Your search keyword '"Flanagan RM"' showing total 2 results

1. The Caenorhabditis elegans TDRD5/7-like protein, LOTR-1, interacts with the helicase ZNFX-1 to balance epigenetic signals in the germline.

Author

Marnik EA, Almeida MV, Cipriani PG, Chung G, Caspani E, Karaulanov E, Gan HH, Zinno J, Isolehto IJ, Kielisch F, Butter F, Sharp CS, Flanagan RM, Bonnet FX, Piano F, Ketting RF, Gunsalus KC, and Updike DL

Subjects

Animals, Caenorhabditis elegans Proteins, RNA Helicases, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Tudor Domain, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Epigenesis, Genetic, Germ Cells metabolism

Abstract

LOTUS and Tudor domain containing proteins have critical roles in the germline. Proteins that contain these domains, such as Tejas/Tapas in Drosophila, help localize the Vasa helicase to the germ granules and facilitate piRNA-mediated transposon silencing. The homologous proteins in mammals, TDRD5 and TDRD7, are required during spermiogenesis. Until now, proteins containing both LOTUS and Tudor domains in Caenorhabditis elegans have remained elusive. Here we describe LOTR-1 (D1081.7), which derives its name from its LOTUS and Tudor domains. Interestingly, LOTR-1 docks next to P granules to colocalize with the broadly conserved Z-granule helicase, ZNFX-1. The Tudor domain of LOTR-1 is required for its Z-granule retention. Like znfx-1 mutants, lotr-1 mutants lose small RNAs from the 3' ends of WAGO and mutator targets, reminiscent of the loss of piRNAs from the 3' ends of piRNA precursor transcripts in mouse Tdrd5 mutants. Our work shows that LOTR-1 acts with ZNFX-1 to bring small RNA amplifying mechanisms towards the 3' ends of its RNA templates., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

2. Cyanide-Nitroprusside Colorimetric Assay: A Rapid Colorimetric Screen for Urinary Cystine.

Author

Brady CT, Giesen CD, Voskoboev N, Chirackal RS, Gavrilov DK, Flanagan RM, and Lieske JC

Abstract

Background: Cystinuria is an autosomal recessive disorder resulting in poor proximal tubule reabsorption of cystine in the nephron, increasing the risk of cystine stone formation. A fast, inexpensive assay to screen for urinary cystine is needed because cystine stones are difficult to noninvasively differentiate from more common calcium-containing ones. Tandem mass spectrometry (MS/MS) is sensitive and specific but is labor-intensive and costly. Alternatively, a colorimetric assay is fast and cost-effective; however, creatinine interference is an issue., Methods: A published cyanide-nitroprusside colorimetric assay was modified for a high-throughput microplate format. Creatinine interference was reduced using 0.1 mol/L PBS and a standard reaction time of 60 s and was further corrected using a formula derived from the slope of multiple creatinine standard curves., Results: The limit of blank was determined to be 2.6 mg/L, the limit of detection 11.9 mg/L, and the limit of quantitation 15.3 mg/L. The analytic measurement range was established as 15.3-100 mg/L cystine. Intraassay and interassay CV was calculated to be 9.6% and 8.0%, respectively, for a high-level cystine concentration (83.6 mg/L). Low-level cystine (36.4 mg/L) intraassay and interassay CV was determined to be 18.1% and 17.6%, respectively. Passing-Bablok regression analysis of colorimetric vs LC-MS/MS results revealed a slope of 1.10 and y intercept of -7.14 mg/L, with an overall bias of 2% by Bland-Altman plot analysis., Conclusions: We analytically validated a rapid colorimetric assay suitable to quantify urinary cystine. The effect of thiol drugs on this assay remains to be determined., (© 2017 American Association for Clinical Chemistry.)

Published

2017