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Embryonic Expression (embryonic + expression)

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Life Sciences80%

Selected Abstracts

Frontal nasal prominence expression driven by Tcfap2a relies on a conserved binding site for STAT proteins

DEVELOPMENTAL DYNAMICS, Issue 5 2006
Amy L. Donner
Abstract The AP-2 transcription factor family is linked with development of the head and limbs in both vertebrate and invertebrate species. Recent evidence has also implicated this gene family in the evolution of the neural crest in chordates, a critical step that allowed the development and elaboration of the vertebrate craniofacial skeleton. In mice, the inappropriate embryonic expression of one particular AP-2 gene, Tcfap2a, encoding AP-2,, results in multiple developmental abnormalities, including craniofacial and limb defects. Thus, Tcfap2a provides a valuable genetic resource to analyze the regulatory hierarchy responsible for the evolution and development of the face and limbs. Previous studies have identified a 2-kilobase intronic region of both the mouse and human AP-2, locus that directs expression of a linked LacZ transgene to the facial processes and the distal mesenchyme of the limb bud in transgenic mice. Further analysis identified two highly conserved regions of ,200,400 bp within this tissue-specific enhancer. We have now initiated a transgenic and biochemical analysis of the most important of these highly conserved regions. Our analysis indicates that although the sequences regulating face and limb expression have been integrated into a single enhancer, different cis -acting sequences ultimately control these two expression domains. Moreover, these studies demonstrate that a conserved STAT binding site provides a major contribution to the expression of Tcfap2a in the facial prominences. Developmental Dynamics 235:1358,1370, 2006. © 2006 Wiley-Liss, Inc. [source]

Myopodia (postsynaptic filopodia) participate in synaptic target recognition

DEVELOPMENTAL NEUROBIOLOGY, Issue 1 2003
Sarah Ritzenthaler
Abstract Synaptic partner cells recognize one another by utilizing a variety of molecular cues. Prior to neuromuscular synapse formation, Drosophila embryonic muscles extend dynamic actin-based filopodia called "myopodia." In wild-type animals, myopodia are initially extended randomly from the muscle surface but become gradually restricted to the site of motoneuron innervation, a spatial redistribution we call "clustering." Previous experiments with prospero mutant embryos demonstrated that myopodia clustering does not occur in the absence of motoneuron outgrowth into the muscle field. However, whether myopodia clustering is due to a general signal from passing axons or is a result of the specific interactions between synaptic partners remained to be investigated. Here, we have examined the relationship of myopodia to the specific events of synaptic target recognition, the stable adhesion of synaptic partners. We manipulated the embryonic expression of ,PS2 integrin and Toll, molecules known to affect synaptic development, to specifically alter synaptic targeting on identified muscles. Then, we used a vital single-cell labeling approach to visualize the behavior of myopodia in these animals. We demonstrate a strong positive correlation between myopodia activity and synaptic target recognition. The frequency of myopodia clustering is lowered in cases where synaptic targeting is disrupted. Myopodia clustering seems to result from the adherence of a subset of myopodia to the innervating growth cone while the rest are eliminated. The data suggest that postsynaptic cells play a dynamic role in the process of synaptic target recognition. © 2003 Wiley Periodicals, Inc. J Neurobiol 55: 31,40, 2003 [source]

Expression of trunk Hox genes in the centipede Strigamia maritima: sense and anti-sense transcripts

EVOLUTION AND DEVELOPMENT, Issue 3 2006
Carlo Brena
SUMMARY We report the coding sequence and embryonic expression of the four trunk Hox genes Antennapedia (Antp), Ultrabithorax (Ubx), abdominal-A (abd-A), and Abdominal-B (Abd-B) in the geophilomorph centipede Strigamia maritima. In geophilomorph centipedes, all leg-bearing segments (LBS) are generated during embryogenesis, allowing us to define expression in relation to the full extent of the forming trunk. Persistent Antp expression characterizes the maxillipedal (poison claw) segment, whereas all LBS express the three Hox genes Antp, Ubx, and abd-A. Abd-B is never detectably expressed in segmented tissue, but is restricted to a zone around the proctodaeum that contributes to the hindgut. Expression of all these Hox genes initiates in the unsegmented tissue of the blastodisc, with expression of Antp respecting a sharply defined anterior border before the appearance of morphological segmentation in the trunk. The accumulation of Hox gene transcripts is strongly modulated by the maturing segment pattern, suggesting regulatory interactions with multiple levels of the segment patterning machinery. For one of these genes, Ubx, we detect both sense and anti-sense transcripts. The anti-sense transcripts originate 3, to the Ubx coding sequence and overlap the homeobox exon; they are expressed earlier than the Ubx coding transcripts and persistently, in an axially restricted pattern comparable to but distinct from those of the Hox coding transcripts. The pattern of accumulation of Ubx sense and anti-sense transcripts is strikingly complementary, suggesting the possibility of anti-sense regulation of Ubx expression. [source]

