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1. A chromosome-level genome assembly for the eastern fence lizard ( Sceloporus undulatus ), a reptile model for physiological and evolutionary ecology

   https://doi.org/10.1093/gigascience/giab066  

   Westfall, Aundrea_K; Telemeco, Rory_S; Grizante, Mariana_B; Waits, Damien_S; Clark, Amanda_D; Simpson, Dasia_Y; Klabacka, Randy_L; Sullivan, Alexis_P; Perry, George_H; Sears, Michael_W; et al (October 2021, GigaScience)

   Abstract BackgroundHigh-quality genomic resources facilitate investigations into behavioral ecology, morphological and physiological adaptations, and the evolution of genomic architecture. Lizards in the genus Sceloporus have a long history as important ecological, evolutionary, and physiological models, making them a valuable target for the development of genomic resources. FindingsWe present a high-quality chromosome-level reference genome assembly, SceUnd1.0 (using 10X Genomics Chromium, HiC, and Pacific Biosciences data), and tissue/developmental stage transcriptomes for the eastern fence lizard, Sceloporus undulatus. We performed synteny analysis with other snake and lizard assemblies to identify broad patterns of chromosome evolution including the fusion of micro- and macrochromosomes. We also used this new assembly to provide improved reference-based genome assemblies for 34 additional Sceloporus species. Finally, we used RNAseq and whole-genome resequencing data to compare 3 assemblies, each representing an increased level of cost and effort: Supernova Assembly with data from 10X Genomics Chromium, HiRise Assembly that added data from HiC, and PBJelly Assembly that added data from Pacific Biosciences sequencing. We found that the Supernova Assembly contained the full genome and was a suitable reference for RNAseq and single-nucleotide polymorphism calling, but the chromosome-level scaffolds provided by the addition of HiC data allowed synteny and whole-genome association mapping analyses. The subsequent addition of PacBio data doubled the contig N50 but provided negligible gains in scaffold length. ConclusionsThese new genomic resources provide valuable tools for advanced molecular analysis of an organism that has become a model in physiology and evolutionary ecology. 

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2. To dry perchance to live: Insights from the genome of the desiccation‐tolerant biocrust moss Syntrichia caninervis

   https://doi.org/10.1111/tpj.15116  

   Silva, Anderson T.; Gao, Bei; Fisher, Kirsten M.; Mishler, Brent D.; Ekwealor, Jenna T. B.; Stark, Lloyd R.; Li, Xiaoshuang; Zhang, Daoyuan; Bowker, Matthew A.; Brinda, John C.; et al (December 2020, The Plant Journal)

   Summary With global climate change, water scarcity threatens whole agro/ecosystems. The desert mossSyntrichia caninervis, an extremophile, offers novel insights into surviving desiccation and heat. The sequencedS. caninervisgenome consists of 13 chromosomes containing 16 545 protein‐coding genes and 2666 unplaced scaffolds. Syntenic relationships within theS.caninervisandPhyscomitrellapatensgenomes indicate theS. caninervisgenome has undergone a single whole genome duplication event (compared to two forP. patens) and evidence suggests chromosomal or segmental losses in the evolutionary history ofS. caninervis. The genome contains a large sex chromosome composed primarily of repetitive sequences with a large number ofCopiaandGypsyelements. Orthogroup analyses revealed an expansion ofELIPgenes encoding proteins important in photoprotection. The transcriptomic response to desiccation identified four structural clusters of novel genes. The genomic resources established for this extremophile offer new perspectives for understanding the evolution of desiccation tolerance in plants. 

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3. Comparative Genomics Reveals Intra and Inter Species Variation in the Pathogenic Fungus Batrachochytrium dendrobatidis

   https://doi.org/10.1093/gbe/evaf114  

   Yacoub, Mark N; Stajich, Jason E (May 2025, Genome Biology and Evolution)

   Giraud, Tatiana (Ed.)

