Conserved and divergent expression aspects of the Drosophila segmentation gene hunchback in the short germ band embryo of the flour beetle Tribolium

Development ◽  
1995 ◽  
Vol 121 (12) ◽  
pp. 4227-4236 ◽  
Author(s):  
C. Wolff ◽  
R. Sommer ◽  
R. Schroder ◽  
G. Glaser ◽  
D. Tautz
Keyword(s):  
Translational Control ◽  
Early Stage ◽  
Posterior Pole ◽  
Drosophila Embryo ◽  
Germ Band ◽  
Expression Domain ◽  
Segmentation Gene ◽  
Flour Beetle ◽  
Different Types ◽  
Anterior Posterior

The segmentation gene hunchback (hb) plays a central role in determining the anterior-posterior pattern in the Drosophila embryo. We have cloned the homologue of hb from the flour beetle Tribolium and show that, on the basis of its expression pattern, most of its functions seem to be conserved between these two species. Like Drosophila, Tribolium has a maternal hb expression that appears to be under translational control by a factor at the posterior pole of the embryo. The maternal expression is followed by a zygotic expression in the region of the developing head and thoracic segments. During germ band extension, a posterior expression domain appears that is likely to be homologous to the posterior blastoderm expression of hb in Drosophila. These observations suggest that hb may have the same functions in early Drosophila and Tribolium development, despite the different types of embryogenesis in these two species (long versus short germ development). One differing aspect of hb expression in Tribolium concerns a structure that is not present in Drosophila, namely the serosa. An hb expression domain at the anterior pole precisely demarcates the border between the extraembryonic serosa and the embryonic field in the Tribolium embryo at an early stage, and hb protein remains expressed in the serosa cells until the end of embryogenesis.

A common translational control mechanism functions in axial patterning and neuroendocrine signaling inDrosophila

Development ◽  
2002 ◽  
Vol 129 (14) ◽  
pp. 3325-3334 ◽  
Author(s):  
Ira E. Clark ◽  
Krista C. Dobi ◽  
Heather K. Duchow ◽  
Anna N. Vlasak ◽  
Elizabeth R. Gavis
Keyword(s):  
Gene Expression ◽  
Translational Control ◽  
Ectopic Expression ◽  
Drosophila Embryo ◽  
Control Element ◽  
Molting Cycle ◽  
Axial Patterning ◽  
Cis Acting ◽  
Maternal Mrnas ◽  
Anterior Posterior

Translational repression of maternal nanos (nos) mRNA by a cis-acting Translational Control Element (TCE) in the nos 3′UTR is critical for anterior-posterior patterning of the Drosophila embryo. We show, through ectopic expression experiments, that the nos TCE is capable of repressing gene expression at later stages of development in neuronal cells that regulate the molting cycle. Our results predict additional targets of TCE-mediated repression within the nervous system. They also suggest that mechanisms that regulate maternal mRNAs, like TCE-mediated repression, may function more widely during development to spatially or temporally control gene expression.

scholarly journals Dynamics of hunchback translation in real time and at single mRNA resolution in the Drosophila embryo

Development ◽  
2021 ◽  
pp. dev.196121
Author(s):  
Daisy J. Vinter ◽  
Caroline Hoppe ◽  
Thomas G. Minchington ◽  
Catherine Sutcliffe ◽  
Hilary L. Ashe
Keyword(s):  
Single Molecule ◽  
Translational Regulation ◽  
Mrna Translation ◽  
Drosophila Embryo ◽  
Translational Repression ◽  
Expression Domain ◽  
Culture Cells ◽  
Spatiotemporal Regulation ◽  
Developmental Patterning ◽  
Anterior Posterior

The Hunchback (Hb) transcription factor is critical for anterior-posterior patterning of the Drosophila embryo. Despite the maternal hb mRNA acting as a paradigm for translational regulation, due to its repression in the posterior of the embryo, little is known about the translatability of zygotically transcribed hb mRNAs. Here we adapt the SunTag system, developed for imaging translation at single mRNA resolution in tissue culture cells, to the Drosophila embryo to study the translation dynamics of zygotic hb mRNAs. Using single-molecule imaging in fixed and live embryos, we provide evidence for translational repression of zygotic SunTag-hb mRNAs. While the proportion of SunTag-hb mRNAs translated is initially uniform, translation declines from the anterior over time until it becomes restricted to a posterior band in the expression domain. We discuss how regulated hb mRNA translation may help establish the sharp Hb expression boundary, which is a model for precision and noise during developmental patterning. Overall, our data show how use of the SunTag method on fixed and live embryos is a powerful combination for elucidating spatiotemporal regulation of mRNA translation in Drosophila.

