Dynamics of <i>hunchback</i> translation in real-time and at single-mRNA resolution in the <i>Drosophila</i> embryo

Vinter, Daisy J.; Hoppe, Caroline; Minchington, Thomas G; Sutcliffe, Catherine; Ashe, Hilary L.

doi:10.1242/dev.196121

Cited by 16 publications

(47 citation statements)

References 62 publications

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“…Recently, it was demonstrated that the translation efficiency of ribosomes of the early Drosophila egg is not linear along the A-P axis, exemplified by an analysis on the gap gene hunchback ( hb ) [ 67 ]. A completely new hallmark of this report was that hb expression levels would not only be dependent on the binding of the necessary transcription factors driving the gene, e.g.…”

Section: Discussionmentioning

confidence: 99%

Modulating the bicoid gradient in space and time

2021

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Background The formation of the Bicoid (Bcd) gradient in the early Drosophila is one of the most fascinating observations in biology and serves as a paradigm for gradient formation, yet its mechanism is still not fully understood. Two distinct models were proposed in the past, the SDD and the ARTS model. Results We define novel cis- and trans-acting factors that are indispensable for gradient formation. The first one is the poly A tail length of the bcd mRNA where we demonstrate that it changes not only in time, but also in space. We show that posterior bcd mRNAs possess a longer poly tail than anterior ones and this elongation is likely mediated by wispy (wisp), a poly A polymerase. Consequently, modulating the activity of Wisp results in changes of the Bcd gradient, in controlling downstream targets such as the gap and pair-rule genes, and also in influencing the cuticular pattern. Attempts to modulate the Bcd gradient by subjecting the egg to an extra nuclear cycle, i.e. a 15th nuclear cycle by means of the maternal haploid (mh) mutation showed no effect, neither on the appearance of the gradient nor on the control of downstream target. This suggests that the segmental anlagen are determined during the first 14 nuclear cycles. Finally, we identify the Cyclin B (CycB) gene as a trans-acting factor that modulates the movement of Bcd such that Bcd movement is allowed to move through the interior of the egg. Conclusions Our analysis demonstrates that Bcd gradient formation is far more complex than previously thought requiring a revision of the models of how the gradient is formed.

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Section: Discussionmentioning

confidence: 99%

Modulating the bicoid gradient in space and time

2021

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“…Introduction of the SunTag array into the protein of interest (POI), and subsequent binding of a single chain antibody-fluorescent protein fusion (scFv-FP) to the nascent SunTag peptides ( Figure 1 A), allows translation to be visualized in the Drosophila embryo ( Dufourt et al., 2021 ; Vinter et al., 2021 ). Insertion of SunTag at the start of the coding sequence enables rapid visualization of translation sites and maximizes their signal, facilitating early detection and quantitation.…”

Section: Before You Beginmentioning

confidence: 99%

“…Single molecule fluorescent in situ hybridization (smFISH) is used with SunTag labeling ( Figure 1 B) to visualize translation of individual mRNAs in fixed embryos, whereas the MS2/MCP system for mRNA detection is exploited for live imaging of translation. Insertion of 128 MS2 copies gives the required sensitivity for single mRNA detection ( Vinter et al. 2021 ; Dufourt et al.…”

Section: Before You Beginmentioning

confidence: 99%

“…Simultaneous detection of individual mRNAs using the MS2/MCP system or by smFISH allows translation sites to be identified and quantified. For complete information on the generation and use of this protocol, please refer to Vinter et al. (2021) .…”

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confidence: 99%

“…For complete information on the generation and use of this protocol, please refer to Vinter et al. (2021) .…”

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Live and fixed imaging of translation sites at single mRNA resolution in the Drosophila embryo

2021

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Summary Significant regulation of gene expression is mediated at the translation level. Here, we describe protocols for imaging and analysis of translation at single mRNA resolution in both fixed and living Drosophila embryos. These protocols use the SunTag system, in which the protein of interest is visualized by inserting a peptide array that is recognized by a single chain antibody. Simultaneous detection of individual mRNAs using the MS2/MCP system or by smFISH allows translation sites to be identified and quantified. For complete information on the generation and use of this protocol, please refer to Vinter et al. (2021) .

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Vasa, a regulator of localized mRNA translation on the spindle

2023

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Localized mRNA translation is a biological process that allows mRNA to be translated on-site, which is proposed to provide fine control in protein regulation, both spatially and temporally within a cell. We recently reported that Vasa, an RNA-helicase, is a promising factor that appears to regulate this process on the spindle during the embryonic development of the sea urchin, yet the detailed roles and functional mechanisms of Vasa in this process are still largely unknown. In this review article, to elucidate these remaining questions, we first summarize the prior knowledge and our recent findings in the area of Vasa research and further discuss how Vasa may function in localized mRNA translation, contributing to efficient protein regulation during rapid embryogenesis and cancer cell regulation.

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

Cited by 16 publications

References 62 publications

Modulating the bicoid gradient in space and time

Modulating the bicoid gradient in space and time

Live and fixed imaging of translation sites at single mRNA resolution in the Drosophila embryo

Vasa, a regulator of localized mRNA translation on the spindle

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