8 results on '"Biancani, Leann M."'
Search Results
2. role of taxonomic expertise in interpretation of metabarcoding studies.
- Author
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Pappalardo, Paula, Collins, Allen G, Lohan, Katrina M Pagenkopp, Hanson, Kate M, Truskey, Sarit B, Jaeckle, William, Ames, Cheryl Lewis, Goodheart, Jessica A, Bush, Stephanie L, Biancani, Leann M, Strong, Ellen E, Vecchione, Michael, Harasewych, M G, Reed, Karen, Lin, Chan, Hartil, Elise C, Whelpley, Jessica, Blumberg, Jamie, Matterson, Kenan, and Redmond, Niamh E
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GENETIC barcoding ,EXPERTISE ,BAR codes ,MOLECULAR clusters ,GENETIC markers - Abstract
The performance of DNA metabarcoding approaches for characterizing biodiversity can be influenced by multiple factors. Here, we used morphological assessment of taxa in zooplankton samples to develop a large barcode database and to assess the congruence of taxonomic identification with metabarcoding under different conditions. We analysed taxonomic assignment of metabarcoded samples using two genetic markers (COI, 18S V1–2), two types of clustering into molecular operational taxonomic units (OTUs, ZOTUs), and three methods for taxonomic assignment (RDP Classifier, BLASTn to GenBank, BLASTn to a local barcode database). The local database includes 1042 COI and 1108 18S (SSU) barcode sequences, and we added new high-quality sequences to GenBank for both markers, including 109 contributions at the species level. The number of phyla detected and the number of taxa identified to phylum varied between a genetic marker and among the three methods used for taxonomic assignments. Blasting the metabarcodes to the local database generated multiple unique contributions to identify OTUs and ZOTUs. We argue that a multi-marker approach combined with taxonomic expertise to develop a curated, vouchered, local barcode database increases taxon detection with metabarcoding, and its potential as a tool for zooplankton biodiversity surveys. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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3. Moving conferences online: lessons learned from an international virtual meeting.
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Stefanoudis, Paris V., Biancani, Leann M., Cambronero-Solano, Sergio, Clark, Malcolm R., Copley, Jonathan T., Easton, Erin, Elmer, Franziska, Haddock, Steven H. D., Herrera, Santiago, Iglesias, Ilysa S., Quattrini, Andrea M., Sigwart, Julia, Yesson, Chris, and Glover, Adrian G.
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VIRTUAL communities , *ONLINE education , *CONFERENCES & conventions , *QUESTIONNAIRES - Abstract
We consider the opportunities and challenges associated with organizing a conference online, using a case study of a medium-sized (approx. 400 participants) international conference held virtually in August 2020. In addition, we present quantifiable evidence of the participants' experience using the results from an online post-conference questionnaire. Although the virtual meeting was not able to replicate the in-person experience in some aspects (e.g. less engagement between participants) the overwhelming majority of respondents found the meeting an enjoyable experience and would join similar events again. Notably, there was a strong desire for future in-person meetings to have at least some online component. Online attendance by lower-income researchers was higher compared with a past, similar-themed in-person meeting held in a high-income nation, but comparable to one held in an upper-middle-income nation. This indicates that online conferences are not a panacea for diversity and inclusivity, and that holding in-person meetings in developing economies can be at least as effective. Given that it is now relatively easy to stream contents of meetings online using low-cost methods, there are clear benefits in making all presented content accessible online, as well as organizing online networking events for those unable to attend in person. [ABSTRACT FROM AUTHOR]
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- 2021
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4. Mitonuclear epistasis, genotype‐by‐environment interactions, and personalized genomics of complex traits in Drosophila.
- Author
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Rand, David M., Mossman, Jim A., Zhu, Lei, Biancani, Leann M., and Ge, Jennifer Y.
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EPISTASIS (Genetics) ,GENOTYPES ,GENOTYPE-environment interaction ,DROSOPHILA genetics ,MITOCHONDRIAL physiology ,GENE expression - Abstract
Mitochondrial function requires the coordinated expression of dozens of gene products from the mitochondrial genome and hundreds from the nuclear genomes. The systems that emerge from these interactions convert the food we eat and the oxygen we breathe into energy for life, while regulating a wide range of other cellular processes. These facts beg the question of whether the gene‐by‐gene interactions (G x G) that enable mitochondrial function are distinct from the gene‐by‐environment interactions (G x E) that fuel mitochondrial activity. We examine this question using a Drosophila model of mitonuclear interactions in which experimental combinations of mtDNA and nuclear chromosomes generate pairs of mitonuclear genotypes to test for epistatic interactions (G x G). These mitonuclear genotypes are then exposed to altered dietary or oxygen environments to test for G x E interactions. We use development time to assess dietary effects, and genome wide RNAseq analyses to assess hypoxic effects on transcription, which can be partitioned in to mito, nuclear, and environmental (G x G x E) contributions to these complex traits. We find that mitonuclear epistasis is universal, and that dietary and hypoxic treatments alter the epistatic interactions. We further show that the transcriptional response to alternative mitonuclear interactions has significant overlap with the transcriptional response to alternative oxygen environments. Gene coexpression analyses suggest that these shared genes are more central in networks of gene interactions, implying some functional overlap between epistasis and genotype by environment interactions. These results are discussed in the context of evolutionary fitness, the genetic basis of complex traits, and the challenge of achieving precision in personalized medicine. © 2018 The Authors. IUBMB Life published by Wiley Periodicals, Inc. on behalf of International Union of Biochemistry and Molecular Biology, 70(12):1275–1288, 2018 [ABSTRACT FROM AUTHOR]
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- 2018
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5. Mitonuclear Epistasis for Development Time and Its Modification by Diet in Drosophila.
