Abstract
The phylum of Chordata is defined based on the discovery of a coelom-like dorsal notochord in ascidian and amphioxus embryos. Chordata can be classified into three subphylums, Cephalochordata, Urochordata, and Vertebrata, united by the presence of a notochord at some point during development. The origin of the notochord, the signature anatomical structure of chordates, has been under debate since the publication of Alexander Kovalevsky’s work in the mid-19th century that placed ascidians close to the vertebrates on the phylogenetic tree. During the late 20th century, the development of molecular and genetic tools in biology brought about a revival of studies on the evolutionary path of notochord development. Two main hypotheses for the origin of the notochord were proposed, the de novo theory and the axochord theory. The former states that notochord has developed de novo from the mid-dorsal archenteron of a chordate ancestor with simple morphology and no central nervous system nor notochord homolog. The putative notochord along the dorsal side of the animal is proposed to take on the signal functions later from the endoderm and ectoderm. An alternative hypothesis, the axochord theory, proposes that notochord has evolved from the mid-line muscle tissue, the so-called axochord, in annelids. Structural and molecular evidence point to the midline muscle of annelids as a distant homolog of the notochord. This hypothesis thus suggests a notochord-like structure in the urbilaterian ancestor, opposed to the consensus that notochord is a chordate-specific feature. In this review, we introduce the history of the formation of these views and summarize the current understandings of embryonic development, molecular profile, and gene regulatory networks of notochord and notochord-like structures.
Highlights
The notochord as an anatomical structure unites all chordates from lancelets to humans.It runs along the anterior–posterior (A–P) axis on the dorsal side of the animal and is surrounded by layers of notochord sheath
We choose to examine four essential transcription factors including beta-catenin, foxa, brachyury, and tbx2/3 from the perspective of their expression patterns during the development of the ascidian notochord. All these genes are versatile TFs that direct a myriad of developmental processes, whether their interactions in amphioxus and more basal species resembles the serial regulation in ascidian remains to be investigated
The various attempts made by 19th-century scientists proposed possible homologs of chordate notochord but did not reach a definite conclusion regarding the origin of this essential structure
Summary
The notochord as an anatomical structure unites all chordates from lancelets to humans. The authors followed Remane’s criteria for homology and Hennig’s cladistic approach and expanded the search for possible axochord-like structures to a wide spectrum of invertebrate phyla, including Spiralia, Chaetognatha, and Ecdysozoa, which supported the evolution of notochord from an ancestral ventromedial muscle [21]. Kovalevsky, while focusing his studies on amphioxus in his early career, has once observed the unique developmental pattern that distinguished amphioxus as a group of deuterostomes possessing both vertebrates and invertebrate features [22]. This review will provide some considerations on the two competing hypotheses for the origin of the notochord, the de novo theory and the axochord theory, and evaluate the relationship between the muscular amphioxus notochord and the annelid axochord
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