ライフサイエンスコーパス: amphioxus

1 t the posterior end of the cerebral vesicle (amphioxus).

2 ate chordate Branchiostoma floridae (Florida amphioxus).

3 -scale sequence of the invertebrate chordate amphioxus.

4 s about the existence of an MHB organizer in amphioxus.

5 he embryonic ectoderm of the cephalochordate amphioxus.

6 te that AmphiNotch is the only Notch gene in amphioxus.

7 new T-box genes from the primitive chordate amphioxus.

8 own markers for presumptive neuroectoderm in amphioxus.

9 d reveal a form of hindbrain segmentation in amphioxus.

10 tes and the cephalochordates, represented by amphioxus.

11 se 1 (ChE1) and cholinesterase 2 (ChE2) from amphioxus.

12 a novel gene cluster in the cephalochordate amphioxus.

13 ies and habitats of the different species of amphioxus.

14 pathways is much higher in zebrafish than in amphioxus.

15 been developed to study different aspects of amphioxus.

16 ertebrates as well as of the cephalochordate amphioxus.

17 ons revealed in developmental studies of the amphioxus.

18 forms of life, including the Cephalochordate amphioxus.

19 rvation of mechanism between vertebrates and amphioxus.

20 in early mesoderm formation in ascidians and amphioxus.

21 compared to one each in the cephalochordate amphioxus.

22 , AOS in coral, and epoxyalcohol synthase in amphioxus.

23 The amphioxus, a chordate that diverged before the origin of

24 e (V) domains and a chitin-binding domain in amphioxus, a protochordate.

25 he notochord forms during the development of amphioxus: a basally branching chordate.

26 lar photoreceptors of the primitive chordate amphioxus also express melanopsin and transduce light vi

27 he sarcoplasmic calcium-binding protein from Amphioxus although the sequence identity is very low at

28 In neurula embryos of amphioxus, AmphiEn is expressed along the anteroposterio

29 We isolated a full-length cDNA clone of amphioxus AmphiNk2-tin, an NK2 gene similar in sequence

30 During the neurula stage of amphioxus, AmphiNk2-tin is expressed first within the fo

31 In amphioxus, AmphiWnt3, AmphiWnt5, and AmphiWnt6 are each

32 alochordates (compared to vertebrates) makes amphioxus an attractive model for studying chordate biol

33 ily, we characterized the HIFalpha gene from amphioxus, an invertebrate chordate, and identified seve

34 A cascade, the Elovl2/Elovl5 elongases, from amphioxus, an invertebrate chordate, the sea lamprey, a

35 q profiling of the Hox cluster in embryos of amphioxus, an invertebrate chordate.

36 are higher in the gills than in the skin of amphioxus and acorn worms.

37 Here we show, from experimental decay of amphioxus and ammocoetes, that loss of chordate characte

38 brafish scales or head or tail amputation in amphioxus and annelids.

39 es and their closest invertebrate relatives (amphioxus and ascidia) highlights two derived features o

40 erostome body patterning that degenerated in amphioxus and ascidians, but was retained to pattern div

41 We show how the karyotypes of amphioxus and diverse vertebrates are derived from 17 an

42 he gain of the light-transduction process in amphioxus and examine key features that help outline the

43 r studies of gene regulation and function in amphioxus and for comparative studies with vertebrates t

44 and embryonic expression of Dmbx genes from amphioxus and from Ciona, representing the two most clos

45 It exists in species as distantly related as amphioxus and humans, but its function is largely unknow

46 A putative proto-MHC exists in the chordate amphioxus and in the fruit fly, indicating that a core M

47 r body plan formation in the cephalochordate amphioxus and in zebrafish and compared the effects of s

48 ial for the normal pharyngeal development in amphioxus and it could be conserved in vertebrates.

