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1. Mixotrophic Iron-Oxidizing Thiomonas Isolates from an Acid Mine Drainage-Affected Creek

   https://doi.org/10.1128/AEM.01424-20  

   Akob, Denise M. ; Hallenbeck, Michelle ; Beulig, Felix ; Fabisch, Maria ; Küsel, Kirsten ; Keffer, Jessica L. ; Woyke, Tanja ; Shapiro, Nicole ; Lapidus, Alla ; Klenk, Hans-Peter ; et al ( November 2020 , Applied and Environmental Microbiology)

   Liu, Shuang-Jiang (Ed.)

   ABSTRACT Natural attenuation of heavy metals occurs via coupled microbial iron cycling and metal precipitation in creeks impacted by acid mine drainage (AMD). Here, we describe the isolation, characterization, and genomic sequencing of two iron-oxidizing bacteria (FeOB) species: Thiomonas ferrovorans FB-6 and Thiomonas metallidurans FB-Cd, isolated from slightly acidic (pH 6.3), Fe-rich, AMD-impacted creek sediments. These strains precipitated amorphous iron oxides, lepidocrocite, goethite, and magnetite or maghemite and grew at a pH optimum of 5.5. While Thiomonas spp. are known as mixotrophic sulfur oxidizers and As oxidizers, the FB strains oxidized Fe, which suggests they can efficiently remove Fe and other metals via coprecipitation. Previous evidence for Thiomonas sp. Fe oxidation is largely ambiguous, possibly because of difficulty demonstrating Fe oxidation in heterotrophic/mixotrophic organisms. Therefore, we also conducted a genomic analysis to identify genetic mechanisms of Fe oxidation, other metal transformations, and additional adaptations, comparing the two FB strain genomes with 12 other Thiomonas genomes. The FB strains fall within a relatively novel group of Thiomonas strains that includes another strain (b6) with solid evidence of Fe oxidation. Most Thiomonas isolates, including the FB strains, have the putative iron oxidation gene cyc2 , but only the two FB strains possess the putative Fe oxidase genes mtoAB . The two FB strain genomes contain the highest numbers of strain-specific gene clusters, greatly increasing the known Thiomonas genetic potential. Our results revealed that the FB strains are two distinct novel species of Thiomonas with the genetic potential for bioremediation of AMD via iron oxidation. IMPORTANCE As AMD moves through the environment, it impacts aquatic ecosystems, but at the same time, these ecosystems can naturally attenuate contaminated waters via acid neutralization and catalyzing metal precipitation. This is the case in the former Ronneburg uranium-mining district, where AMD impacts creek sediments. We isolated and characterized two iron-oxidizing Thiomonas species that are mildly acidophilic to neutrophilic and that have two genetic pathways for iron oxidation. These Thiomonas species are well positioned to naturally attenuate AMD as it discharges across the landscape. 

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2. Urban living can rescue Darwin's finches from the lethal effects of invasive vampire flies

   https://doi.org/10.1111/gcb.17145  

   Knutie, Sarah A. ; Webster, Cynthia N. ; Vaziri, Grace J. ; Albert, Lauren ; Harvey, Johanna A. ; LaRue, Michelle ; Verrett, Taylor B. ; Soldo, Alexandria ; Koop, Jennifer A. H. ; Chaves, Jaime A. ; et al ( January 2024 , Global Change Biology)

   Human activity changes multiple factors in the environment, which can have positive or negative synergistic effects on organisms. However, few studies have explored the causal effects of multiple anthropogenic factors, such as urbanization and invasive species, on animals and the mechanisms that mediate these interactions. This study examines the influence of urbanization on the detrimental effect of invasive avian vampire flies (Philornis downsi) on endemic Darwin's finches in the Galápagos Islands. We experimentally manipulated nest fly abundance in urban and non‐urban locations and then characterized nestling health, fledging success, diet, and gene expression patterns related to host defense. Fledging success of non‐parasitized nestlings from urban (79%) and non‐urban (75%) nests did not differ significantly. However, parasitized, non‐urban nestlings lost more blood, and fewer nestlings survived (8%) compared to urban nestlings (50%). Stable isotopic values (δ¹⁵N) from urban nestling feces were higher than those from non‐urban nestlings, suggesting that urban nestlings are consuming more protein. δ¹⁵N values correlated negatively with parasite abundance, which suggests that diet might influence host defenses (e.g., tolerance and resistance). Parasitized, urban nestlings differentially expressed genes within pathways associated with red blood cell production (tolerance) and pro‐inflammatory response (innate immunological resistance), compared to parasitized, non‐urban nestlings. In contrast, parasitized non‐urban nestlings differentially expressed genes within pathways associated with immunoglobulin production (adaptive immunological resistance). Our results suggest that urban nestlings are investing more in pro‐inflammatory responses to resist parasites but also recovering more blood cells to tolerate blood loss. Although non‐urban nestlings are mounting an adaptive immune response, it is likely a last effort by the immune system rather than an effective defense against avian vampire flies since few nestlings survived.