scholarly journals Dynamics of hunchback translation in real time and at single mRNA resolution in the Drosophila embryo

2021 ◽  
Author(s):  
Daisy J. Vinter ◽  
Caroline Hoppe ◽  
Thomas G. Minchington ◽  
Catherine Sutcliffe ◽  
Hilary L. Ashe
Keyword(s):  
Translational Regulation ◽  
Mrna Translation ◽  
Drosophila Embryo ◽  
Translational Repression ◽  
Expression Domain ◽  
Culture Cells ◽  
Tissue Culture Cells ◽  
Spatiotemporal Regulation ◽  
Developmental Patterning ◽  
Anterior Posterior

AbstractThe Hunchback (Hb) transcription factor is critical for anterior-posterior patterning of the Drosophila embryo. Despite the maternal hb mRNA acting as a paradigm for translational regulation, due to its repression in the posterior of the embryo, little is known about the translatability of zygotically transcribed hb mRNAs. Here we adapt the SunTag system, developed for imaging translation at single mRNA resolution in tissue culture cells, to the Drosophila embryo to study the translation dynamics of zygotic hb mRNAs. Using singlemolecule imaging in fixed and live embryos, we provide evidence for translational repression of zygotic SunTag-hb mRNAs. While the proportion of SunTag-hb mRNAs translated is initially uniform, translation declines from the anterior over time until it becomes restricted to a posterior band in the expression domain. We discuss how regulated hb mRNA translation may help establish the sharp Hb expression boundary, which is a model for precision and noise during developmental patterning. Overall, our data show how use of the SunTag method on fixed and live embryos is a powerful combination for elucidating spatiotemporal regulation of mRNA translation in Drosophila.

Post-Tonsillectomy Hemorrhage Diagnosis and Management

2008 ◽  
Vol 139 (2_suppl) ◽  
pp. P34-P35 ◽  
Author(s):  
Michael S Morris
Keyword(s):  
Ct Angiography ◽  
Early Stage ◽  
Cardiopulmonary Arrest ◽  
Vascular Trauma ◽  
Post Mortem ◽  
Direct Examination ◽  
Operative Field ◽  
Different Types ◽  
Vascular Physiology ◽  
Vascular Spasm

Objective 1) Better recognize pathophysiology of postoperative tonsillectomy hemorrhage. 2) Be able to better differentiate the different types of post-tonsillectomy hemorrhage based upon understanding the vascular physiology and adjust management accordingly. Methods Post-tonsillectomy complications in children and adults were reviewed. 7 cases of hemorrhage, including 5 deaths, were carefully reviewed. Patients ranged between 2–40 years of age. This represents the largest series of post-tonsillectomy deaths reported to date. All postoperative deaths were due to bleeding and cardiopulmonary arrest. Post-mortem analysis was undertaken on those patients. CT angiography was reviewed in one surviving patient and the utility of this type of scanning is discussed. Results Post-tonsillectomy bleeding is one of the most worrisome otolaryngology concerns. Patients with bleeding on postoperative days 2–3 reported episodic bleeding stopping spontaneously. In these patients, the episode of unobserved bleeding signaled a vascular spasm with a likehood of recurrence. When the bleeding recurred it was massive and occured in a uncontrolled setting, leading to a poor outcome. Vascular trauma and spasm is likely. Conclusions Postoperative tonsillectomy bleeding is better managed by differentiating those patients with early stage bleeding on postoperative days 2–3. Direct examination of the operative field is imperative. Ancillary testing including CT angiograpy is helpful in the evaluation.

Influence fast or later: two types of influencers in social networks

2021 ◽  
Author(s):  
Fang Zhou ◽  
Chang Su ◽  
Shuqi Xu ◽  
Linyuan Lü
Keyword(s):  
Final Stage ◽  
Early Stage ◽  
Large Fraction ◽  
Structure And Function ◽  
Spreading Process ◽  
Spreading Effect ◽  
Local Structures ◽  
Different Types ◽  
Small Set ◽  
And Function