49 We compared Id gene expression in amphioxus and lamprey to ask if cephalochordates deploy

50 For both the amphioxus and mouse genes, excess RA causes either (1) c

51 mes exhibit extensive conserved synteny with amphioxus and other bilaterians, and deeply conserved no

52 t reconstruction of cell trajectories of the amphioxus and other species, we inferred expression dyna

53 posing Nodal and BMP signaling is present in amphioxus and probably also in the common ancestor of am

54 omology between the anterior neurectoderm of amphioxus and the presumptive placodal ectoderm of verte

55 ates, to trunk muscles in the cephlochordate Amphioxus and to muscles derived from cardiopharyngeal m

56 and comparative molecular genetic studies of amphioxus and tunicates have provided recent insights in

57 ancestral invertebrate chordates (similar to amphioxus and tunicates) to vertebrates is well accepted

58 -scale duplicated genes can be found in both amphioxus and vertebrate genomes, while only the vertebr

59 c mouse kidney helps support homology of the amphioxus and vertebrate kidneys.

60 ppear to have arisen since the divergence of amphioxus and vertebrate lineages, suggesting that diffe

61 d parallel gene duplication profiles between amphioxus and vertebrates and conserved functional const

62 a myomere configuration intermediate between amphioxus and vertebrates and establish morphological li

63 and probably also in the common ancestor of amphioxus and vertebrates or even earlier in deuterostom

64 e mesoderm and endoderm is conserved between amphioxus and vertebrates, expression in the lateral neu

65 todermal patterning appear conserved between amphioxus and vertebrates, later activation of neural cr

66 on-neural ectoderm is a conserved feature in amphioxus and vertebrates, suggesting an ancient role fo

67 own functional domains are conserved between amphioxus and vertebrates, suggestive of a common chorda

68 nscriptional enhancers are conserved between amphioxus and vertebrates--a very wide phylogenetic dist

69 Nevertheless, excess RA similarly affects amphioxus and vertebrates.

70 ions of these proteins are conserved between amphioxus and vertebrates.

71 iverse deuterostomes (frog, fish, mouse, and amphioxus) and from planarians (protostomes) suggest tha

72 because AP2 and SoxE are not co-expressed in amphioxus, and because neural crest enhancers are not de

73 Here we describe the life cycle of amphioxus, and discuss the natural histories and habitat

74 ilable single-cell datasets from sea urchin, amphioxus, and zebrafish embryos.

75 For these reasons, amphioxus are frequently used as an outgroup to study ve

76 Amphioxus are non-vertebrate chordates characterized by

77 Lancelets ('amphioxus') are the modern survivors of an ancient chord

78 Our findings highlight the importance of amphioxus as a key organism for understanding evolution

79 However, a major impediment to amphioxus as a model organism for developmental biology

80 Amphioxus, as the closest living invertebrate relative o

81 ith single small chromosomes of the chordate amphioxus, attesting to their origin as elements of an a

82 This cannot be true for amphioxus because of the lack of migratory neural crest.

83 tracts and commissural regions of the adult amphioxus brain.

84 , the sea squirt Ciona intestinalis (Ci) and amphioxus Branchiostoma floridae (Bf), from which we als

85 , the cytoarchitecture of the brain of adult amphioxus Branchiostoma lanceolatum was reinvestigated b

86 m of the ascidian Ciona intestinalis and the amphioxus Branchiostoma lanceolatum, two invertebrate ch

87 high regeneration potential of the European amphioxus Branchiostoma lanceolatum.

88 e diversified immune-type molecules found in amphioxus (Branchiostoma floridae), an invertebrate that

89 We present a study of the European amphioxus (Branchiostoma lanceolatum) gene duplications

90 and later in copepods and cephalochordates (amphioxus) (Branchiostoma spp).

91 Entosphenus tridentatus), a cephalochordate (amphioxus; Branchiostoma floridae) and a hemichordate (a

92 induce metamorphosis in the cephalochordate amphioxus by binding to a receptor homologous to vertebr

93 be applied to the isolated genomes of frog, amphioxus, Caenorhabditis elegans and many others.

94 We identified many new amphioxus cell types, including homologues to the verteb

95 Amphioxus (Cephalochordata) belongs to the most basal ex

96 ter and shows a structural similarity to the amphioxus cluster, whereas the other shark cluster (HoxN

97 show that the genome of the basal chordate, amphioxus, contains homologs of most vertebrate genes im

98 ever, many aspects of gene regulation during amphioxus development have not been fully characterized.

