than the stomach and harbors five long primary podia (i.e. tube feet) and five quartets of definitive spines. Under the right environemental cue, the larva is competent to undergo metamorphosis.

48

WARN

ECAO:0000510

Cpt8a

49

WARN

ECAO:0000520

The metamorphic larva stage is essentially when the larva undergoes metamorphsis. The larva goes through drastic morphological changes to transofrm the bilateral, planctonic larva into a benthic, pentaradial juvenile.

50

WARN

ECAO:0000520

meta

51

WARN

ECAO:0000550

The early juvenile is morphologically similar to a miniature sea urchin adult. It harbors primary podia (or tube feet) and definitive spines, along with other appendages (e.g., immature spines, pedicellariae). Compare to the adult, however, it is smaller in size, deprived of a functional digestive system, and is sexually immature.

52

WARN

ECAO:0000550

endotrophic juvenile

53

WARN

ECAO:0000550

postlarva

54

WARN

ECAO:0000580

The adult stage corresponds to a fully formed pentaradial sea urchin individual that has reached sexual maturity. The gonads have developed within the perivisceral cavity and are connected to the outside by the genital pores pierced into the genital plates.

55

WARN

ECAO:0000580

gravid sea urchin

56

WARN

ECAO:0000610

early pluteus stage

57

WARN

ECAO:0000630

The embryo has a distinctive, angular shape due to the elongation of the skeletal rods. The body rods have expended even further compared to earlier stages and the postoral rods support short postoral arm buds. The anterior ends of the dorsoventral connecting rods are also now branched or bent. The archenteron tip is still bent toward the oral ectoderm. At the tip of the archenteron coelomic evaginations start to be apparent, although no gut constrictions are visible yet. The embryo is reddish in color due to the presence of pigment cells within the aboral ectoderm. The animal pole domain is prominent, and it still bears long, immotile cilia.

58

WARN

ECAO:0000660

The embryo is elongated along the animal-vegetal axis and has thus a characteristic oblong shape. The archenteron is overall deflected orally and its tip is enlarged, rounded, and smooth. The tip of the archenteron is further starting to display filopodia that interact with the ectoderm site where the mouth will form. At the tip of the archenteron, unpaired evaginations of the coelom are also now apparent, even though the stomodeal invagination, gut constrictions, and ciliary band(s) are still not discernable. Mesenchyme cells have dispersed through the blastocoel.

59

WARN

ECAO:0000710

The second episode of the gastrulation period, characterized by the invagination of the vegetal plate into the blastocoel to form the primitive digestive tract (archenteron).

