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1. Detection of human fecal pollution in environmental waters using human mitochondrial DNA and correlation with general and human-associated fecal genetic markers

   https://doi.org/10.2166/wh.2019.197  

   Tanvir Pasha, A. B. ; Hinojosa, Jessica ; Phan, Duc ; Lopez, Adrianne ; Kapoor, Vikram ( December 2019 , Journal of Water and Health)

   Abstract Human mitochondrial DNA (mtDNA) genetic markers are abundant in sewage and highly human-specific, suggesting a great potential for the environmental application as human fecal pollution indicators. Limited data are available on the occurrence and co-occurrence of human mtDNA with fecal bacterial markers in surface waters, and how the abundance of these markers is influenced by rain events. A 1-year sampling study was conducted in a suburban watershed impacted by human sewage contamination to evaluate the performance of a human mtDNA-based marker along with the bacterial genetic markers for human-associated Bacteroidales (BacHum and HF183) and Escherichia coli. Additionally, the human mtDNA-based assay was correlated with rain events and other markers. The mtDNA marker was detected in 92% of samples (n = 140) with a mean concentration of 2.96 log10 copies/100 ml throughout the study period. Human mtDNA was detected with greater abundance than human-associated Bacteroidales that could be attributed to differences in the decay of these markers in the environment. The abundance of all markers was positively correlated with rain events, and human mtDNA abundance was significantly correlated with various bacterial markers. In general, these results should support future risk assessment for impacted watersheds, particularly those affected by human fecal pollution, by evaluating the performance of these markers during rain events. 

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2. Genomes of Single-Stranded DNA Viruses in a Fecal Sample from South Polar Skua (Stercorarius maccormicki) on Ross Island, Antarctica

   https://doi.org/10.1128/mra.00299-23  

   Shick, Sarah R. ; Elrod, Megan L. ; Schmidt, Annie ; Kraberger, Simona ; Ainley, David G. ; Ballard, Grant ; Varsani, Arvind ( June 2023 , Microbiology Resource Announcements)

   Roux, Simon (Ed.)

   ABSTRACT South polar skuas migrate from subtropical regions to breed along coastal Antarctica. In a fecal sample collected on Ross Island, Antarctica, we identified 20 diverse microviruses ( Microviridae ) that share low levels of similarity to currently known microviruses; 6 appear to use a Mycoplasma/Spiroplasma codon translation table. 

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3. Phosphorylation of mitochondrial transcription factor B2 controls mitochondrial DNA binding and transcription

   https://doi.org/10.1016/j.bbrc.2020.05.141  

   Bostwick, Alicia M. ; Moya, Gonzalo E. ; Senti, Mackenna L. ; Basu, Urmimala ; Shen, Jiayu ; Patel, Smita S. ; Dittenhafer-Reed, Kristin E. ( July 2020 , Biochemical and Biophysical Research Communications)
4. A nanoscale, multi-parametric flow cytometry-based platform to study mitochondrial heterogeneity and mitochondrial DNA dynamics

   https://doi.org/10.1038/s42003-019-0513-4  

   MacDonald, Julie A. ; Bothun, Alisha M. ; Annis, Sofia N. ; Sheehan, Hannah ; Ray, Somak ; Gao, Yuanwei ; Ivanov, Alexander R. ; Khrapko, Konstantin ; Tilly, Jonathan L. ; Woods, Dori C. ( July 2019 , Communications Biology)

   Mitochondria are well-characterized regarding their function in both energy production and regulation of cell death; however, the heterogeneity that exists within mitochondrial populations is poorly understood. Typically analyzed as pooled samples comprised of millions of individual mitochondria, there is little information regarding potentially different functionality across subpopulations of mitochondria. Herein we present a new methodology to analyze mitochondria as individual components of a complex and heterogeneous network, using a nanoscale and multi–parametric flow cytometry-based platform. We validate the platform using multiple downstream assays, including electron microscopy, ATP generation, quantitative mass-spectrometry proteomic profiling, and mtDNA analysis at the level of single organelles. These strategies allow robust analysis and isolation of mitochondrial subpopulations to more broadly elucidate the underlying complexities of mitochondria as these organelles function collectively within a cell.

    

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5. Unprecedented enantio-selective live-cell mitochondrial DNA super-resolution imaging and photo-sensitizing by the chiral ruthenium polypyridyl DNA “light-switch”

   https://doi.org/10.1093/nar/gkad799  

   Huang, Rong ; Huang, Chun-Hua ; Chen, Jing ; Yan, Zhu-Ying ; Tang, Miao ; Shao, Jie ; Cai, Kaiyong ; Zhu, Ben-Zhan ( November 2023 , Nucleic Acids Research)

   Mitochondrial DNA (mtDNA) is known to play a critical role in cellular functions. However, the fluorescent probe enantio-selectively targeting live-cell mtDNA is rare. We recently found that the well-known DNA ‘light-switch’ [Ru(phen)2dppz]Cl2 can image nuclear DNA in live-cells with chlorophenolic counter-anions via forming lipophilic ion-pairing complex. Interestingly, after washing with fresh-medium, [Ru(phen)2dppz]Cl2 was found to re-localize from nucleus to mitochondria via ABC transporter proteins. Intriguingly, the two enantiomers of [Ru(phen)2dppz]Cl2 were found to bind enantio-selectively with mtDNA in live-cells not only by super-resolution optical microscopy techniques (SIM, STED), but also by biochemical methods (mitochondrial membrane staining with Tomo20-dronpa). Using [Ru(phen)2dppz]Cl2 as the new mtDNA probe, we further found that each mitochondrion containing 1–8 mtDNA molecules are distributed throughout the entire mitochondrial matrix, and there are more nucleoids near nucleus. More interestingly, we found enantio-selective apoptotic cell death was induced by the two enantiomers by prolonged visible light irradiation, and in-situ self-monitoring apoptosis process can be achieved by using the unique ‘photo-triggered nuclear translocation’ property of the Ru complex. This is the first report on enantio-selective targeting and super-resolution imaging of live-cell mtDNA by a chiral Ru complex via formation and dissociation of ion-pairing complex with suitable counter-anions.

    

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