99 ecially those regulatory factors involved in amphioxus development, and advance understanding of the

100 Unlike nonchordates, amphioxus develops its central nervous system (CNS) from

101 he dynamic expression patterns of the single amphioxus Distal-less homolog (AmphiDll) during developm

102 tenin and RA signaling in the basal chordate amphioxus during the gastrula stage, which is the RA-sen

103 The single Elovl2/5 from amphioxus efficiently elongates C18 and C20 and, to a ma

104 a reproducible method for microinjection of amphioxus eggs.

105 ingle-cell RNA-sequencing dataset from seven amphioxus embryo stages to understand chordate cell type

106 ignaling in the dorsal/ventral patterning of amphioxus embryo.

107 eration between NO and RA that occurs during amphioxus embryogenesis.

108 ebrate neural patterning in a representative amphioxus embryonic stage.

109 ver, the absence of gill slits in RA-treated amphioxus embryos correlates with an RA-induced failure

110 ities within their tail buds, vertebrate and amphioxus embryos differ markedly in the relation betwee

111 Later, amphioxus embryos express AmphiEn in non-metameric patte

112 ose of their vertebrate orthlogues, and that amphioxus embryos, like those of vertebrates, are ventra

113 oduction of large molecules such as DNA into amphioxus embryos, opens the way for studies of gene reg

114 how that the gastrula of the cephalochordate amphioxus expresses dorsal/ventral (D/V) patterning gene

115 These results support homology of the amphioxus frontal eye and the vertebrate eyes and yield

116 However, the amphioxus frontal eye is composed of simple ciliated cel

117 et out to characterize the cell types of the amphioxus frontal eye molecularly, to test their possibl

118 From these results we conclude that in the amphioxus gastrula RA signaling primarily acts via regul

119 In the amphioxus gastrula, AmphiDll is expressed throughout the

120 omote the dorsal-specific gene expression in amphioxus gastrula.

121 rent roles in patterning the A/P axis of the amphioxus gastrula.

122 ybridization showed that, as in vertebrates, amphioxus Gbx and the Hox cluster are on the same chromo

123 ary origins of the MHB, we cloned the single amphioxus Gbx gene.

124 Amphioxus Gbx is expressed in all germ layers in the pos

125 molog is cryptically segmented, we cloned an amphioxus gene closely related to islet1, which we named

126 d through studies of a simpler, unduplicated amphioxus gene cluster.

127 Moreover, amphioxus gene duplicates show levels of expression and

128 We find that each amphioxus gene generally corresponds to two or three ver

129 an be correlated with some of the insect and Amphioxus genes, and have remained distinctive for hundr

130 nes is considerably higher than for the four amphioxus genes.

131 The amphioxus genome also exhibits derived features, includi

132 The amphioxus genome contains a basic set of chordate genes

133 limited number of VCBP genes present in the amphioxus genome exhibit exceptionally high haplotype va

134 Our results indicate that the amphioxus genome is elemental to an understanding of the

135 Studies of amphioxus Go-opsin have demonstrated that Glu-181 functi

136 n of these expression patterns suggests that amphioxus has a homolog of the vertebrate hindbrain, bot

137 The sole MEF2 gene of the cephalochordate amphioxus has a similar regulatory region structure, sug

138 However, where amphioxus has a single gene, vertebrates often have two,

139 urred close to the origin of vertebrates, as amphioxus has a typically invertebrate methylation patte

140 Amphioxus has been an important organism in the fields o

141 ession of Hox genes in pharyngeal tissues of amphioxus has not yet been detected.

142 In contrast, the basal chordate, amphioxus, has a single SoxE gene and lacks NC-like cell

143 ation of the central nervous system of adult amphioxus have investigated the spinal cord.

