tretinoin and 3-3--dioctadecylindocarbocyanine

tretinoin has been researched along with 3-3--dioctadecylindocarbocyanine* in 1 studies

Other Studies

1 other study(ies) available for tretinoin and 3-3--dioctadecylindocarbocyanine

Article	Year
Fate map of the developing chick face: analysis of expansion of facial primordia and establishment of the primary palate. Developmental dynamics : an official publication of the American Association of Anatomists, 1998, Volume: 212, Issue:1 Developing facial primordia change shape substantially in stages leading up to primary palate formation. We investigated expansion of cell populations within each of the four facial primordia of chick embryos between HH-stages 20 and 28, by using DiI labelling. Populations of cells centred around the nasal pits in the upper face, the midline of the paired mandibular primordia in the lower face, and at sites of fusion contribute most to overall expansion. Abundant Msx-1 transcripts are found in regions of high expansion, and Fgf-8 transcripts are seen in ectoderm associated with some of these regions. Many cell populations display preferential expansion along one axis. Maxillary and mandibular primordia cell populations expand along the proximodistal axis, whereas at the distal tip of the frontonasal mass, cell populations expand mediolaterally. Thus outgrowth occurs at the tips of mandibular and maxillary primordia, but at the base of the frontonasal mass. At regions where adjacent primordia abut each other, we found bidirectional movement of cells between primordia, unidirectional movement or could detect no movement at all. Regions of highest expansion in each primordium have the highest percentage of S phase labelled cells. Cell death occurs in some regions of low expansion but it seems likely that cell rearrangements and intercalations also contribute to shaping. These rearrangements could be associated with stretching of the primordia by neighbouring tissues. Treatment of chick embryos with retinoic acid causes clefts of the primary palate (Tamarin et al. [1984] J. Embryol. Exp. Morphol. 84:105-123). We found a decrease in expansion of cell populations that normally contribute to primary palate formation but surprisingly little ectopic cell death. Expansion of other cell populations in the treated upper face was more even rather than directed. This further supports the idea that tension exerted by neighbouring tissues plays a major role in global shaping of the upper face. Topics: Animals; Carbocyanines; Cell Death; Cell Division; Chick Embryo; Facial Bones; Fibroblast Growth Factor 8; Fibroblast Growth Factors; Fluorescent Dyes; Gene Expression; Homeodomain Proteins; Mandible; Maxilla; Maxillofacial Development; MSX1 Transcription Factor; Palate; Transcription Factors; Tretinoin	1998

Article

Year

Fate map of the developing chick face: analysis of expansion of facial primordia and establishment of the primary palate.

Developmental dynamics : an official publication of the American Association of Anatomists, 1998, Volume: 212, Issue:1

Developing facial primordia change shape substantially in stages leading up to primary palate formation. We investigated expansion of cell populations within each of the four facial primordia of chick embryos between HH-stages 20 and 28, by using DiI labelling. Populations of cells centred around the nasal pits in the upper face, the midline of the paired mandibular primordia in the lower face, and at sites of fusion contribute most to overall expansion. Abundant Msx-1 transcripts are found in regions of high expansion, and Fgf-8 transcripts are seen in ectoderm associated with some of these regions. Many cell populations display preferential expansion along one axis. Maxillary and mandibular primordia cell populations expand along the proximodistal axis, whereas at the distal tip of the frontonasal mass, cell populations expand mediolaterally. Thus outgrowth occurs at the tips of mandibular and maxillary primordia, but at the base of the frontonasal mass. At regions where adjacent primordia abut each other, we found bidirectional movement of cells between primordia, unidirectional movement or could detect no movement at all. Regions of highest expansion in each primordium have the highest percentage of S phase labelled cells. Cell death occurs in some regions of low expansion but it seems likely that cell rearrangements and intercalations also contribute to shaping. These rearrangements could be associated with stretching of the primordia by neighbouring tissues. Treatment of chick embryos with retinoic acid causes clefts of the primary palate (Tamarin et al. [1984] J. Embryol. Exp. Morphol. 84:105-123). We found a decrease in expansion of cell populations that normally contribute to primary palate formation but surprisingly little ectopic cell death. Expansion of other cell populations in the treated upper face was more even rather than directed. This further supports the idea that tension exerted by neighbouring tissues plays a major role in global shaping of the upper face.

Topics: Animals; Carbocyanines; Cell Death; Cell Division; Chick Embryo; Facial Bones; Fibroblast Growth Factor 8; Fibroblast Growth Factors; Fluorescent Dyes; Gene Expression; Homeodomain Proteins; Mandible; Maxilla; Maxillofacial Development; MSX1 Transcription Factor; Palate; Transcription Factors; Tretinoin

1998