The T-box genes constitute an evolutionarily conserved family of putative transcription factors which are expressed in discrete domains during embryogenesis, suggesting that they may play roles in inductive interactions. Members have been identified by virtue of their homology to the prototypical T-box gene, T or Brachyury, which is required for mesoderm formation and axial elongation during embryogenesis. We have previously reported the discovery of six new mouse T-box genes, Tbx1-Tbx6, and described the expression patterns of Tbx1-Tbx5 (Bollag et al., 1994; Agulnik et al., 1996; Chapman et al., 1996; Gibson-Brown et al., 1996). We have obtained cDNA clones encoding the full-length Tbx6 protein from screens of gastrulation-stage mouse cDNA libraries and determined the spatial and temporal distribution of Tbx6 transcripts during embryogenesis. The gene codes for a 1.9-kb transcript with an open reading frame coding for a 540-amino acid protein, with a predicted molecular weight of 59 kDa. Tbx6 maps to chromosome 7 and does not appear to be linked to any known mutation. Unlike other members of the mouse T-box gene family which are expressed in a wide variety of tissues derived from all germ layers, Tbx6 expression is quite restricted. Tbx6 transcripts are first detected in the gastrulation stage embryo in the primitive streak and newly recruited paraxial mesoderm. Later in development, Tbx6 expression is restricted to presomitic, paraxial mesoderm and to the tail bud, which replaces the streak as the source of mesoderm. Expression in the tail bud persists until 12. 5 days postcoitus. Tbx6 expression thus overlaps that of Brachyury in the primitive streak and tail bud, although Brachyury is expressed earlier in the primitive streak. Brachyury is also expressed in a second domain, the node and notochord, that is not shared with Tbx6. The onset of Tbx6 expression is not affected in homozygous null Brachyury mutant embryos at 7.5 days postcoitus. However, Tbx6 expression is extinguished in mutant embryos as soon as the Brachyury phenotype becomes evident at 8.5 days postcoitus, indicating that the continued expression of Tbx6 is directly or indirectly dependent upon Brachyury expression.
The T-box gene family has been conserved throughout metazoan evolution. The genes code for putative transcription factors which share a uniquely defining DNA binding domain, known as the T-box ([Bollag et al., 1994]). They are implicated in the control of diverse developmental processes by their highly specific expression patterns throughout gastrulation and organogenesis in mouse and other species ([Chapman et al., 1996]) ([Gibson-Brown et al., 1998]), and by mutations in T-box genes that have profound developmental effects ([Papaioannou, 1997]; [Chapman and Papaioannou, 1998]; [Papaioannou and Silver, 1998]). In this report, we describe the mapping and expression pattern of the mouse ortholog of a gene, Eomesodermin, first identified in Xenopus ([Ryan et al., 1996]). The mouse gene was previously reported ([Wattler et al., 1998]) under the name MmEomes. The gene maps to mouse chromosome 9 in a region syntenic with human chromosome 3p. Mouse eomesodermin is expressed in the trophoblast of the blastocyst and in its derivative, the chorionic ectoderm. At gastrulation, eomesodermin is expressed in the primitive streak and embryonic mesoderm as well, but this expression disappears prior to the end of gastrulation. Later, eomesodermin is expressed in the developing forebrain, in a pattern largely overlapping a closely related T-box gene, Tbr1 ([Bulfone et al., 1995]), and is also seen in a localized area of each limb.
We describe a novel chick WD-protein, cSWiP-1, expressed in somitic mesoderm and developing limb buds as well as in other embryonic structures where Hedgehog signalling has been shown to play a role. Using embryonic manipulations we show that in somites cSWiP-1 expression integrates two signals originating from structures adjacent to the segmental mesoderm: a positive signal from the notochord and a negative signal from intermediate and/or lateral mesoderm. In explant cultures of somitic mesoderm, Shh protein induces cSWiP-1, while a blocking antibody to Shh inhibits the induction of cSWiP-1 by the notochord. These results show that the positive signal from the notochord is mediated by Shh. We also show that in limb buds cSWiP-1 is upregulated by ectopic Shh. This occurs in about the same time period as upregulation of BMP2, placing cSWiP-1 among the earliest markers for the change of limb pattern caused by ectopic Shh. We also describe a human homologue of cSWiP-1 and a mouse gene, mSWiP-2, that is more distantly related to SWiP-1, suggesting that SWiP-1 belongs to a novel subfamily of WD-proteins.
Push–pull opp-dibenzoporphyrins with a phenylethynyl bridge were newly synthesized as sensitizers for dye-sensitized solar cells, giving power conversion efficiencies up to 6.7%, close to that of the N719 dye under similar conditions.
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