An Optimised Step-by-Step Protocol for Measuring Relative Telomere Length

Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and...

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Published in	Methods and protocols Vol. 3; no. 2; p. 27
Main Authors	Joglekar, Mugdha V., Satoor, Sarang N., Wong, Wilson K.M., Cheng, Feifei, Ma, Ronald C.W., Hardikar, Anandwardhan A.
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 03.04.2020 MDPI
Subjects	cells DNA DNA replication Observations Physiological aspects Protocol real-time PCR relative telomere length Telomeres Germany Telomeres relative telomere length cells real-time PCR DNA
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Abstract	Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and a range of disease states. Different methods such as terminal restriction fragment analysis, real-time quantitative PCR (qPCR) and fluorescence in situ hybridization are available to measure telomere length; however, the qPCR-based method is commonly used for large population-based studies. There are multiple variations across qPCR-based methods, including the choice of the single-copy gene, primer sequences, reagents, and data analysis methods in the different reported studies so far. Here, we provide a detailed step-by-step protocol that we have optimized and successfully tested in the hands of other users. This protocol will help researchers interested in measuring relative telomere lengths in cells or across larger clinical cohort/study samples to determine associations of telomere length with health and disease.
AbstractList	Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and a range of disease states. Different methods such as terminal restriction fragment analysis, real-time quantitative PCR (qPCR) and fluorescence in situ hybridization are available to measure telomere length; however, the qPCR-based method is commonly used for large population-based studies. There are multiple variations across qPCR-based methods, including the choice of the single-copy gene, primer sequences, reagents, and data analysis methods in the different reported studies so far. Here, we provide a detailed step-by-step protocol that we have optimized and successfully tested in the hands of other users. This protocol will help researchers interested in measuring relative telomere lengths in cells or across larger clinical cohort/study samples to determine associations of telomere length with health and disease.Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and a range of disease states. Different methods such as terminal restriction fragment analysis, real-time quantitative PCR (qPCR) and fluorescence in situ hybridization are available to measure telomere length; however, the qPCR-based method is commonly used for large population-based studies. There are multiple variations across qPCR-based methods, including the choice of the single-copy gene, primer sequences, reagents, and data analysis methods in the different reported studies so far. Here, we provide a detailed step-by-step protocol that we have optimized and successfully tested in the hands of other users. This protocol will help researchers interested in measuring relative telomere lengths in cells or across larger clinical cohort/study samples to determine associations of telomere length with health and disease. Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and a range of disease states. Different methods such as terminal restriction fragment analysis, real-time quantitative PCR (qPCR) and fluorescence in situ hybridization are available to measure telomere length; however, the qPCR-based method is commonly used for large population-based studies. There are multiple variations across qPCR-based methods, including the choice of the single-copy gene, primer sequences, reagents, and data analysis methods in the different reported studies so far. Here, we provide a detailed step-by-step protocol that we have optimized and successfully tested in the hands of other users. This protocol will help researchers interested in measuring relative telomere lengths in cells or across larger clinical cohort/study samples to determine associations of telomere length with health and disease. Telomeres represent the nucleotide repeat sequences at the ends of chromosomes and are essential for chromosome stability. They can shorten at each round of DNA replication mainly because of incomplete DNA synthesis of the lagging strand. Reduced relative telomere length is associated with aging and a range of disease states. Different methods such as terminal restriction fragment analysis, real-time quantitative PCR (qPCR) and fluorescence in situ hybridization are available to measure telomere length; however, the qPCR-based method is commonly used for large population-based studies. There are multiple variations across qPCR-based methods, including the choice of the single-copy gene, primer sequences, reagents, and data analysis methods in the different reported studies so far. Here, we provide a detailed step-by-step protocol that we have optimized and successfully tested in the hands of other users. This protocol will help researchers interested in measuring relative telomere lengths in cells or across larger clinical cohort/study samples to determine associations of telomere length with health and disease. Keywords: telomeres; real-time PCR; relative telomere length; cells; DNA
Audience	Academic
Author	Satoor, Sarang N. Cheng, Feifei Wong, Wilson K.M. Hardikar, Anandwardhan A. Joglekar, Mugdha V. Ma, Ronald C.W.
AuthorAffiliation	2 DNA Sequencing Laboratory, National Centre for Cell Science, NCMR Campus, Sai Trinity Complex, Pashan, Pune 411 021, India 1 Diabetes and Islet biology, NHMRC Clinical Trials Centre, Faculty of Medicine and Health, University of Sydney, Camperdown, NSW 2150, Australia; sarangsatoor@gmail.com (S.N.S.); wilson.wong@ctc.usyd.edu.au (W.K.M.W.) 3 Department of Medicine & Therapeutics and Li Ka Shing Institute of Health Sciences, Chinese University of Hong Kong, Prince of Wales Hospital, Hong Kong, China; CHENG-Feifei@link.cuhk.edu.hk (F.C.)
AuthorAffiliation_xml	– name: 1 Diabetes and Islet biology, NHMRC Clinical Trials Centre, Faculty of Medicine and Health, University of Sydney, Camperdown, NSW 2150, Australia; sarangsatoor@gmail.com (S.N.S.); wilson.wong@ctc.usyd.edu.au (W.K.M.W.) – name: 3 Department of Medicine & Therapeutics and Li Ka Shing Institute of Health Sciences, Chinese University of Hong Kong, Prince of Wales Hospital, Hong Kong, China; CHENG-Feifei@link.cuhk.edu.hk (F.C.) – name: 2 DNA Sequencing Laboratory, National Centre for Cell Science, NCMR Campus, Sai Trinity Complex, Pashan, Pune 411 021, India
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SubjectTerms	cells DNA DNA replication Observations Physiological aspects Protocol real-time PCR relative telomere length Telomeres
Title	An Optimised Step-by-Step Protocol for Measuring Relative Telomere Length
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