L. Haines scite author profile

The evolution of terrestrial tetrapod species heralded a transition in locomotor strategies. While most fish species use the undulating contractions of the axial musculature to generate propulsive force, tetrapods also rely on the appendicular muscles of the limbs to generate movement. Despite the fossil record generating an understanding of the way in which the appendicular skeleton has evolved to provide the scaffold for tetrapod limb musculature, there is, by contrast, almost no information as to how this musculature arose. Here we examine fin muscle formation within two extant classes of fish. We find that in the teleost, zebrafish, fin muscles arise from migratory mesenchymal precursor cells that possess molecular and morphogenetic identity with the limb muscle precursors of tetrapod species. Chondrichthyan dogfish embryos, however, use the primitive mechanism of direct epithelial somitic extensions to derive the muscles of the fin. We conclude that the genetic mechanism controlling formation of tetrapod limb muscles evolved before the Sarcopterygian radiation.

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Met and Hgf signaling controls hypaxial muscle and lateral line development in the zebrafish

Haines

Neyt

Gautier

et al. 2004

124

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Somites give rise to a number of different embryonic cell types, including the precursors of skeletal muscle populations. The lateral aspect of amniote and fish somites have been shown to give rise specifically to hypaxial muscle,including the appendicular muscle that populates fins and limbs. We have investigated the morphogenetic basis for formation of specific hypaxial muscles within the zebrafish embryo and larvae. Transplantation experiments have revealed a developmentally precocious commitment of cells derived from pectoral fin level somites to forming hypaxial and specifically appendicular muscle. The fate of transplanted somites cannot be over-ridden by local inductive signals, suggesting that somitic tissue may be fixed at an early point in their developmental history to produce appendicular muscle. We further show that this restriction in competence is mirrored at the molecular level, with the exclusive expression of the receptor tyrosine kinase met within somitic regions fated to give rise to appendicular muscle. Loss-of-function experiments reveal that Met and its ligand, hepatocyte growth factor, are required for the correct morphogenesis of the hypaxial muscles in which met is expressed. Furthermore, we demonstrate a requirement for Met signaling in the process of proneuromast deposition from the posterior lateral line primordia.

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Sexing chick embryos: A rapid and simple protocol

Clinton

Haines

Belloir

et al. 2001

British Poultry Science

124

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1. Analysis of gene expression in the developing chick gonads requires the collection of male and female tissues from embryos between 3.5 d and 8.5 d of development. However, male and female chick embryos are indistinguishable by morphological examination before d 7.5 of development. 2. Sex identification of earlier embryos is only possible by molecular methods, which at present are laborious and time consuming. 3. We have devised a PCR-based sexing protocol which combines both sex specific and control reactions in a single tube assay. The assay is rapid and effective over a wide range of DNA concentrations and is tolerant of poor quality DNA. 4. Procedures are described for identifying the sex of individual embryos using either tissue samples or a small number of cells recovered from amniotic fluid.

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An overview of factors influencing sex determination and gonadal development in birds

Clinton¹,

Haines²

1999

CMLS, Cell. Mol. Life Sci.

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The morphological development of the em-mosomes, but it is known that the Z and W chromosomes do not share significant homology with the bryonic gonads is very similar in birds and mammals, and recent evidence suggests that the genes involved mammalian X and Y chromosomes. The commerin this process are conserved between these classes of cial importance of poultry breeding has motivated vertebrates. The genetic mechanism by which sex is considerable investment in developing physical and gedetermined in birds remains to be elucidated, although netic maps of the chicken genome. These efforts, in recent studies have reinforced the contention that combination with modern molecular approaches to analyzing gene expression, should help to elucidate steroids may play an important role in the structural the sex-determining mechanism in birds in the near development of the testes and ovaries in birds. So far, few genes have been assigned to the avian sex chro-future.

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L. Haines

Evolutionary origins of vertebrate appendicular muscle

Met and Hgf signaling controls hypaxial muscle and lateral line development in the zebrafish

Sexing chick embryos: A rapid and simple protocol

An overview of factors influencing sex determination and gonadal development in birds

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