Your search keyword '"Wheeler, Gregory L."' showing total 11 results

1. CRISPR-Cas9 homology-independent targeted integration of exons 1–19 restores full-length dystrophin in mice

Author

Stephenson, Anthony A., Nicolau, Stefan, Vetter, Tatyana A., Dufresne, Gabrielle P., Frair, Emma C., Sarff, Jessica E., Wheeler, Gregory L., Kelly, Benjamin J., White, Peter, and Flanigan, Kevin M.

Published

2023

2. Multiomics in primary and metastatic breast tumors from the AURORA US network finds microenvironment and epigenetic drivers of metastasis

Author

Garcia-Recio, Susana, Hinoue, Toshinori, Wheeler, Gregory L., Kelly, Benjamin J., Garrido-Castro, Ana C., Pascual, Tomas, De Cubas, Aguirre A., Xia, Youli, Felsheim, Brooke M., McClure, Marni B., Rajkovic, Andrei, Karaesmen, Ezgi, Smith, Markia A., Fan, Cheng, Ericsson, Paula I. Gonzalez, Sanders, Melinda E., Creighton, Chad J., Bowen, Jay, Leraas, Kristen, Burns, Robyn T., Coppens, Sara, Wheless, Amy, Rezk, Salma, Garrett, Amy L., Parker, Joel S., Foy, Kelly K., Shen, Hui, Park, Ben H., Krop, Ian, Anders, Carey, Gastier-Foster, Julie, Rimawi, Mothaffar F., Nanda, Rita, Lin, Nancy U., Isaacs, Claudine, Marcom, P. Kelly, Storniolo, Anna Maria, Couch, Fergus J., Chandran, Uma, Davis, Michael, Silverstein, Jonathan, Ropelewski, Alexander, Liu, Minetta C., Hilsenbeck, Susan G., Norton, Larry, Richardson, Andrea L., Symmans, W. Fraser, Wolff, Antonio C., Davidson, Nancy E., Carey, Lisa A., Lee, Adrian V., Balko, Justin M., Hoadley, Katherine A., Laird, Peter W., Mardis, Elaine R., King, Tari A., and Perou, Charles M.

Published

2023

3. Phylogeography and genetic structure of endemic Acmispon argophyllus and A. dendroideus (Fabaceae) across the California Channel Islands

Author

Wallace, Lisa E., Wheeler, Gregory L., McGlaughlin, Mitchell E., Bresowar, Gerald, and Helenurm, Kaius

Published

2017

4. Transcribed microsatellite allele lengths are often correlated with gene expression in natural sunflower populations.

Author

Ranathunge, Chathurani, Wheeler, Gregory L., Chimahusky, Melody E., Perkins, Andy D., Pramod, Sreepriya, and Welch, Mark E.

Subjects

*GENE expression, *COMMON sunflower, *MICROSATELLITE repeats, *SUNFLOWERS, *EUKARYOTIC genomes, *ALLELES, *CIS-regulatory elements (Genetics)

Abstract

Microsatellites are common in genomes of most eukaryotic species. Due to their high mutability, an adaptive role for microsatellites has been considered. However, little is known concerning the contribution of microsatellites towards phenotypic variation. We used populations of the common sunflower (Helianthus annuus) at two latitudes to quantify the effect of microsatellite allele length on phenotype at the level of gene expression. We conducted a common garden experiment with seed collected from sunflower populations in Kansas and Oklahoma followed by an RNA‐Seq experiment on 95 individuals. The effect of microsatellite allele length on gene expression was assessed across 3,325 microsatellites that could be consistently scored. Our study revealed 479 microsatellites at which allele length significantly correlates with gene expression (eSTRs). When irregular allele sizes not conforming to the motif length were removed, the number of eSTRs rose to 2,379. The percentage of variation in gene expression explained by eSTRs ranged from 1%–86% when controlling for population and allele‐by‐population interaction effects at the 479 eSTRs. Of these eSTRs, 70.4% are in untranslated regions (UTRs). A gene ontology (GO) analysis revealed that eSTRs are significantly enriched for GO terms associated with cis‐ and trans‐regulatory processes. Our findings suggest that a substantial number of transcribed microsatellites can influence gene expression. [ABSTRACT FROM AUTHOR]

Published

2020

5. Transcriptome profiles of sunflower reveal the potential role of microsatellites in gene expression divergence.

Author

Ranathunge, Chathurani, Wheeler, Gregory L., Chimahusky, Melody E., Kennedy, Meaghan M., Morrison, Jesse I., Baldwin, Brian S., Perkins, Andy D., and Welch, Mark E.

