Julianne Bartz scite author profile

The mechanisms that maintain sterility in the urinary tract are incompletely understood; however, recent studies stress the importance of antimicrobial peptides in protecting the urinary tract from infection. Ribonuclease 7 (RNase 7), a potent antimicrobial peptide contributing to urinary tract sterility, is expressed by intercalated cells in the renal collecting tubules and is present in the urine at levels sufficient to kill bacteria at baseline. Here, we characterize the expression and function of RNase 7 in the human urinary tract during infection. Both quantitative real-time PCR and ELISA assays demonstrated increases in RNASE7 expression in the kidney along with kidney and urinary RNase 7 peptide concentrations with infection. While immunostaining localized RNase 7 production to the intercalated cells of the collecting tubule during sterility, its expression during pyelonephritis was found to increase throughout the nephron but not in glomeruli or the interstitium. Recombinant RNase 7 exhibited antimicrobial activity against uropathogens at low micromolar concentrations by disrupting the microbial membrane as determined by atomic force microscopy. Thus, RNase 7 expression is increased in the urinary tract with infection, and has antibacterial activity against uropathogens at micromolar concentrations.

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Next‐generation sequencing approach to epigenetic‐based tissue source attribution

Bartling

Hester

Bartz

et al. 2014

Electrophoresis

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The ability to determine the tissue source of biological materials from evidence samples can be highly informative for interpreting forensic data. In this study, a previously published CE‐based method to probe locus‐specific DNA methylation was modified to accommodate detection using next‐generation sequencing (NGS) to perform tissue source attribution. DNA samples (1 ng) from each of four different tissue types were digested with the methylation sensitive restriction endonuclease Hha1 and PCR was used to amplify an optimized subset of ten methylated loci, including positive and negative control loci. The products were prepared as NGS libraries, pooled in a multiplex assay with sample‐specific barcodes, sequenced with an Illumina MiSeq, and analyzed using a k‐Nearest Neighbor algorithm. With this initial effort a concordance rate of 15/16 was demonstrated from samples of varying types: semen, saliva, skin epidermis, and blood. This method also was designed to be compatible with the workflows published to date for NGS of STRs. Thus, the methylation approach described here is highly accurate and upon further validation and testing may be potentially used in practice as a confirmatory test in conjunction with other NGS protocols used in forensic laboratories.

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Polyploidy in Xenopus lowers metabolic rate by decreasing total cell surface area

Cadart¹,

Bartz²,

Oaks³

et al. 2023

Current Biology

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Ploidy modulates cell size and metabolic rate inXenopusembryos

Cadart

Bartz

Oaks

et al. 2022

Preprint

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A positive correlation between genome size and cell size is well documented, but impacts on animal physiology are poorly understood. In Xenopus frogs, the number of genome copies (ploidy) varies across species and can be manipulated within a species. Here we show that triploid tadpoles contain fewer, larger cells than diploids and consume oxygen at a lower rate. Treatments that altered cell membrane stability or electrical potential abolished this difference, suggesting that a decrease in total cell surface area reduces basal energy consumption in triploids. Comparison of Xenopus species that evolved through polyploidization revealed that metabolic differences emerged during development when cell size scaled with genome size. Thus, ploidy affects metabolism by altering the cell surface area to volume ratio in a multicellular organism.

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Julianne Bartz

Ribonuclease 7, an antimicrobial peptide upregulated during infection, contributes to microbial defense of the human urinary tract

Next‐generation sequencing approach to epigenetic‐based tissue source attribution

Polyploidy in Xenopus lowers metabolic rate by decreasing total cell surface area

Ploidy modulates cell size and metabolic rate inXenopusembryos

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