Abstract

BackgroundA hallmark of Drosophila segmentation is the stepwise subdivision of the body into smaller and smaller units, and finally into the segments. This is achieved by the function of the well-understood segmentation gene cascade. The first molecular sign of a segmented body appears with the action of the pair rule genes, which are expressed as transversal stripes in alternating segments. Drosophila development, however, is derived, and in most other arthropods only the anterior body is patterned (almost) simultaneously from a pre-existing field of cells; posterior segments are added sequentially from a posterior segment addition zone. A long-standing question is to what extent segmentation mechanisms known from Drosophila may be conserved in short-germ arthropods. Despite the derived developmental modes, it appears more likely that conserved mechanisms can be found in anterior patterning.ResultsExpression analysis of pair rule gene orthologs in the blastoderm of the pill millipede Glomeris marginata (Myriapoda: Diplopoda) suggests that these genes are generally involved in segmenting the anterior embryo. We find that the Glomeris pairberry-1 ( pby-1) gene is expressed in a pair rule pattern that is also found in insects and a chelicerate, the mite Tetraynchus urticae. Other Glomeris pair rule gene orthologs are expressed in double segment wide domains in the blastoderm, which at subsequent stages split into two stripes in adjacent segments.ConclusionsThe expression patterns of the millipede pair rule gene orthologs resemble pair rule patterning in Drosophila and other insects, and thus represent evidence for the presence of an ancestral pair rule-like mechanism in myriapods. We discuss the possibilities that blastoderm patterning may be conserved in long-germ and short-germ arthropods, and that a posterior double segmental mechanism may be present in short-germ arthropods.

Highlights

  • A hallmark of Drosophila segmentation is the stepwise subdivision of the body into smaller and smaller units, and into the segments

  • We find that all investigated pair rule genes (PRGs) orthologs, except one, are expressed in transversal stripes that are typical for segmentation genes and which are in patterns that may be in accord with an underlying pair rule-like mechanism

  • Morphology of the early Glomeris embryo and technical limitations of in situ hybridization experiments We previously reported on the expression profiles of PRG orthologs in the trunk of the pill millipede, Glomeris marginata [24]

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Summary

Introduction

A hallmark of Drosophila segmentation is the stepwise subdivision of the body into smaller and smaller units, and into the segments. Drosophila development, is derived, and in most other arthropods only the anterior body is patterned (almost) simultaneously from a pre-existing field of cells; posterior segments are added sequentially from a posterior segment addition zone. The GGs, that are expressed in broad overlapping domains along the anterior-posterior axis of the embryo, This mode of segment formation is called long-germ developmental mode because all segments are patterned from a pre-existing field of cells, the blastoderm The most anterior segments form from the blastoderm in the majority of arthropods, while the posterior segments are added in a single or double segment period from a posterior segment addition zone (SAZ) [10] This ancestral mode of development and segment formation is called short-germ developmental mode

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