144 usters of vertebrates and the basal chordate amphioxus have similar organization to the hemichordate

145 The amphioxus heart is a rostrocaudally extended tube consis

146 with GFP and tested in mammalian cells, the amphioxus HIFalpha Ia protein level increased in respons

147 All amphioxus HIFalpha isoforms had 2 functional transactiva

148 To learn if the amphioxus hindbrain homolog is cryptically segmented, we

149 icle expression marks the rostral end of the amphioxus hindbrain; if it does, then amphioxus may have

150 slet expression domains provide evidence for amphioxus homologs of the pineal gland, adenohypophysis,

151 ced knowledge of the genomic organization of amphioxus; however, many aspects of gene regulation duri

152 nomic DNA fragments from the cephalochordate amphioxus Hox cluster in transgenic mouse and chick embr

153 rast to the architecture in vertebrates, the amphioxus Hox cluster is organized into a single chromat

154 We also identify amphioxus Hox gene regulatory elements that drive spatia

155 Amphioxus Id expression is also consistent with homology

156 iously undescribed role for Wnt signaling in amphioxus in determining the position of the forebrain.

157 e gastrula stage, we used the basal chordate amphioxus, in which gastrulation involves very minimal t

158 ng genoarchitectonic model revealed that the amphioxus incipient neural tube is unexpectedly complex,

159 lates the differentiation of some neurons in amphioxus, including a subset of motor neurons.

160 iphering the mechanisms of axis formation in amphioxus is a key step to understanding the evolution o

161 Neither in tunicates nor in Amphioxus is there any evidence that the canonical Wnt-s

162 The basal chordate amphioxus is uniquely positioned to address the evolutio

163 Amphioxus is widely used in evolutionary developmental b

164 We report that amphioxus islet expression includes a domain of segmenta

165 Isolation and comparison of amphioxus, lamprey and axolotl AP-2 reveals its extensiv

166 most striking morphogenetic effect of RA on amphioxus larvae is the failure of mouth and gill slits

167 ling regulating this co-expression module in amphioxus, like the aGRN in echinoderms, and that its ov

168 lampreys, which develop from a superficially amphioxus-like ammocoete to a specialized predatory adul

169 sults suggest that craniates evolved from an amphioxus-like creature that had the beginnings of a for

170 Apparently, an amphioxus-like heart, and the developmental program dire

171 tory of small-scale gene duplications in the amphioxus lineage and compare it to small- and large-sca

172 te its overall slow molecular evolution, the amphioxus lineage has had a history of small-scale dupli

173 oding the insulin-like peptide suggests that amphioxus may have homologs of vertebrate pancreatic isl

174 of the amphioxus hindbrain; if it does, then amphioxus may have little or no homolog of the vertebrat

175 the same direction, as are the Hox genes of amphioxus, mice, and humans.

176 ss homeodomains of the nematode, Drosophila, amphioxus, mouse, and human indicates that the 13 cognat

177 The cephalochordate Amphioxus naturally co-expresses fluorescent proteins (F

178 phiHox-1 (homologous to mouse Hoxb-1) in the amphioxus nerve cord is also extended anteriorly.

179 e expression of AmphiHox-1 expression in the amphioxus nerve cord, it does not alter the expression o

180 e earliest indication of segmentation in the amphioxus nerve cord.

181 nal (3D) mapping of cell connectivity in the amphioxus nervous system and comparative molecular genet

182 We examined amphioxus neural development by manipulating Hh and down

183 hermore, exogenous BMP affects expression of amphioxus neural plate border genes as in vertebrates, s

184 est specifier genes are not expressed at the amphioxus neural plate/tube border, raising the intrigui

185 of the cerebral vesicle; this region of the amphioxus neural tube, as judged by neural expression do

186 y share origins with the Hesse organs in the amphioxus neural tube.

187 Indeed, in the cephalochordate amphioxus, NO and RA are crucial for the correct develop

188 In amphioxus, no Dmbx expression is observed in the neural

189 loned the entire 7575-bp coding region of an amphioxus Notch gene (AmphiNotch), encoding 2524 amino a

190 , we quantify the geometries of thousands of amphioxus notochord cells, and project them into a commo

191 extant cephalochordates - commonly known as amphioxus or lancelets - are considered the best proxy f

192 date Branchiostoma floridae, commonly called amphioxus or lancelets.

193 d in lamprey, but not in either ascidians or amphioxus (or any other nonchordate taxon).

