Emiliano Martí

480 Hutchison Hall

University of Rochester, River Campus

Rochester, NY 14627

I am a PhD candidate in the Ecology, Evolution, Genetics and Genomics (E2G2) program at the University of Rochester, co-advised by Dr. Amanda Larracuente and Dr. Daven Presgraves. My research focuses on the evolutionary consequences of intragenomic conflicts, particularly how selfish genetic elements (SGEs) can drive the rapid evolution of essential functions, contributing to the origin of hybrid incompatibilities. I use a combination of genetic, genomic, and molecular approaches in Drosophila to understand these fundamental evolutionary processes. I got my masters at the São Paulo State University (UNESP) in Brazil, advised by Dr. Diogo C. Cabral-De-Mello, studying the evolution of repetitive DNA in Schistocerca grasshoppers. Previously, I got a BS. in Genetics at the National University of Misiones (UNaM) in Argentina.

news

Apr 04, 2025	Amanda Larracuente and I wrote a short commentary in Trends in Genetics highlighting recent work lead by Dr. Peiwei Chen and colleagues. Their study uncovers Trailblazer, a fast-evolving transcription factor that plays a key role in the suppression of selfish genetic elements in Drosophila. Read the article here.

latest posts

Mar 26, 2025	a post with plotly.js
Dec 04, 2024	a post with image galleries
May 14, 2024	Google Gemini updates: Flash 1.5, Gemma 2 and Project Astra

selected publications

Genetic conflict and the origin of multigene families: implications for sex chromosome evolution

Emiliano Martí and Amanda M Larracuente

Proceedings of the Royal Society B, 2023

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Sex chromosomes are havens for intragenomic conflicts. The absence of recombination between sex chromosomes creates the opportunity for the evolution of segregation distorters: selfish genetic elements that hijack different aspects of an individual’s reproduction to increase their own transmission. Biased (non-Mendelian) segregation, however, often occurs at a detriment to their host’s fitness, and therefore can trigger evolutionary arms races that can have major consequences for genome structure and regulation, gametogenesis, reproductive strategies and even speciation. Here, we review an emerging feature from comparative genomic and sex chromosome evolution studies suggesting that meiotic drive is pervasive: the recurrent evolution of paralogous sex-linked gene families. Sex chromosomes of several species independently acquire and co-amplify rapidly evolving gene families with spermatogenesis-related functions, consistent with a history of intragenomic conflict over transmission. We discuss Y chromosome features that might contribute to the tempo and mode of evolution of X/Y co-amplified gene families, as well as their implications for the evolution of complexity in the genome. Finally, we propose a framework that explores the conditions that might allow for recurrent bouts of fixation of drivers and suppressors, in a dosage-sensitive fashion, and therefore the co-amplification of multigene families on sex chromosomes.
@article{marti2023genetic, title = {Genetic conflict and the origin of multigene families: implications for sex chromosome evolution}, author = {Mart{\'i}, Emiliano and Larracuente, Amanda M}, journal = {Proceedings of the Royal Society B}, volume = {290}, number = {2010}, pages = {20231823}, year = {2023}, publisher = {The Royal Society}, doi = {10.1098/rspb.2023.1823}, url = {https://royalsocietypublishing.org/doi/full/10.1098/rspb.2023.1823}, dimensions = {true}, }