Abstract
Anterior-posterior (AP) patterning in the Drosophila embryo is dependent on the Bicoid (Bcd) morphogen gradient. However, most target genes of Bcd also require additional inputs to establish their expression domains, reflective of the operation of a cross-regulatory network and contributions of other maternal signals. This is in contrast to hunchback (hb), which has an anterior expression domain driven by an enhancer that appears to respond primarily to the Bcd input. To gain a better understanding of the regulatory logic of the AP patterning network, we perform quantitative studies that specifically investigate the dynamics of hb transcription during development. We show that Bcd-dependent hb transcription, monitored by the intron-containing nascent transcripts near the P2 promoter, is turned off quickly–on the order of a few minutes–upon entering the interphase of nuclear cycle 14A. This shutdown contrasts with earlier cycles during which active hb transcription can persist until the moment when the nucleus enters mitosis. The shutdown takes place at a time when the nuclear Bcd gradient profile in the embryo remains largely intact, suggesting that this is a process likely subject to control of a currently unknown regulatory mechanism. We suggest that this dynamic feature offers a window of opportunity for hb to faithfully interpret, and directly benefit from, Bcd gradient properties, including its scaling properties, to help craft a robust AP patterning outcome.
Highlights
Transcriptional regulatory networks play critical roles in embryonic patterning [1,2,3,4,5,6]
The quick shutdown of hb transcription in the Bcd-dependent primary domain contrasts with Kr transcription (Fig. 8), which is known to be subject to extensive cross-regulation by gap genes [58,59,60,61]
This shutdown contrasts with hb transcription at parasegment 4 (PS4) (Figs. 4D, H, and 5A), which is known to respond to cross-regulatory mechanisms during cycle 14A [24,41]
Summary
Transcriptional regulatory networks play critical roles in embryonic patterning [1,2,3,4,5,6]. In Drosophila, embryonic patterning along the anterior-posterior (AP) axis is initiated by the expression of gap genes in response to the morphogen gradient Bicoid (Bcd) and an extensive cross-regulatory network [4,7,8,9,10,11,12]. Modeling studies show that cross-regulation among gap genes can achieve precise and scaled patterning outcome [13,23]. The Bcd gradient itself exhibits scaling properties within a species [15,17], suggesting that developmental precision may benefit directly from Bcd if the scaling properties of this morphogen gradient can be directly and faithfully interpreted by its target gene(s) in controlling their expression patterns
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