Subjects

*COMMON sunflower, *GENE expression, *MICROSATELLITE repeats, *CHROMOSOMES, *NUCLEOTIDE sequencing

Abstract

Abstract: The mechanisms by which natural populations generate adaptive genetic variation are not well understood. Some studies propose that microsatellites can function as drivers of adaptive variation. Here, we tested a potentially adaptive role for transcribed microsatellites with natural populations of the common sunflower (Helianthus annuus L.) by assessing the enrichment of microsatellites in genes that show expression divergence across latitudes. Seeds collected from six populations at two distinct latitudes in Kansas and Oklahoma were planted and grown in a common garden. Morphological measurements from the common garden demonstrated that phenotypic variation among populations is largely explained by underlying genetic variation. An RNA‐Seq experiment was conducted with 96 of the individuals grown in the common garden and differentially expressed (DE) transcripts between the two latitudes were identified. A total number of 825 DE transcripts were identified. DE transcripts and nondifferentially expressed (NDE) transcripts were then scanned for microsatellites. The abundance of different motif lengths and types in both groups were estimated. Our results indicate that DE transcripts are significantly enriched with mononucleotide repeats and significantly depauperate in trinucleotide repeats. Further, the standardized mononucleotide repeat motif A and dinucleotide repeat motif AG were significantly enriched within DE transcripts while motif types, C, AT, ACC and AAC in DE transcripts, are significantly differentiated in microsatellite tract length between the two latitudes. The tract length differentiation at specific microsatellite motif types across latitudes and their enrichment within DE transcripts indicate a potential functional role for transcribed microsatellites in gene expression divergence in sunflower. [ABSTRACT FROM AUTHOR]

Published

2018

6. Evaluating the adaptive evolutionary convergence of carnivorous plant taxa through functional genomics.

Author

Wheeler, Gregory L. and Carstens, Bryan C.

Subjects

CARNIVOROUS plants, FUNCTIONAL genomics, GENE ontology, PLANT genomes, GENOMES

Abstract

Carnivorous plants are striking examples of evolutionary convergence, displaying complex and often highly similar adaptations despite lack of shared ancestry. Using available carnivorous plant genomes along with non-carnivorous reference taxa, this study examines the convergence of functional overrepresentation of genes previously implicated in plant carnivory. Gene Ontology (GO) coding was used to quantitatively score functional representation in these taxa, in terms of proportion of carnivory- associated functions relative to all functional sequence. Statistical analysis revealed that, in carnivorous plants as a group, only two of the 24 functions tested showed a signal of substantial overrepresentation. However, when the four carnivorous taxa were analyzed individually, 11 functions were found to be significant in at least one taxon. Though carnivorous plants collectively may show overrepresentation in functions from the predicted set, the specific functions that are overrepresented vary substantially from taxon to taxon. While it is possible that some functions serve a similar practical purpose such that one taxon does not need to utilize both to achieve the same result, it appears that there are multiple approaches for the evolution of carnivorous function in plant genomes. Our approach could be applied to tests of functional convergence in other systems provided on the availability of genomes and annotation data for a group. [ABSTRACT FROM AUTHOR]

Published

2018

7. Posterior predictive checks of coalescent models: P2C2M, an R package.

Author

Gruenstaeudl, Michael, Reid, Noah M., Wheeler, Gregory L., and Carstens, Bryan C.

Subjects

PHYLOGEOGRAPHY, GENETIC polymorphisms, SPECIES hybridization, ERROR rates, GENE flow

Abstract

Bayesian inference operates under the assumption that the empirical data are a good statistical fit to the analytical model, but this assumption can be challenging to evaluate. Here, we introduce a novel R package that utilizes posterior predictive simulation to evaluate the fit of the multispecies coalescent model used to estimate species trees. We conduct a simulation study to evaluate the consistency of different summary statistics in comparing posterior and posterior predictive distributions, the use of simulation replication in reducing error rates and the utility of parallel process invocation towards improving computation times. We also test P2C2M on two empirical data sets in which hybridization and gene flow are suspected of contributing to shared polymorphism, which is in violation with the coalescent model: Tamias chipmunks and Myotis bats. Our results indicate that (i) probability-based summary statistics display the lowest error rates, (ii) the implementation of simulation replication decreases the rate of type II errors, and (iii) our R package displays improved statistical power compared to previous implementations of this approach. When probabilistic summary statistics are used, P2C2M corroborates the assumption that genealogies collected from Tamias and Myotis are not a good fit to the multispecies coalescent model. Taken as a whole, our findings argue that an assessment of the fit of the multispecies coalescent model should accompany any phylogenetic analysis that estimates a species tree. [ABSTRACT FROM AUTHOR]

Published

2016

8. Do the island biogeography predictions of MacArthur and Wilson hold when examining genetic diversity on the near mainland California Channel Islands? Examples from endemic Acmispon ( Fabaceae).