Abstract In real-world networks, there usually exist a small set of nodes that play an important role in the structure and function of networks. Those vital nodes can influence most other nodes in the network via a spreading process. While most of the existing works focused on vital nodes that can maximize the spreading size in the final stage, which we call final influencers, recent work proposed the idea of fast influencers, which emphasizes nodes’ spreading capacity at the early stage. Despite the recent surge of efforts in identifying these two types of influencers in networks, there remained limited research on untangling the differences between fast influencers and final influencers. In this paper, we first distinguish the two types of influencers: fast-only influencers and final-only influencers. The former is defined as individuals who can achieve a high spreading effect at the early stage but lose their superiority in the final stage, and the latter are those individuals that fail to exhibit a prominent spreading performance at the early stage but influence a large fraction of nodes at the final stage. Further experiments based on eight empirical datasets, we reveal the key differences between the two types of influencers concerning their spreading capacity and the local structures. We also analyze how network degree assortativity influences the fraction of the proposed two types of influencers. The results demonstrate that with the increase of degree assortativity, the fraction of the fast-only influencers decreases, which indicates that more fast influencers tend to keep their superiority at the final stage. Our study provides insights into the differences and evolution of different types of influencers and has important implications for various empirical applications, such as advertisement marketing, and epidemic suppressing.

Differentiation and positioning of nuclei in eggs of the cecidomyid Heteropeza pygmaea

1976 ◽  
Vol 22 (1) ◽  
pp. 99-113
Author(s):  
M. Meats ◽  
J.B. Tucker
Keyword(s):  
Structural Changes ◽  
Early Stage ◽  
Cell Formation ◽  
Longitudinal Axis ◽  
Posterior Pole ◽  
Spindle Orientation ◽  
Specific Sequence ◽  
Pole Cell ◽  
Polar Granules ◽  
Egg Chamber

During the first three cleavage divisions of the egg nuclei a precise sequence of spindle orientation and elongation parallel to the longitudinal axis of the egg is apparently involved in positioning one nucleus among the polar granules at the posterior pole of the egg. The size of this nucleus, and the position at which the egg cleaves when pole cell formation occurs, appear to constitute part of the mechanism which ensures that only one nucleus is included in the first pole cell. Blastoderm formation occurs without a well-defined migration of nuclei to the egg surface. Nuclei are so large in relation to the size of the egg that uniform spacing and distribution of nuclei ensures that a large proportion are situated near the egg surface. Those nuclei which are near the egg surface divide synchronously to form a layer of blastoderm nuclei, while membranous cleavage furrows invaginate from the egg surface between them. Nuclei in the central region of the egg chamber condense to form yolk nuclei before blastoderm nuclei have been separated from the rest of the egg by the completion of the cleavage membranes. Polar granules provide the only evidence of fine-structural differences in different regions of the egg chamber cytoplasm. They are found near the posterior pole of the egg from an early stage of oogenesis. They undergo a specific sequence of structural changes and increase in size as the egg grows. No microtubular or microfibrillar arrays have been found in the egg chamber which might form a cytoskeletal basis for spindle orientation or for the spatial differences which develop during differentiation of the uncleaved egg cytoplasm.

A group of genes required for maintenance of the amnioserosa tissue in Drosophila

Development ◽  
1996 ◽  
Vol 122 (5) ◽  
pp. 1343-1352 ◽  
Author(s):  
L.H. Frank ◽  
C. Rushlow
Keyword(s):  
Cell Death ◽  
Cell Loss ◽  
Dorsal Side ◽  
Drosophila Embryo ◽  
Epithelial Tissue ◽  
Dorsoventral Patterning ◽  
Wild Type ◽  
Germ Band ◽  
Initial Development

The amnioserosa is an extraembryonic, epithelial tissue that covers the dorsal side of the Drosophila embryo. The initial development of the amnioserosa is controlled by the dorsoventral patterning genes. Here we show that a group of genes, which we refer to as the U-shaped-group (ush-group), is required for maintenance of the amnioserosa tissue once it has differentiated. Using several molecular markers, we examined amnioserosa development in the ush-group mutants: u-shaped (ush), hindsight (hnt), serpent (srp) and tail-up (tup). Our results show that the amnioserosa in these mutants is specified correctly and begins to differentiate as in wild type. However, following germ-band extension, there is a premature loss of the amnioserosa. We demonstrate that this cell loss is a consequence of programmed cell death (apoptosis) in ush, hnt and srp, but not in tup. We discuss the role of the ush-group genes in maintaining the amnioserosa's viability. We also discuss a possible role for the amnioserosa in germ-band retraction in light of these mutants' unretracted phenotype.

