Jun 18, 2016
Losing genes and surviving: When 'less is more' in the evolution of life
The study was published in the magazine Nature Review Genetics and signed by professors Ricard Albalat and Cristian Cañestro, from the Department of Genetics, Microbiology and Statistics and the Biodiversity Research Institute (IRBio) of the University of Barcelona. This article has just been selected as one of the recommended works with special significance in genetics and genomics by the Faculty of 1000 Prime, an international ranking that identifies and re-evaluates the best articles on biology and medicine with the support from a scientific community of more than 10,000 academics worldwide.
Thinking of gene loss as an evolution force is a counterintuitive idea, for it is easier to think that only when we gain something -genes in this case- can we evolve. However the new work by these authors, who are members of the Research Group on Evolution and Development (EVO-DEVO) of the UB, paints the vision of gene loss as a great potential process of genetic change and evolutionary adaption.
Losing genes is also an evolution engine
A gene is lost when the genome is physically removed (by illegitimate recombination, transposition, etc.) or when it is still in the genome but with no use due to a mutation (particular changes, insertions, deficiencies, etc.). "The genome sequencing of very different organisms has shown that gene loss has been a usual phenomenon during evolution in all life cycles. In some cases, it has been proven that this loss might mean an adaptive response towards stressful situations when facing sudden environmental changes" says Professor Cristian Cañestro.
"In other cases, there are genetic losses -says Cañestro- which even though they are neutral per se, have contributed to the genetic and reproductive isolation among lineages, and thus, to speciation, or have rather participated in the sexual differentiation in contributing to the creation of a new Y chromosome. The fact that genetic loss patterns are not stochastic but rather biased in the lost genes (depending on the kind of function of the gen or its situation in the genome in different organism groups) stresses the importance of the genetic loss in the evolution of the species.
Losing to win: an evolutionary paradox
Traditionally, it was believed that insects tended to lose genes. However, the genome sequencing of a beetle (Tribolium castaneum), which proves to have few gen losses, has made it worth reconsidering. In the chordates phylum, which includes vertebrates, there are also some differences among the species, with particular cases such as the planktonic organism Oikopleura dioica -very prone to gen loss.
According to Professor Ricard Albalat, "it has been shown that the possibility of losing genes is linked to the lifestyle of the species. Parasites, for instance, show a greater tendency of gene loss because since they re-use their host's resources, lots of their genes become dispensable and end up disappearing. Species with lots of redundant genes such as the vertebrates and lots of plant species and yeasts which have doubled their genome, have also suffered from gene loss over the course of evolution.
"Interestingly -says Albalat- the massive gene losses are not always linked to radical morphological changes in the affected organism's body plan. The chordate Oikopleura dioica, for example, despite losing lots of genes -some are essential to the embryo development and design of the phylum body plan- maintains a typical body plan with organs and structures (heart, brain, thyroids, etc.) which can be considered to be homologues to the vertebrates'. However, this contradiction, which we have defined as "inverse paradox" of EvoDevo, is still very difficult to explain."
Lost genes in the human evolutionary history
Gene loss can become a positive condition. This has been proved with laboratory experiments (in yeast or bacteria) and population studies on humans. Some of the best studied cases on humans are coding gene losses with cell receptors (CCR5 and DUFFY), which make individuals more resistant to HIV infection and to plasmodium caused by malaria. In nature, there are gene losses from which some organisms benefited: losses which made colour changes in flowers which attract new pollinators, losses which made warmness-resistant insects to be able to colonize new habitats, etc.
Some studies also suggest that gene loss has been decisive in the origins of the human species. Chimpanzees and humans share more than the 98% of their genome -something which has always been of great interest- and in this context it is tempting to speculate that perhaps it would be necessary to look for the differences not in the shared genes but in the lost ones- the ones which have been lost in a different way through the human and primate evolution. "For example, it is believed that gene loss reduced the jaw muscular structure, which allowed the human brain to grow its size, or that gene losses were important in the improvement of our defence system against illnesses," says Cristian Cañestro.
How many gens can a living being lose?
A gene can be lost only if it is dispensable and, therefore, its loss doesn't involve a disadvantage for the individuals. What makes a gene to be dispensable? A gene becomes dispensable when the organism can do its function in an alternative way (functional redundancy) or when the gene is no longer needed because the organism lost its structure or the physiologic requirement in which the gene participated (regressive evolution). For this reason, some changes in the species' lifestyle can turn some genes dispensable, as seen in the gene loss related to pigmentation and vision of the species who adopted cave-dweller ways of life.
Discovering how many genes an organism can lose and how, is something essential to understand how many human genes are dispensable and why certain mutations are irrelevant while others are dramatic for our health. Actually, the recent genome sequencing in individuals from several communities around the world has shown that any healthy person has an average amount of 20 genes not working and it does not seem to provoke any unfavourable consequence.
When genes are dispensable: less is more
According to Ricard Albalat, "probably, the presences of redundant genes or environmental conditions in which we live make us to have less unnecessary genes. Researching on the differences of gene losses among different human communities has allowed, for instance, discovering that lipoprotein A gene loss grants resistance to coronary illnesses among the Finnish population who have fat-rich diets. This experimental approach which relates genes to diseases, called "genotype first," opens the door to the discovery of genes which, when disappearing, give an advantage towards some environmental tensions (diets, climate, toxics, pathogens, etc.) and therefore it could help identifying new genes with therapeutic interests."
Oikopleura dioica: a new model organism in UB's research
Promoting basic research with model organisms (bacteria, mice, yeast, plants, zebrafish, Drosophila or C. elegans) has been a key fact to promote the progress in the field of biomedicine and health. For the scientists, one 21th Century challenge is to develop animal models alternative to the classic ones which can enable applying massive sequencing technologies or also genetic systematic modifications to open new perspectives in the field of basic research. Only by creating basic knowledge is it possible to improve with society's wellbeing.
Nowadays the Evo-Devo-Genomics team of the UB is one of the few research groups around the world which studies the Oikopleura dioica from an evolutionary developmental biology perspective (Evo-Devo). This is also the only team in Spain which has launched a scientific infrastructure -there are two more in Bergen (Norway) and Osaka (Japan)- considered as an international projecting referent with the ability of developing and studying this new model organism.
Read more at Science Daily
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