194 ite 7 to the anterior end of the nerve cord (amphioxus) or (2) discontinuous expression with a gap in

195 hila Rh1 may not be located at Glu-181 as in amphioxus, or at Glu-113 as in bovine rhodopsin.

196 d that similar regulation can be achieved by Amphioxus orthologs, suggesting these three mechanisms a

197 Drawing on data from vertebrates, tunicates, amphioxus, other bilaterians and cnidarians, we build th

198 In the CNS of the cephalochordate amphioxus, Otx is also expressed anteriorly, but En, Pax

199 The "frontal eye" of amphioxus, our most primitive chordate relative, has lon

200 al examples of linkage reported, such as the amphioxus ParaHox and Drosophila 93D/E clusters.

201 We provide a detailed analysis of the amphioxus ParaHox cluster and, for the first time in a s

202 Furthermore, we show that amphioxus ParaHox genes have co-linear developmental exp

203 ion; there are comparable levels in the four amphioxus Pax genes as in each gene of the equivalent ve

204 tematically surveyed transcripts of the four amphioxus Pax genes.

205 9a, an activity that is not displayed by the amphioxus Prdm12 protein.

206 h cryo-electron microscopy structures of the amphioxus ProtoRAG transposase (an evolutionary relative

207 ver, this region is not overtly segmented in amphioxus, raising the question of how hindbrain segment

208 brain domains jointly correspond to a single amphioxus region, which we termed Di-Mesencephalic primo

209 The basal chordate amphioxus resembles vertebrates in having a dorsal, holl

210 luding chicken, axolotl, lamprey, Ciona, and amphioxus, revealing a universal upstream LPM program.

211 s, including early-branching animals such as amphioxus, sea anemone, amoebas and Trichoplax, and in p

212 These relationships suggest that amphioxus shares with other deuterostomes a common mecha

213 lower molecular and morphological evolution, amphioxus' small-scale gene duplication history resemble

214 crest enhancers are not detected proximal to amphioxus soxE.

215 ervation of gene synteny between two distant amphioxus species, B. lanceolatum and B. floridae, with

216 ergence of teleosts but after the vertebrate-amphioxus split.

217 Evidence from amphioxus suggests that ancestral chordates then concent

218 ail bud and the forming somites, whereas the amphioxus tail bud gives rise to new somites directly.

219 The amphioxus tail bud is similar to the amphibian tail bud

220 Cephalochordates (amphioxus), the closest living invertebrate relatives of

221 n the vertebrates (but not the protochordate Amphioxus), the single invertebrate dystrophin-like gene

222 We administered excess RA to developing amphioxus, the closest invertebrate relative of the vert

223 Gene expression studies suggest that amphioxus, the closest invertebrate relative of vertebra

224 expression of AmphiEn, the engrailed gene of amphioxus, the closest living invertebrate relative of t

225 discovery of ProtoRAG in the lower chordate Amphioxus, the long-anticipated TE related to the RAG tr

226 Recently in amphioxus, the most basal chordate, melanopsin-expressin

227 In normal amphioxus, the nerve cord has only a slight anterior swe

228 ptomes of 13 developmental stages of Chinese amphioxus to gain a comprehensive understanding of trans

229 ates, posterior cell division is required in amphioxus to generate full notochord length, thereby sug

230 d determined the embryonic expression of two amphioxus transcription factors, AmphiSox1/2/3 and Amphi

231 a cryptically segmented brain present in the amphioxus/vertebrate ancestor.

232 Based on expression in amphioxus we postulate that Id cooption conferred sensor

233 omoting the dorsal axis specification in the amphioxus, whereas Wnt/beta-catenin signaling plays no r

234 The invertebrate chordate amphioxus, which expresses Hh in its notochord and floor

235 een determined for the invertebrate chordate Amphioxus, which, like sea urchins, has an early embryo

236 Comparisons of Amphioxus with other deuterostomes suggest that patterni

237 We characterize three amphioxus Wnt genes (AmphiWnt3, AmphiWnt5, and AmphiWnt6

238 family in the genomes of Ciona intestinalis, amphioxus, zebrafish, and human.