Neutrophil gelatinase-associated lipocalin is a marker for dysregulated keratinocyte differentiation in human skin

EXPERIMENTAL DERMATOLOGY, Issue 6 2002
Lotus Mallbris
Abstract: Neutrophil gelatinase-associated lipocalin (NGAL) is a 25-kDa protein initially isolated from the specific granules of human neutrophils. It is a member of the highly heterogeneous lipocalin protein family, which shares a common tertiary structure. Its synthesis is induced in gastrointestinal epithelium in association with inflammation and malignancy. To gain insight into its potential role in other epithelia we have investigated the expression of NGAL in human skin embryonic development, in normal adult skin, and in skin associated with inflammation and neoplastic transformation. In the present study we report that the embryonic expression of NGAL appears to be regulated in a spatio-temporal pattern. It was induced in the interfollicular epidermis at 20,24 weeks of gestational age but thereafter progressively receded towards the hair follicles. In normal adult skin, NGAL was detected solely in association with hair follicles. However, strong induction of NGAL in the epidermis was seen in a variety of skin disorders characterized by dysregulated epithelial differentiation such as psoriasis, pityriasis rubra and squamous cell carcinoma. In these tissues production of NGAL was confined to spatially distinct subpopulations of keratinocytes underlying areas of parakeratosis, whereas skin samples lacking parakeratotic epithelium such as lichen ruber planus, acute contact eczema and basal cell carcinoma were negative for NGAL. Consistent with being a marker for disturbed terminal differentiation, NGAL immunoreactivity showed an inverse pattern when compared with that of the differentiation marker filaggrin. The biologic functions of NGAL in epithelia are not fully known, although an immunomodulatory role in host defense has been proposed. In addition, the transient interfollicular NGAL expression during skin embryogenesis along with the induction of NGAL in adult parakeratotic epidermis suggests it play a role in epithelial differentiation pathways. [source]

Transcriptional profiling using a novel cDNA array identifies differential gene expression during porcine embryo elongation

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 2 2005
So Hyun Lee
Abstract A novel porcine cDNA array, containing 1,015 PCR products selected for embryonic expression, was used for transcriptional profiling of conceptuses at four stages of peri-implantation development. Total conceptus RNA from small spherical, large spherical, tubular, and filamentous stages was amplified, converted to cDNA, and hybridized to membranes. Initially, normalized signal intensities obtained using cDNA from total RNA or from amplified RNA were compared. Uniform distribution of P -values associated with t -tests conducted for each gene indicated no evidence that amplification introduced bias. Analysis of data obtained by using amplified targets and the novel array identified genes differentially expressed across stages. Such genes were identified by testing for significant stage effects in gene-specific mixed models. A total of nine genes were declared differentially expressed. Six of the nine genes had P -values less than 0.001, and a false discovery rate of approximately 17% was associated with this significance threshold. Two out of six genes were significant when using the Bonferroni method to control the probability of one or more false positives. The other three genes had P -values between 0.001 and 0.01 and exhibited differences greater than twofold between stages. All four genes selected for confirmation (steroidogenic acute regulatory protein, interleukin 1 beta, transforming growth factor beta 3, and thymosin beta 10) were shown to be differentially expressed by using quantitative real time RT-PCR. Our study shows that RNA amplification is useful for transcriptional profiling with limiting porcine embryonic RNA, and that this novel targeted array can detect differential gene expression during trophoblastic elongation. Finally, our results contribute to an increased understanding of the temporal patterns of expression of known genes controlling conceptus development, as well as identify novel genes also differentially regulated during implantation. Mol. Reprod. Dev. 71: 129,139, 2005. © 2005 Wiley-Liss, Inc. [source]