BACKGROUND: Detection of telomere repeats by Southern hybridization of genomic DNA is time consuming, and the reading of a mean terminal restriction fragment (TRF) length from a smear pattern of an autoradiogram can be inaccurate. We developed a hybridization protection assay (HPA) for telomere repeats. METHODS: We heated 5 microL of DNA solution or 10 microL of cell or tissue lysate at 95 degrees C for 5 min, mixed it with 100 microL of hybridization solution containing 3 x 10(6) relative light units of acridinium ester-labeled probe, and incubated the mixture for 20 min at 60 degrees C. We then added 300 microL of selection buffer and incubated the mixture for 10 min at 60 degrees C to differentially hydrolyze unhybridized probe. Chemiluminescence was measured for 2 s per tube. RESULTS: The amount of telomere repeats was assayed by HPA within linearity from 10 to 3000 ng of purified genomic DNA or from 1000 to 100 000 cell equivalents of lysate. To normalize the amount of DNA in lysate, the amount of Alu sequence was measured by HPA. A ratio of telomere to Alu (TA ratio) = 0.01 corresponded to approximately 2 kbp of mean TRF length determined by Southern blotting in cultured fibroblast and colorectal tissue samples. The TA ratio decreased from 0.06 to 0.02 with increasing division age from 30 to 90 population doubling levels of cultured human fetal fibroblasts. The assay required approximately 45 min from collection of cell or tissue samples. CONCLUSIONS: The amount of telomere repeats was quantitatively measured by HPA in 10 ng of sheared genomic DNA or in the lysate of 1000 cells. This method is simple, rapid, quantitative, sensitive, and applicable to the measurement of telomere repeats in clinical samples such as needle biopsy specimen or as few as 1000 cells in body fluid or washings.
BACKGROUND: Detection of telomere repeats by Southern hybridization of genomic DNA is time consuming, and the reading of a mean terminal restriction fragment (TRF) length from a smear pattern of an autoradiogram can be inaccurate. We developed a hybridization protection assay (HPA) for telomere repeats. METHODS: We heated 5 microL of DNA solution or 10 microL of cell or tissue lysate at 95 degrees C for 5 min, mixed it with 100 microL of hybridization solution containing 3 x 10(6) relative light units of acridinium ester-labeled probe, and incubated the mixture for 20 min at 60 degrees C. We then added 300 microL of selection buffer and incubated the mixture for 10 min at 60 degrees C to differentially hydrolyze unhybridized probe. Chemiluminescence was measured for 2 s per tube. RESULTS: The amount of telomere repeats was assayed by HPA within linearity from 10 to 3000 ng of purified genomic DNA or from 1000 to 100 000 cell equivalents of lysate. To normalize the amount of DNA in lysate, the amount of Alu sequence was measured by HPA. A ratio of telomere to Alu (TA ratio) = 0.01 corresponded to approximately 2 kbp of mean TRF length determined by Southern blotting in cultured fibroblast and colorectal tissue samples. The TA ratio decreased from 0.06 to 0.02 with increasing division age from 30 to 90 population doubling levels of cultured human fetal fibroblasts. The assay required approximately 45 min from collection of cell or tissue samples. CONCLUSIONS: The amount of telomere repeats was quantitatively measured by HPA in 10 ng of sheared genomic DNA or in the lysate of 1000 cells. This method is simple, rapid, quantitative, sensitive, and applicable to the measurement of telomere repeats in clinical samples such as needle biopsy specimen or as few as 1000 cells in body fluid or washings.
Authors: Alison J Montpetit; Areej A Alhareeri; Marty Montpetit; Angela R Starkweather; Lynne W Elmore; Kristin Filler; Lathika Mohanraj; Candace W Burton; Victoria S Menzies; Debra E Lyon; Colleen K Jackson-Cook Journal: Nurs Res Date: 2014 Jul-Aug Impact factor: 2.381
Authors: Alyssa R Lindrose; Lauren W Y McLester-Davis; Renee I Tristano; Leila Kataria; Shahinaz M Gadalla; Dan T A Eisenberg; Simon Verhulst; Stacy Drury Journal: PLoS One Date: 2021-01-20 Impact factor: 3.240