Author

McGlaughlin, Mitchell E., Wallace, Lisa E., Wheeler, Gregory L., Bresowar, Gerald, Riley, Lynn, Britten, Nicholas R., and Helenurm, Kaius

Subjects

ISLANDS, BIOGEOGRAPHY, ENDEMIC plants, LEGUMES, PLANT diversity

Abstract

The California Channel Islands are a group of eight oceanic islands located off the coast of southern California that are substantially closer to the mainland than most other well-studied island systems. The equilibrium theory of island biogeography proposed by MacArthur and Wilson posits that species diversity on an island will be positively impacted by island area and negatively impacted by isolation, which has been confirmed for the Channel Islands. In this study, we have extended MacArthur and Wilson's theory to examine how levels of genetic diversity relate to four island characteristics (island area, distance to the mainland, distance to the nearest island, plant diversity) in the endemic perennial taxa of Acmispon ( Fabaceae) on the Channel Islands. We sampled two island species of Acmispon, A. argophyllus and A. dendroideus, from all islands, and mainland sister taxa for nuclear microsatellites, low-copy nuclear sequence and plastid sequence data. We found that only one measure of diversity from one genetic region (low-copy nuclear) was correlated with island area, that there was no support for a relationship between genetic diversity and distance to the mainland and that distance to the nearest island was a predictor of low-copy nuclear genetic diversity. Plant diversity was a significant predictor of plastid genetic diversity when considering all samples. We conclude that the equilibrium theory of island biogeography does not hold for measures of genetic diversity in the Channel Island endemic Acmispon based on island area and distance to the mainland. The short distance between individual islands and the mainland probably facilitates a moderate rate of mainland to island dispersal, preventing the islands from functioning as isolated biogeographic units. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2014, 174, 289-304. [ABSTRACT FROM AUTHOR]

Published

2014

9. Microsatellites as Agents of Adaptive Change: An RNA-Seq-Based Comparative Study of Transcriptomes from Five Helianthus Species.

Author

Ranathunge, Chathurani, Pramod, Sreepriya, Renaut, Sébastien, Wheeler, Gregory L., Perkins, Andy D., Rieseberg, Loren H., and Welch, Mark E.

Subjects

MICROSATELLITE repeats, SUNFLOWERS, TRANSCRIPTOMES, CHANGE agents, SINGLE nucleotide polymorphisms, CIS-regulatory elements (Genetics)

Abstract

Mutations that provide environment-dependent selective advantages drive adaptive divergence among species. Many phenotypic differences among related species are more likely to result from gene expression divergence rather than from non-synonymous mutations. In this regard, cis-regulatory mutations play an important part in generating functionally significant variation. Some proposed mechanisms that explore the role of cis-regulatory mutations in gene expression divergence involve microsatellites. Microsatellites exhibit high mutation rates achieved through symmetric or asymmetric mutation processes and are abundant in both coding and non-coding regions in positions that could influence gene function and products. Here we tested the hypothesis that microsatellites contribute to gene expression divergence among species with 50 individuals from five closely related Helianthus species using an RNA-seq approach. Differential expression analyses of the transcriptomes revealed that genes containing microsatellites in non-coding regions (UTRs and introns) are more likely to be differentially expressed among species when compared to genes with microsatellites in the coding regions and transcripts lacking microsatellites. We detected a greater proportion of shared microsatellites in 5′UTRs and coding regions compared to 3′UTRs and non-coding transcripts among Helianthus spp. Furthermore, allele frequency differences measured by pairwise FST at single nucleotide polymorphisms (SNPs), indicate greater genetic divergence in transcripts containing microsatellites compared to those lacking microsatellites. A gene ontology (GO) analysis revealed that microsatellite-containing differentially expressed genes are significantly enriched for GO terms associated with regulation of transcription and transcription factor activity. Collectively, our study provides compelling evidence to support the role of microsatellites in gene expression divergence. [ABSTRACT FROM AUTHOR]

Published

2021

10. VARIABLE LENGTH CHLOROPLAST MARKERS FOR POPULATION GENETIC STUDIES IN ACMISPON (FABACEAE).

Author

Wheeler, Gregory L., McGlaughlin, Mitchell E., and Wallace, Lisa E.

Subjects

*POPULATION genetics, *CHLOROPLASTS, *HOMOPLASY, *LEGUMES, *GENETIC research

Abstract

* Premise of the study: To estimate genetic structure, chloroplast loci containing length-variable regions were developed for two legumes, Acmispon argophyllus and A. dendroideus . * Methods and Results: Primers for 14 chloroplast loci containing repeat regions were developed from the chloroplast genome sequence of the legume Lotus japonicus and tested in Acmispon. Nine loci exhibited polymorphism in Acmispon, with up to six alleles per locus. Gene diversity ranged from 0 to 0.775 in A. argophyllus and 0.142 to 0.766 in A. dendroideus. The primers also amplified in other Acmispon species. Sequencing of the fragments revealed discordance between fragment sizes and underlying sequence for three loci containing complex repeat regions. * Conclusions: Although genotypes were easily generated and sized, sequencing may be more informative of genetic variation in loci with complex repeat regions. These loci exhibit substantial variation and should be useful for understanding genetic structure associated with seed dispersal in Acmispon . [ABSTRACT FROM AUTHOR]

Published

2012

11. A Review of the Prevalence, Utility, and Caveats of Using Chloroplast Simple Sequence Repeats for Studies of Plant Biology

Author

Wheeler, Gregory L., Dorman, Hanna E., Buchanan, Alenda, Challagundla, Lavanya, and Wallace, Lisa E.

Published

2014