Yuji Yokouchi scite author profile

The complex architecture of the limb cartilage pattern probably develops by the sequential segmentation and branching process of precartilaginous cell condensation under the control of positional signalling provided by the zone of polarizing activity (anteroposterior) and the apical ectodermal ridge (proximodistal). This signalling is monitored and interpreted in the mesenchymal cells and induces the position-specific response of subsets of genes. Homeobox genes may be responsible for the interpretation of signalling. A correlation between limb pattern and expression domains of the homeobox genes in the upstream region of Hox/Chox-4 has been proposed. We have analysed the spatial expression pattern of the Chox-1 genes during development of chick limb buds. In contrast to genes in Hox/Chox-4 expressed coordinately along the anteroposterior axis, homeobox genes in Chox-1 have unique and mutually exclusive expression domains along the proximodistal axis. We report here that the expression domains of the Chox-1 genes are closely related to the segmental structure of cartilage along the proximodistal axis, whereas the expression domains of the Chox-4 genes are related to the cartilage branching pattern.

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Antagonistic Signaling by Caronte , a Novel Cerberus -Related Gene, Establishes Left–Right Asymmetric Gene Expression

Yokouchi

Vogan

Pearse

et al. 1999

Cell

164

151

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Left-right asymmetry is initiated during chick embryogenesis in small domains near Hensen's node. Subsequently, broad asymmetric gene expression domains are established in the lateral plate mesoderm, ultimately determining the directionality of morphogenetic events. The transfer of asymmetric information from the node to the lateral plate is mediated by Caronte (Car), a novel member of the Cerberus/Dan gene family, which induces targets by antagonizing symmetrically expressed BMP signals. In addition, BMP antagonism by Car induces asymmetric expression of Lefty in the midline, preventing spread of left-sided signals to the contralateral side.

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Misexpression of Hoxa-13 induces cartilage homeotic transformation and changes cell adhesiveness in chick limb buds.

Yokouchi¹,

Nakazato²,

Yamamoto³

et al. 1995

Genes Dev.

208

128

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During chick limb development, the Abd-B subfamily of genes in the HoxA cluster are expressed in a region-specific manner along the proximodistal axis. To elucidate the function of Hoxa-13 that is expressed in the autopod during normal limb development, Hoxa-13 was misexpressed in the entire limb bud with a replication-competent retroviral system. Misexpression of Hoxa-13 resulted in a remarkable size reduction of the zeugopodal cartilages as a result of the arrest of cartilage cell growth and differentiation restricted in the zeugopod. This size reduction seems to be attributable to homeotic transformation of the cartilages in the zeugopod to the more distal cartilage, that of the carpus/tarsus. This transformation was specific to Hoxa-13 and was not observed by overexpression of other Hox genes. These results indicate that Hoxa-13 is responsible for switching the genetic code from long bone formation to short bone formation during normal development. When the limb mesenchymal cells were dissociated and cultured in vitro, Hoxa-13-expressing limb mesenchymal cells reassociated and were sorted out from nonexpressing cells. Forced expression of Hoxa-13 at the stage that endogenous Hoxa-13 was not expressed as of yet altered the homophilic cell adhesive property. These findings indicate the involvement of Hoxa-13 in determining homophilic cell-to-cell adhesiveness that is supposed to be crucial for the cartilage pattern formation.

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Coordinated Expression of Abd-B Subfamily Genes of the HoxA Cluster in the Developing Digestive Tract of Chick Embryo

Yokouchi

Sakiyama

Kuroiwa

1995

Developmental Biology

137

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To elucidate the molecular mechanism for determining the positional specificity and morphogenesis of the chicken digestive tract, we analyzed expression patterns of Hox genes during development of the digestive tract, focusing on the Abd-B subfamily genes of the HoxA cluster, Hoxa-9,-10,-11, and -13. Region-specific expression of these genes was found in the visceral mesoderm. In early development, before commencement of hindgut closure, they were expressed in a Russian doll pattern with the more 5' located gene on the cluster showing the more posterior restricted expression domain. At middle stage, when hindgut closure had occurred and morphological subdivision of the hindgut was gradually becoming distinct, the expression domains of each gene became mutually exclusive and restricted to the subdivisions; i.e., Hoxa-9 in the posterior part of the small intestine and the ceca, Hoxa-10 in the ceca, Hoxa-11 in the ceca, the large intestine, and the cloaca, and Hoxa-13 in the cloaca. At later stages, when the bilateral branches of the ceca had formed, the overlapping expression domains of Hoxa-10 and -11 were strongly correlated with the budding processes of the ceca. These observations suggest the possibility that Hox genes are responsible for determination of the position-specific differentiation of the visceral mesoderm of the digestive system and regulate the budding processes of the ceca.

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Yuji Yokouchi

Homeobox gene expression correlated with the bifurcation process of limb cartilage development

Antagonistic Signaling by Caronte , a Novel Cerberus -Related Gene, Establishes Left–Right Asymmetric Gene Expression

Misexpression of Hoxa-13 induces cartilage homeotic transformation and changes cell adhesiveness in chick limb buds.

Coordinated Expression of Abd-B Subfamily Genes of the HoxA Cluster in the Developing Digestive Tract of Chick Embryo

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