   Abstract The Global Panzootic Lineage (GPL) of Batrachochytrium dendrobatidis (Bd) has been described as a main driver of amphibian extinctions. Pathogen studies have benefited from three Bd-GPL strain genomes, but identifying the genetic and molecular features that distinguish the B. dendrobatidis lineages requires additional high-quality genomes from diverse lineages. We sequenced and assembled genomes with Oxford Nanopore Technologies to produce assemblies of three Bd-BRAZIL isolates and one nonpathogen outgroup species Polyrhizophydium stewartii. The Bd-BRAZIL assembly sizes ranged between 22.0 and 26.1 Mb with 8,495 to 8,620 predicted protein-coding genes. We sought to categorize the pangenome of the species by identifying homologous genes across the sampled genomes as either being core and present in all strains, or accessory and shared among strains in a lineage, an analysis that has not yet been conducted on B. dendrobatidis and its lineages. We identified a core genome consisting of 6,278 gene families, and an accessory genome of 202 Bd-BRAZIL and 172 Bd-GPL specific gene families. We discovered copy number differences in pathogenicity gene families: M36 Peptidases, Crinkler Necrosis genes, Aspartyl Peptidases, Carbohydrate-Binding Module-18 genes, and S41 Proteases, between Bd-BRAZIL and Bd-GPL strains. Comparison of B. dendrobatidis and two closely related saprophytic species identified differences in protein sequence and domain counts for M36 and CBM18 families respectively. Our pangenome analysis of lineage-specific gene content led us to explore how the selection of the reference genome affects recovery of RNAseq transcripts when comparing different strains. We tested the hypothesis that genomic variation among Bd-GPL and Bd-BRAZIL lineages can impact transcript count data by comparing results with our new Bd-BRAZIL genomes as the reference genomes. Our analysis examines the genomic variation between strains in Bd-BRAZIL and Bd-GPL and offers insights into the application of these high-quality reference genomes resources for future studies. 

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4. Inferring fine-scale mutation and recombination rate maps in aye-ayes (Daubentonia madagascariensis)

   https://doi.org/10.1101/2024.12.28.630620  

   Soni, Vivak; Versoza, Cyril J; Terbot, John W; Jensen, Jeffrey D; Pfeifer, Susanne P (December 2024, bioRxiv)

   The rate of input of new genetic mutations, and the rate at which that variation is reshuffled, are key evolutionary processes shaping genomic diversity. Importantly, these rates vary not just across populations and species, but also across individual genomes. Despite previous studies having demonstrated that failing to account for rate heterogeneity across the genome can bias the inference of both selective and neutral population genetic processes, mutation and recombination rate maps have to date only been generated for a relatively small number of organisms. Here, we infer such fine-scale maps for the aye-aye (Daubentonia madagascariensis) – a highly endangered strepsirrhine that represents one of the earliest splits in the primate clade, and thus stands as an important outgroup to the more commonly-studied haplorrhines – utilizing a recently released fully-annotated genome combined with high-quality population sequencing data. We compare our indirectly inferred rates to previous pedigree-based estimates, finding further evidence of relatively low mutation and recombination rates in aye-ayes compared to other primates. 

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5. A high-quality genome for the slender anole ( Anolis apletophallus ): an emerging model for field studies of tropical ecology and evolution

   https://doi.org/10.1093/g3journal/jkad248  

   Pirani, Renata M.; Arias, Carlos F.; Charles, Kristin; Chung, Albert K.; Curlis, John David; Nicholson, Daniel J.; Vargas, Marta; Cox, Christian L.; McMillan, W. Owen; Logan, Michael L.; et al (October 2023, G3: Genes, Genomes, Genetics)

   Abstract The slender anole, Anolis apletophallus, is a small arboreal lizard of the rainforest understory of central and eastern Panama. This species has been the subject of numerous ecological and evolutionary studies over the past 60 years as a result of attributes that make it especially amenable to field and laboratory science. Slender anoles are highly abundant, short-lived (nearly 100% annual turnover), easy to manipulate in both the lab and field, and are ubiquitous in the forests surrounding the Smithsonian Tropical Research Institute in Panama, where researchers have access to high-quality laboratory facilities. Here, we present a high-quality genome for the slender anole, which is an important new resource for studying this model species. We assembled and annotated the slender anole genome by combining 3 technologies: Oxford Nanopore, 10× Genomics Linked-Reads, and Dovetail Omni-C. We compared this genome with the recently published brown anole (Anolis sagrei) and the canonical green anole (Anolis carolinensis) genomes. Our genome is the first assembled for an Anolis lizard from mainland Central or South America, the regions that host the majority of diversity in the genus. This new reference genome is one of the most complete genomes of any anole assembled to date and should facilitate deeper studies of slender anole evolution, as well as broader scale comparative genomic studies of both mainland and island species. In turn, such studies will further our understanding of the well-known adaptive radiation of Anolis lizards. 

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