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Literature DB >> 18606147

The chirality of gut rotation derives from left-right asymmetric changes in the architecture of the dorsal mesentery.

Nicole M Davis¹, Natasza A Kurpios, Xiaoxia Sun, Jerome Gros, James F Martin, Clifford J Tabin.

Abstract

We have investigated the structural basis by which the counterclockwise direction of the amniote gut is established. The chirality of midgut looping is determined by left-right asymmetries in the cellular architecture of the dorsal mesentery, the structure that connects the primitive gut tube to the body wall. The mesenchymal cells of the dorsal mesentery are more condensed on the left side than on the right and, additionally, the overlying epithelium on the left side exhibits a columnar morphology, in contrast to a cuboidal morphology on the right. These properties are instructed by a set of transcription factors: Pitx2 and Isl1 specifically expressed on the left side, and Tbx18 expressed on the right, regulated downstream of the secreted protein Nodal which is present exclusively on the left side. The resultant differences in cellular organization cause the mesentery to assume a trapezoidal shape, tilting the primitive gut tube leftward.

Entities: Chemical Disease Gene Species

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Year: 2008 PMID： 18606147 PMCID： PMC2528248 DOI： 10.1016/j.devcel.2008.05.001

Source DB: PubMed Journal: Dev Cell ISSN： 1534-5807 Impact factor: 12.270

42 in total

1. Two-step regulation of left-right asymmetric expression of Pitx2: initiation by nodal signaling and maintenance by Nkx2.

Authors: H Shiratori; R Sakuma; M Watanabe; H Hashiguchi; K Mochida; Y Sakai; J Nishino; Y Saijoh; M Whitman; H Hamada
Journal: Mol Cell Date: 2001-01 Impact factor: 17.970

The chirality of gut rotation derives from left-right asymmetric changes in the architecture of the dorsal mesentery.

1. Two-step regulation of left-right asymmetric expression of Pitx2: initiation by nodal signaling and maintenance by Nkx2.

2. Cloning and expression analysis of the mouse T-box gene Tbx18.

3. Positional cloning of heart and soul reveals multiple roles for PKC lambda in zebrafish organogenesis.

Review 4. Left-right asymmetry: nodal cilia make and catch a wave.

5. Cloning of zebrafish T-box genes tbx15 and tbx18 and their expression during embryonic development.

6. A series of normal stages in the development of the chick embryo.

7. A role of the cryptic gene in the correct establishment of the left-right axis.

8. A somitic compartment of tendon progenitors.

9. Regulation of left-right asymmetry by thresholds of Pitx2c activity.

10. Differential expression and functional analysis of Pitx2 isoforms in regulation of heart looping in the chick.

1. Direct activation of Shroom3 transcription by Pitx proteins drives epithelial morphogenesis in the developing gut.

2. On Buckling Morphogenesis.

3. Left-right asymmetry: lessons from Cancún.

4. The left-right asymmetry of liver lobation is generated by Pitx2c-mediated asymmetries in the hepatic diverticulum.

Review 5. Xenopus as a model organism for birth defects-Congenital heart disease and heterotaxy.

Review 6. Left-Right Patterning: Breaking Symmetry to Asymmetric Morphogenesis.

7. The left-right Pitx2 pathway drives organ-specific arterial and lymphatic development in the intestine.

8. Your gut is right to turn left.

9. Integration of left-right Pitx2 transcription and Wnt signaling drives asymmetric gut morphogenesis via Daam2.

10. Nodal signaling promotes the speed and directional movement of cardiomyocytes in zebrafish.