Recent advances in polymer shell-oily core nanocapsules for drug delivery applications

Nanomedicine ◽  
2021 ◽  
Author(s):  
Ahmed S AbdElhamid ◽  
Dina G Zayed ◽  
Lamia Heikal ◽  
Sherine N Khattab ◽  
Omar Y Mady ◽  
...  
Keyword(s):  
Drug Delivery ◽  
Drug Delivery Systems ◽  
Early Stage ◽  
Controlled Drug Release ◽  
Delivery Systems ◽  
Polymeric Membranes ◽  
Polymer Shell ◽  
Recent Advances ◽  
Target Sites ◽  
Different Types

Polymeric nanocapsules are vesicular drug delivery systems composed of an inner oily reservoir surrounded by polymeric membranes. Nanocapsules have various advantages over other nanovesicular systems such as providing controlled drug release properties. We discuss the recent advances in polymeric shell-oily core nanocapsules, illustrating the different types of polymers used and their implementation. Nanocapsules can be utilized for many purposes, especially encapsulation of highly lipophilic drugs. They have been shown to have variable applications, especially in cancer therapy, due to the ability of the polymeric shell to direct the loaded drugs to their target sites, as well as their high internalization efficacy. Those productive applications guaranteed their high potential as drug delivery systems. However, their clinical development is still in an early stage.

Role for mRNA localization in translational activation but not spatial restriction of nanos RNA

Development ◽  
1999 ◽  
Vol 126 (4) ◽  
pp. 659-669 ◽  
Author(s):  
S.E. Bergsten ◽  
E.R. Gavis
Keyword(s):  
Translational Control ◽  
Rna Localization ◽  
Early Embryo ◽  
Posterior Pole ◽  
Translational Repression ◽  
Control Element ◽  
Regulatory Sequences ◽  
Cis Acting ◽  
Body Patterning ◽  
Localization Signal

Patterning of the anterior-posterior body axis during Drosophila development depends on the restriction of Nanos protein to the posterior of the early embryo. Synthesis of Nanos occurs only when maternally provided nanos RNA is localized to the posterior pole by a large, cis-acting signal in the nanos 3′ untranslated region (3′UTR); translation of unlocalized nanos RNA is repressed by a 90 nucleotide Translational Control Element (TCE), also in the 3′UTR. We now show quantitatively that the majority of nanos RNA in the embryo is not localized to the posterior pole but is distributed throughout the cytoplasm, indicating that translational repression is the primary mechanism for restricting production of Nanos protein to the posterior. Through an analysis of transgenes bearing multiple copies of nanos 3′UTR regulatory sequences, we provide evidence that localization of nanos RNA by components of the posteriorly localized germ plasm activates its translation by preventing interaction of nanos RNA with translational repressors. This mutually exclusive relationship between translational repression and RNA localization is mediated by a 180 nucleotide region of the nanos localization signal, containing the TCE. These studies suggest that the ability of RNA localization to direct wild-type body patterning also requires recognition of multiple, unique elements within the nanos localization signal by novel factors. Finally, we propose that differences in the efficiencies with which different RNAs are localized result from the use of temporally distinct localization pathways during oogenesis.

scholarly journals Effects of the maternal factor Zelda on zygotic enhancer activity in the Drosophila embryo

2018 ◽  
Author(s):  
Xiao-Yong Li ◽  
Michael B. Eisen
Keyword(s):  
Binding Sites ◽  
Expression Patterns ◽  
Drosophila Embryo ◽  
Temporal Expression ◽  
Reporter Construct ◽  
Limited Effect ◽  
Enhancer Activity ◽  
Maternal Factor ◽  
Anterior Posterior

AbstractThe maternal factor Zelda is broadly bound to zygotic enhancers during early fly embryogenesis, and has been shown to be important for the expression of a large number of genes. However, its function remains poorly understood. Here, we carried out detailed analysis of the functional role of Zelda on the activities of a group of enhancers that drive patterned gene expression along the anterior -posterior axis. We found that among these enhancers, only one lost its activity entirely when all its Zelda bind sites were mutated. For all others, mutations of all of their Zelda binding sites only had limited effect, which varied temporally and spatially. These results suggest that Zld may exert a quantitative effect on a broad range of enhancers, which presumably is critical to generate highly diverse spatial and temporal expression patterns for different genes in the developmental gene network in fly embryo. Lastly, we found that the observed effect of Zelda site mutations was much stronger when a mutant enhancer was tested using a BAC based reporter construct than a simple reporter construct, suggesting that the effect of Zld is dependent on chromatin environment.

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