60

WARN

ECAO:0103520

body system

61

WARN

ECAO:0103520

connected anatomical system

62

WARN

ECAO:0103890

upper half

63

WARN

ECAO:0103890

upper hemisphere

64

WARN

ECAO:0103900

lower half

65

WARN

ECAO:0103900

lower hemisphere

66

WARN

animal plate

67

WARN

anterior neuroectoderm

68

WARN

apical plate

69

WARN

neurogenic ectoderm

70

WARN

ECAO:0104120

imaginal adult rudiment

71

WARN

ECAO:0104180

pigmented band

72

WARN

male gamete

73

WARN

mature sperm cell

74

WARN

spermatozoa

75

WARN

spermatozoan

76

WARN

ECAO:0104248

mitotic aster

77

WARN

ECAO:0104280

vitelline envelope

78

WARN

ECAO:0104370

basal vesicle

79

WARN

ECAO:0104400

echinonectin granule

80

WARN

ECAO:0104430

F-actin filament

81

WARN

ECAO:0104610

female gamete

82

WARN

ECAO:0104610

female germ cell

83

WARN

ECAO:0104610

unfertilized egg

84

WARN

ECAO:0104710

presumptive PMC

85

WARN

ECAO:0104710

presumptive primary mesenchyme cell

86

WARN

ECAO:0104710

presumptive skeletogenic mesenchyme cell

87

WARN

ECAO:0104750

animal pole domain neuronal progenitor cell

88

WARN

ECAO:0104880

axon bundle

89

WARN

ECAO:0104970

digestive nerve plexus

90

WARN

ECAO:0105090

ectoendoderm

91

WARN

ECAO:0105100

endomesoderm

92

WARN

ECAO:0105110

presumptive vegetal ectoderm

93

WARN

ECAO:0105110

veg1 upper

94

WARN

ECAO:0105120

veg1 lower

95

WARN

ECAO:0105130

veg2 upper

96

WARN

ECAO:0105140

presumptive non-skeletogenic mesoderm

97

WARN

ECAO:0105140

veg2 lower

98

WARN

ECAO:0105150

embryonic germ layer

99

WARN

ECAO:0105220

veg1

100

WARN

ECAO:0105230

mesoendoderm

101

WARN

ECAO:0105230

veg2

102

WARN

ECAO:0105520

PL

103

WARN

ECAO:0105520

preoral lobe

104

WARN

ECAO:0105550

ALA

105

WARN

ECAO:0105560

ALA

106

WARN

ECAO:0105610

PRO

107

WARN

ECAO:0105620

PRO

108

WARN

ECAO:0105698

primary mesenchyme

109

WARN

ECAO:0106030

primitive gut

110

WARN

ECAO:0106240

primary mesenchyme cell

111

WARN

ECAO:0106250

multinucleated cell

112

WARN

ECAO:0106250

syncytial cell

113

WARN

ECAO:0106250

syncytium

114

WARN

PMC ring

115

WARN

primary mesenchyme cell ring

116

WARN

subequatorial PMC ring

117

WARN

subequatorial SM ring

118

WARN

subequatorial primary mesenchyme cell ring

119

WARN

ECAO:0106380

NSM

120

WARN

ECAO:0106390

secondary mesenchyme cell

121

WARN

ECAO:0106430

presumptive immunocyte

122

WARN

ECAO:0106440

pigmented immunocyte

123

WARN

ECAO:0106840

circumoral ectoderm

124

WARN

ECAO:0106840

circumoral epithelium

125

WARN

ECAO:0107620

animal pole domain neuronal progenitor cell

126

WARN

ECAO:0107650

endoderm-ssociated neuronal progenitor cell

127

WARN

ECAO:0107680

synaptotagmin-positive neuron

128

WARN

ECAO:0107780

ANE

129

WARN

ECAO:0107800

inner apical pole domain

130

WARN

ECAO:0107810

outer apical pole domain

131

WARN

ECAO:0107840

lateral BE

132

WARN

oral BE

133

WARN

oral border ectoderm

134

WARN

ventral BE

135

WARN

aboral BE

136

WARN

aboral border ectoderm

137

WARN

dorsal BE

138

WARN

ECAO:0109010

1-cell

139

WARN

ECAO:0109070

post-juvenile adult

140

WARN

ECAO:0109240

germline cell

141

WARN

ECAO:0109330

male germ cell nucleus

142

WARN

ECAO:0109340

female germ cell nucleus

143

WARN

ECAO:0109360

organelle

144

WARN

ECAO:0109420

fiber

145

WARN

ECAO:0109420

polymeric cytoskeletal fiber

146

WARN

ECAO:0109480

elongated cilium

147

WARN

ECAO:0109640

veg1 ectoderm

148

WARN

ECAO:0109660

animal plate

149

WARN

ECAO:0109660

apical plate

150

WARN

equatorial oral ectoderm

151

WARN

oral BE

152

WARN

ventral BE

153

WARN

ECAO:0109730

aboral BE

154

WARN

ECAO:0109730

dorsal BE

155

WARN

ECAO:0109770

animal pole domain neuronal progenitor cell

156

WARN

ECAO:0109780

endoderm-ssociated neuronal progenitor cell

157

WARN

ECAO:0109990

preoral lobe

158

WARN

ECAO:0111150

anterior tip of dorsoventral connecting rod

159

WARN

ECAO:0111630

body rod distal tip

160

WARN

ECAO:0112070

veg1 endoderm

161

WARN

ECAO:0112080

veg2 endoderm

162

WARN

ECAO:0112120

anterior archenteron

163

WARN

ECAO:0112120

tip of archetron

164

WARN

unpaire evagination of the coelom

165

WARN

unpaired coelomic evaginations

166

WARN

unpaired coelomic outpocketing

167

WARN

unpaired coelomic rudiment

168

WARN

ECAO:0112260

circumoral ectoderm

169

WARN

ECAO:0112260

circumoral epithelium

170

WARN

ECAO:0112290

migratory cell

171

WARN

ECAO:0112290

motile cell

172

WARN

ECAO:0112350

syncytial cable

173

WARN

ECAO:0112370

oral chain of PMCs

174

WARN

ECAO:0112370

ventral skeletogenic mesenchyme chain

175

WARN

ECAO:0112380

aboral chain of PMCs

176

WARN

ECAO:0112380

dorsal skeletogenic mesenchyme chain

177

WARN

ECAO:0112560

oral non-skeletogenic mesoderm

178

WARN

ECAO:0112560

ventral non-skeletogenic mesoderm

179

WARN

ECAO:0112570

aboral non-skeletogenic mesoderm

180

WARN

ECAO:0112570

dorsal non-skeletogenic mesoderm

181

WARN

ECAO:0112600

gut constriction

182

WARN

ECAO:0112610

midgut-hindgut constriction

183

WARN

ECAO:0112610

pyloric constriction

184

WARN

ECAO:0112620

cardiac constriction

185

WARN

ECAO:0112620

foregut-midgut constriction

186

WARN

ECAO:0112630

anal constriction

187

WARN

188

WARN

189

WARN

190

WARN

ECAO:0109730

191

WARN

ECAO:0000120

192

WARN

193

WARN

ECAO:0104720

194

WARN

ECAO:0105698

195

WARN

ECAO:0107650

196

WARN

ECAO:0109780

197

WARN

ECAO:0000430

198

WARN

ECAO:0105610

199

WARN

ECAO:0105620