The genetic code of the pearly razorfish is decrypted


  • IMEDEA and the Centro Nacional de Análisis Genómico (CNAG) decrypt the genetic code of the pearly razorfish (also known as raor), with the support of the Catalan Initiative for the Earth Biogenome Project (CBP) through the Institut d’Estudis Catalans.
  • This first genetic map of the species is a major step forward in understanding the role of molecular biology in conserving fisheries resources.


A group of researchers from the Institut Mediterrani d’Estudis Avançats, IMEDEA (CSIC-UIB), and the Centro Nacional de Análisis Genómico (CNAG) have decrypted the pieces of the pearly razorfish genetic code. The research, which a high impact on the biodiversity of the territory and the conservation of the marine species, has been funded by the Catalan Initiative for the Earth Biogenome Project (CBP), through the Institut d’Estudis Catalans.

The first chromosome-level assembly and annotation of the pearly razorfish genome is a huge step forward in terms of understanding the role of molecular biologyin the conservation of fisheriesresources. The pearly razorfish is a highly valued species, and its behavioral characteristics are precisely the main reason why it becomes highlyrelevantscientifically as well.


The peculiarities of the pearly razorfish and how they might affect the future of the species

The pearly razorfish (Xyrichtys novacula), cleaver wrasse, llorito or raor, as it is popularly known in Spain, is a fish within the family Labridae that has become a media icon, due to the fishing tradition in the Balearic Islands and its high culinaryvalue. Less known are his genetic particularities. Like humans, raors incorporate into their chronotype behavior individual preferences for the schedules in which they perform their daily activities, as a result there are raors more active in particular hours than others. On the other hand, they have certain social behaviors, where the most aggressive males vigorously defend large parcels of sandy backgrounds, which include the smaller territories of the females in their harem. These behavioral peculiarities are genetically encoded in both humans and terrestrial animals. In a fishing-exploited population such as pearly razorfish, the fact that certain behaviours have a genetic basis may result in the elimination of certain genetic variants in natural populations that may compromise their future. Populations with little genetic diversity have less resilience and this is where genetic studies play an important role to ensure the future of the raor.

 Josep Alós (IMEDEA), one the scientist who leads this research, explains: “Knowing betterwhat behavioral and genetic characteristics affect vulnerability to fishing can be very useful for designing measures in the area of conservation and ensuring the future of thisspecies. Unfortunately, the raor's genetic code was not available for evaluation until now.”


Setting up the pearly razorfish genetic puzzle

The complete genetic code of a species, or genome, is the instruction book that contains all the information that, along with life experiences and environment, determines how anyliving being behaves, including ourselves. Knowing all the pieces of this genetic puzzle is very complex. For example, it has taken almost 20 years to get to know the complete human genome. Thanks to the latest developments in genomic technologies, initiatives such as the Earth Biogenome Project (EBP) have emerged, which aims to obtain genomic information from about two million species of plants, animals, fungi and microorganisms. On the basis of this project at a global level, the Catalan Iniciative for the Earth Biogenome Project (CBP) was born, promoted by the Societat Catalana de Biologia and the Institució Catalana d’Història Natural with the support of the Institut d’Estudis Catalans. The CBP contributes to the world catalogue by obtaining genetic information from endemic species orspecies of local interest. Thanks to the funding provided by the CBP, the IMEDEA and the Centro Nacional de Análisis Genómico (CNAG) have worked together to decrypt the genetic code of the raor. Through this study, led by the Genome Assembly and Annotation Team (CNAG) and Margarida Barceló (IMEDEA), all genetic information contained in the 24 chromosomes of the pearly razorfish has been successfully obtained. According to the CNAG Team Manager, Tyler Alioto: “By using a combination of state-of-the-art genomic technologies such as long reads from Oxford Nanopore Technologies, Illumina short reads, Hi-C and RNA-seq, we have obtained an annotated chromosome-level assembly for this species. Studies such as the current one help us at CNAG to improve our genomics pipelines so we can continue to expand the catalogue of available high-quality reference genomes to server as a resource for further genetic studies and biodiversity applications”.

Photo: Raor  ©Author Eneko Aspillaga (IMEDEA)


More chromosomes than humans and lack of sex chromosomes

The pearly razorfish has one chromosome more than humans, although the total size of their genome is reduced. Its genetic information is encoded in approximately 780 million units of genetic information, while in humans it has been estimated at 3.2 billion. Another interesting peculiarity of this species is its lack of sexual chromosomes. In humans, sex is attributed to us based on the combination of two types of chromosomes: XX for women and XY for men. The pearly razorfish does not have this chromosome difference, as they are sequential hermaphrodites. This means that all raors are born with female sex and, after a few years, become males. This change is regulated by several genetic factors that are activated at a particular time and are probably related to internal growth and external factors, such as the absence of a dominant male in its social group. This discovery opens the door to future research One of the researchers responsible for this project, Margarida Barceló, explains: "All this new information opens the door to many exciting possibilities. For example, it will enable us to better understand how the different raor populations in the Balearic Islands are genetically connected. We will be able also to determine whether these are isolated populations or whether there are connections through sea currents. 3 PRESS RELEASE October 17 2023 In addition, this knowledge will help us to evaluate the state of conservation at the genetic level of areas where fishing is most intensive compared to protected areas, such as Marine Reserves. This, in turn, will give us tools to offer advice to the administration to ensure the sustainable management of so popular raor fishing.” The results of this study have been published in the scientific journal DNA Research and become the basis for the development of future projects led by IMEDEA, such as the European project .WildFishGenes’ and the project funded by the Spanish government ‘METAraor’.