    

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3. Temperature gradient affects differentiation of gene expression and SNP allele frequencies in the dominant Lake Baikal zooplankton species

   https://doi.org/10.1111/mec.14704  

   Bowman, Larry L. ; Kondrateva, Elizaveta S. ; Timofeyev, Maxim A. ; Yampolsky, Lev Y. ( May 2018 , Molecular Ecology)

   Local adaptation and phenotypic plasticity are main mechanisms of organisms’ resilience in changing environments. Both are affected by gene flow and are expected to be weak in zooplankton populations inhabiting large continuous water bodies and strongly affected by currents. Lake Baikal, the deepest and one of the coldest lakes on Earth, experienced epilimnion temperature increase during the last 100 years, exposing Baikal's zooplankton to novel selective pressures. We obtained a partial transcriptome ofEpischura baikalensis(Copepoda: Calanoida), the dominant component of Baikal's zooplankton, and estimatedSNPallele frequencies and transcript abundances in samples from regions of Baikal that differ in multiyear average surface temperatures. The strongest signal in bothSNPand transcript abundance differentiation is theSW‐NEgradient along the 600+ km long axis of the lake, suggesting isolation by distance.SNPdifferentiation is stronger for nonsynonymous than synonymousSNPs and is paralleled by differential survival during a laboratory exposure to increased temperature, indicating directional selection operating on the temperature gradient. Transcript abundance, generally collinear with theSNPdifferentiation, shows samples from the warmest, less deep location clustering together with the southernmost samples. Differential expression is more frequent among transcripts orthologous to candidate thermal response genes previously identified in model arthropods, including genes encoding cytoskeleton proteins, heat‐shock proteins, proteases, enzymes of central energy metabolism, lipid and antioxidant pathways. We conclude that the pivotal endemic zooplankton species in Lake Baikal exists under temperature‐mediated selection and possesses both genetic variation and plasticity to respond to novel temperature‐related environmental pressures.

    

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4. Transcriptome response of the foundation plant Spartina alterniflora to the Deepwater Horizon oil spill

   https://doi.org/10.1111/mec.14736  

   Alvarez, Mariano ; Ferreira de Carvalho, Julie ; Salmon, Armel ; Ainouche, Malika L. ; Cavé‐Radet, Armand ; El Amrani, Abdelhak ; Foster, Tammy E. ; Moyer, Sydney ; Richards, Christina L. ( June 2018 , Molecular Ecology)

   Despite the severe impacts of theDeepwater Horizonoil spill, the foundation plant speciesSpartina alternifloraproved resilient to heavy oiling, providing an opportunity to identify mechanisms of response to the anthropogenic stress of crude oil exposure. We assessed plants from oil‐affected and unaffected populations using a custom DNA microarray to identify genomewide transcription patterns and gene expression networks that respond to crude oil exposure. In addition, we used T‐DNA insertion lines of the model grassBrachypodium distachyonto assess the contribution of four novel candidate genes to crude oil response. Responses inS. alterniflorato hydrocarbon exposure across the transcriptome as well as xenobiotic specific response pathways had little overlap with those previously identified in the model plantArabidopsis thaliana. Among T‐DNA insertion lines ofB. distachyon, we found additional support for two candidate genes, one (ATTPS21) involved in volatile production, and the other (SUVH5) involved in epigenetic regulation of gene expression, that may be important in the response to crude oil. The architecture of crude oil response inS. alterniflorais unique from that of the model speciesA. thaliana,suggesting that xenobiotic response may be highly variable across plant species. In addition, further investigations of regulatory networks may benefit from more information about epigenetic response pathways.

    

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5. microRNA expression variation as a potential molecular mechanism contributing to adaptation to hydrogen sulphide

   https://doi.org/10.1111/jeb.13727  

   Kelley, Joanna L. ; Desvignes, Thomas ; McGowan, Kerry L. ; Perez, Marcos ; Rodriguez, Lenin Arias ; Brown, Anthony P. ; Culumber, Zach ; Tobler, Michael ( November 2020 , Journal of Evolutionary Biology)

   microRNAs (miRNAs) are post‐transcriptional regulators of gene expression and can play an important role in modulating organismal development and physiology in response to environmental stress. However, the role of miRNAs in mediating adaptation to diverse environments in natural study systems remains largely unexplored. Here, we characterized miRNAs and their expression inPoecilia mexicana, a species of small fish that inhabits both normal streams and extreme environments in the form of springs rich in toxic hydrogen sulphide (H₂S). We found thatP. mexicanahas a similar number of miRNA genes as other teleosts. In addition, we identified a large population of mature miRNAs that were differentially expressed between locally adapted populations in contrasting habitats, indicating that miRNAs may contribute toP. mexicanaadaptation to sulphidic environments. In silico identification of differentially expressed miRNA‐mRNA pairs revealed, in the sulphidic environment, the downregulation of miRNAs predicted to target mRNAs involved in sulphide detoxification and cellular homeostasis, which are pathways essential for life in H₂S‐rich springs. In addition, we found that predicted targets of upregulated miRNAs act in the mitochondria (16.6% of predicted annotated targets), which is the main site of H₂S toxicity and detoxification, possibly modulating mitochondrial function. Together, the differential regulation of miRNAs between these natural populations suggests that miRNAs may be involved in H₂S adaptation by promoting functions needed for survival and reducing functions affected by H₂S. This study lays the groundwork for further research to directly demonstrate the role of miRNAs in adaptation to H₂S. Overall, this study provides a critical stepping‐stone towards a comprehensive understanding of the regulatory mechanisms underlying the adaptive variation in gene expression in a natural system.

    

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