Research Sheds New Light on Stability of Gene Order in Chromosomes Across Animal Kingdom

Professor Daniel Mart铆nez talks in class with a student holding a laptop computer.

Imagine four decks of cards, each with the same number of cards in identical order. Now visualize those card decks being shuffled continuously for 48 straight hours. What are the odds that at the end of the shuffling process, the cards in each deck would still be in exactly the same order?

A new reveals that, hard as it is to imagine, this is exactly what researchers are finding in the order of genes on chromosomes across the animal kingdom. Animal chromosomes have been shuffling for at least 700 million years, explains Daniel E. Mart铆nez, professor of biology at 麻豆影视 and one of the paper鈥檚 authors. 鈥淏ut when you look at them today, you find the same order of genes in the chromosomes. The same genes appear on the same groups of genes in chromosomes in all animals. Why are the genes not being shuffled?鈥 That, he notes, is what the paper examines in sponges, hydra, scallops, jellyfish and a chordate (a close relative to vertebrates).

鈥淚t鈥檚 an absolutely surprising finding,鈥 Mart铆nez says. 鈥淐hromosomes break all the time. They rearrange, and two can get together and form another chromosome.鈥 Yet upon closer examination, regardless of the type of animal, the approximate order of the genes remains the same. 鈥淚 think we expected there would be a lot more freedom for gene order to change,鈥 he says. 鈥淚t鈥檚 pretty amazing that animals have maintained gene order in chromosomes in such a neat way.鈥

Using the card analogy again, Mart铆nez notes that 鈥淵ou have to suspect something is gluing the cards together鈥 to retain their order. He gives two potential reasons that genes have retained their order in chromosomes over millions of years. One is the location of the genes. 鈥淵ou might not be able to move it without disrupting how the gene functions,鈥 he suggests, but adds that there is evidence against this hypothesis.

鈥淎 second one is more feasible,鈥 Mart铆nez continues. 鈥淲hen cells divide to make gametes, similar chromosomes find each other. In order to find each other, they need to have a very similar order of genes. If you scramble that, they wouldn鈥檛 be able to match up during cell division.鈥

The number of chromosomes varies throughout the animal kingdom. Humans have 23 pairs of chromosomes, while fruit flies have only four. Yet in 700 million years, animal evolution has been unable to shuffle the chromosomes in a way that causes genes to change their place in the sequence. 鈥攈ave the same gene order as humans.

Mart铆nez became involved in this area of inquiry during a 2021 sabbatical at the University of Vienna, where he worked with the paper鈥檚 first author, Oleg Simakov. 鈥淚 never could have imagined five years ago that I鈥檇 be involved in a study that would do this,鈥 he says, because five years ago scientists could not sequence entire chromosomes.

鈥淭hat鈥檚 the exciting part of being a scientist,鈥 Mart铆nez says. 鈥淵ou never know what you鈥檙e going to discover next.鈥