20 research outputs found
Analysis of the FGF gene family provides insights into aquatic adaptation in cetaceans
Cetacean body structure and physiology exhibit dramatic adaptations to their aquatic environment. Fibroblast growth factors (FGFs) are a family of essential factors that regulate animal development and physiology; however, their role in cetacean evolution is not clearly understood. Here, we sequenced the fin whale genome and analysed FGFs from 8 cetaceans. FGF22, a hair follicle-enriched gene, exhibited pseudogenization, indicating that the function of this gene is no longer necessary in cetaceans that have lost most of their body hair. An evolutionary analysis revealed signatures of positive selection for FGF3 and FGF11, genes related to ear and tooth development and hypoxia, respectively. We found a D203G substitution in cetacean FGF9, which was predicted to affect FGF9 homodimerization, suggesting that this gene plays a role in the acquisition of rigid flippers for efficient manoeuvring. Cetaceans utilize low bone density as a buoyancy control mechanism, but the underlying genes are not known. We found that the expression of FGF23, a gene associated with reduced bone density, is greatly increased in the cetacean liver under hypoxic conditions, thus implicating FGF23 in low bone density in cetaceans. Altogether, our results provide novel insights into the roles of FGFs in cetacean adaptation to the aquatic environment.ope
Hagfish and lamprey Hox genes reveal conservation of temporal colinearity in vertebrates
Hox genes exert fundamental roles for proper regional specification along the main rostro-caudal axis of animal embryos. They are generally expressed in restricted spatial domains according to their position in the cluster (spatial colinearity)âa feature that is conserved across bilaterians. In jawed vertebrates (gnathostomes), the position in the cluster also determines the onset of expression of Hox genes (a feature known as whole-cluster temporal colinearity (WTC)), while in invertebrates this phenomenon is displayed as a subcluster-level temporal colinearity. However, little is known about the expression profile of Hox genes in jawless vertebrates (cyclostomes); therefore, the evolutionary origin of WTC, as seen in gnathostomes, remains a mystery. Here, we show that Hox genes in cyclostomes are expressed according to WTC during development. We investigated the Hox repertoire and Hox gene expression profiles in three different speciesâa hagfish, a lamprey and a sharkâencompassing the two major groups of vertebrates, and found that these are expressed following a whole-cluster, temporally staggered pattern, indicating that WTC has been conserved during the past 500âmillion years despite drastically different genome evolution and morphological outputs between jawless and jawed vertebrates
Comparative transcriptomics of elasmobranchs and teleosts highlight important processes in adaptive immunity and regional endothermy
Etude technico-Ă©conomique de la production de jeunes bovins Ă engraisser en race Salers : campagne 1984-1985
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Etude Ă©conomique de la production de jeunes bovins Ă engraisser en race Salers : campagne 1982-1983
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Etude économique de la production de jeunes bovins à engraisser en race Salers : campagne 1980-1981: observations d'exploitations dans le département du Cantal
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Etude économique de la production de jeunes bovins à engraisser en race Salers : campagne 1979-1980 : observations d'exploitations dans le département du Cantal
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Etude Ă©conomique de la production de jeunes bovins Ă engraisser en race Salers : campagne 1981-1982
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