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Mossman, Jim A., Biancani, Leann M., Chen-Tseh Zhu, and Rand, David M.
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EPISTASIS (Genetics) , *GENE expression , *DROSOPHILA genetics , *INSECTS , *MITOCHONDRIAL DNA - Abstract
Mitochondrial (mtDNA) and nuclear genes have to operate in a coordinated manner to maintain organismal function, and the regulation of this homeostasis presents a substantial source of potential epistatic (G x G) interactions. How these interactions shape the fitness landscape is poorly understood. Here we developed a novel mitonuclear epistasis model, using selected strains of the Drosophila Genetic Reference Panel (DGRP) and mitochondrial genomes from within Drosophila melanogaster and D. simulans to test the hypothesis that mtDNA x nDNA interactions influence fitness. In total we built 72 genotypes (12 nuclear backgrounds x 6 mtDNA haplotypes, with 3 from each species) to dissect the relationship between genotype and phenotype. Each genotype was assayed on four food environments. We found considerable variation in several phenotypes, including development time and egg-to-adult viability, and this variation was partitioned into genetic (G), environmental (E), and higher-order (G x G, G x E, and G x G x E) components. Food type had a significant impact on development time and also modified mitonuclear epistases, evidencing a broad spectrum of G x G x E across these genotypes. Nuclear background effects were substantial, followed by mtDNA effects and their G x G interaction. The species of mtDNA haplotype had negligible effects on phenotypic variation and there was no evidence that mtDNA variation has different effects on male and female fitness traits. Our results demonstrate that mitonuclear epistases are context dependent, suggesting the selective pressure acting on mitonuclear genotypes may vary with food environment in a genotype-specific manner. [ABSTRACT FROM AUTHOR]
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- 2016
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6. Correction to 'Moving conferences online: lessons learned from an international virtual meeting'.
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Stefanoudis, Paris V., Biancani, Leann M., Cambronero-Solano, Sergio, Clark, Malcolm R., Copley, Jonathan T., Easton, Erin, Elmer, Franziska, Haddock, Steven H. D., Herrera, Santiago, Iglesias, Ilysa S., Quattrini, Andrea M., Sigwart, Julia, Yesson, Chris, and Glover, Adrian G.
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ONLINE education , *VIRTUAL communities , *CONFERENCES & conventions , *FOREIGN exchange , *ONLINE chat - Abstract
A correction is presented to the article "Moving conferences online: lessons learned from an international virtual meeting."
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- 2022
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7. Correction to 'Moving conferences online: lessons learned from an international virtual meeting'.
- Author
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Stefanoudis, Paris V., Biancani, Leann M., Cambronero-Solano, Sergio, Clark, Malcolm R., Copley, Jonathan T., Easton, Erin, Elmer, Franziska, Haddock, Steven H. D., Herrera, Santiago, Iglesias, Ilysa S., Quattrini, Andrea M., Sigwart, Julia, Yesson, Chris, and Glover, Adrian G.
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- 1998
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8. Stable genetic structure and connectivity in pollution-adapted and nearby pollution-sensitive populations of Fundulus heteroclitus .
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Nunez JCB, Biancani LM, Flight PA, Nacci DE, Rand DM, Crawford DL, and Oleksiak MF
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Populations of the non-migratory estuarine fish Fundulus heteroclitus inhabiting the heavily polluted New Bedford Harbour (NBH) estuary have shown inherited tolerance to local pollutants introduced to their habitats in the past 100 years. Here we examine two questions: (i) Is there pollution-driven selection on the mitochondrial genome across a fine geographical scale? and (ii) What is the pattern of migration among sites spanning a strong pollution gradient? Whole mitochondrial genomes were analysed for 133 F. heteroclitus from seven nearby collection sites: four sites along the NBH pollution cline (approx. 5 km distance), which had pollution-adapted fish, as well as one site adjacent to the pollution cline and two relatively unpolluted sites about 30 km away, which had pollution-sensitive fish. Additionally, we used microsatellite analyses to quantify genetic variation over three F. heteroclitus generations in both pollution-adapted and sensitive individuals collected from two sites at two different time points (1999/2000 and 2007/2008). Our results show no evidence for a selective sweep of mtDNA in the polluted sites. Moreover, mtDNA analyses revealed that both pollution-adapted and sensitive populations harbour similar levels of genetic diversity. We observed a high level of non-synonymous mutations in the most polluted site. This is probably associated with a reduction in N
e and concomitant weakening of purifying selection, a demographic expansion following a pollution-related bottleneck or increased mutation rates. Our demographic analyses suggest that isolation by distance influences the distribution of mtDNA genetic variation between the pollution cline and the clean populations at broad spatial scales. At finer scales, population structure is patchy, and neither spatial distance, pollution concentration or pollution tolerance is a good predictor of mtDNA variation. Lastly, microsatellite analyses revealed stable population structure over the last decade., Competing Interests: We, the authors, have no competing interests.- Published
- 2018
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