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1. PRJNA690558 Adaptive radiation of Caribbean pupfish is assembled from an ancient and disparate spatiotemporal landscape

   Richards, ER; Martin, CH (April 2022, NCBI)

   To investigate the origins and stages of vertebrate adaptive radiation, we reconstructed the spatial and temporal histories of genetic variants underlying major phenotypic axes of diversification from the genomes of 202 Caribbean pupfishes. On a single Bahamian island, ancient standing variation from disparate geographic sources was reassembled into new combinations under strong directional selection likely mediated by adaptation to novel trophic niches. 

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2. Parallel and non-parallel features of adaptive radiation in Yucatán pupfishes

   https://doi.org/10.1101/2025.11.17.688971  

   Kustra, Matthew C; Tian, David; Palominos, M Fernanda; Guo, Feifei; Chau, Dylan; Golwala, Oskar; Chan, HoWan; Zapata, Andrés Alvarez; Paredes, Reyna_Guadalupe Cetz; Sánchez, Frida_Ximena Cortés; et al (November 2025, bioRxiv)

   Abstract Understanding the extent of parallelism across adaptive radiations remains a central problem in evolutionary biology. We used whole-genome resequencing of 123 individuals to compare an adaptive radiation ofCyprinodonpupfishes in Laguna Chichancanab, Mexico, to an independent radiation of San Salvador Island (SSI) pupfishes in the Bahamas, and assess the repeatability of adaptive genetic architecture, sources of adaptive variation, and stages of selection. Despite rapid craniofacial divergence of trophic specialists within 8-15 kya, only two candidate genes (3.6%) were shared between Caribbean radiations. Although adaptive introgression played a major role on SSI, we found minimal evidence of adaptive introgression in Chichancanab, likely due to geographic isolation of this inland lake. Instead, de novo mutations provided a substantial source of adaptive variation (30.6%) for the endemic zooplanktivore, 15.3 times higher than the endemic scale-eater on SSI. We found strong evidence that selection occurred in stages, first on regulatory and standing genetic variation, then on de novo and nonsynonymous mutations, parallel to SSI. We then verified that adaptive variants near vision-development and spermatogenesis genes, uniquely within Chichancanab, are consistent with greater visual acuity and divergent sperm morphology in the zoooplanktivore. Consistent with extensive adaptive de novo mutations inWNT10Aand rapid diversification of tooth size in the zooplanktivore, we found that experimental inhibition of this pathway in generalists results in narrower teeth. We conclude that de novo mutations, not introgression, can drive rapid adaptive radiations in isolated environments. 

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3. Few Fixed Variants between Trophic Specialist Pupfish Species Reveal Candidate Cis -Regulatory Alleles Underlying Rapid Craniofacial Divergence

   https://doi.org/10.1093/molbev/msaa218  

   McGirr, Joseph A; Martin, Christopher H (September 2020, Molecular Biology and Evolution)

   Wittkopp, Patricia (Ed.)

   Abstract Investigating closely related species that rapidly evolved divergent feeding morphology is a powerful approach to identify genetic variation underlying variation in complex traits. This can also lead to the discovery of novel candidate genes influencing natural and clinical variation in human craniofacial phenotypes. We combined whole-genome resequencing of 258 individuals with 50 transcriptomes to identify candidate cis-acting genetic variation underlying rapidly evolving craniofacial phenotypes within an adaptive radiation of Cyprinodon pupfishes. This radiation consists of a dietary generalist species and two derived trophic niche specialists—a molluscivore and a scale-eating species. Despite extensive morphological divergence, these species only diverged 10 kya and produce fertile hybrids in the laboratory. Out of 9.3 million genome-wide SNPs and 80,012 structural variants, we found very few alleles fixed between species—only 157 SNPs and 87 deletions. Comparing gene expression across 38 purebred F1 offspring sampled at three early developmental stages, we identified 17 fixed variants within 10 kb of 12 genes that were highly differentially expressed between species. By measuring allele-specific expression in F1 hybrids from multiple crosses, we found that the majority of expression divergence between species was explained by trans-regulatory mechanisms. We also found strong evidence for two cis-regulatory alleles affecting expression divergence of two genes with putative effects on skeletal development (dync2li1 and pycr3). These results suggest that SNPs and structural variants contribute to the evolution of novel traits and highlight the utility of the San Salvador Island pupfish system as an evolutionary model for craniofacial development. 

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4. How to Investigate the Origins of Novelty: Insights Gained from Genetic, Behavioral, and Fitness Perspectives

   https://doi.org/10.1093/iob/obz018  

   Martin, C H; McGirr, J A; Richards, E J; St. John, M E (January 2019, Integrative Organismal Biology)

   Synopsis Biologists are drawn to the most extraordinary adaptations in the natural world, often referred to as evolutionary novelties, yet rarely do we understand the microevolutionary context underlying the origins of novel traits, behaviors, or ecological niches. Here we discuss insights gained into the origins of novelty from a research program spanning biological levels of organization from genotype to fitness in Caribbean pupfishes. We focus on a case study of the origins of novel trophic specialists on San Salvador Island, Bahamas and place this radiation in the context of other rapid radiations. We highlight questions that can be addressed about the origins of novelty at different biological levels, such as measuring the isolation of novel phenotypes on the fitness landscape, locating the spatial and temporal origins of adaptive variation contributing to novelty, detecting dysfunctional gene regulation due to adaptive divergence, and connecting behaviors with novel traits. Evolutionary novelties are rare, almost by definition, and we conclude that integrative case studies can provide insights into this rarity relative to the dynamics of adaptation to more common ecological niches and repeated parallel speciation, such as the relative isolation of novel phenotypes on fitness landscapes and the transient availability of ecological, genetic, and behavioral opportunities. 

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5. Engineering Quantitative Trait Variation for Crop Improvement by Genome Editing

   https://doi.org/doi: 10.1016/j.cell.2017.08.030  

   Rodriguez-Leal, D; Lemmon, Z; Man, J; Bartlett, M; Lippman, Z. (January 2017, Cell)

   Major advances in crop yields are needed in the coming decades. However, plant breeding is currently limited by incremental improvements in quantitative traits that often rely on laborious selection of rare naturally occurring mutations in gene-regulatory regions. Here, we demonstrate that CRISPR/Cas9 genome editing of promoters generates diverse cis-regulatory alleles that provide beneficial quantitative variation for breeding. We devised a simple genetic scheme, which exploits trans-generational heritability of Cas9 activity in heterozygous loss-of-function mutant backgrounds, to rapidly evaluate the phenotypic impact of numerous promoter variants for genes regulating three major productivity traits in tomato: fruit size, inflorescence branching, and plant architecture. Our approach allows immediate selection and fixation of novel alleles in transgene-free plants and fine manipulation of yield components. Beyond a platform to enhance variation for diverse agricultural traits, our findings provide a foundation for dissecting complex relationships between gene-regulatory changes and control of quantitative traits. 

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