Prevalence, Risk Factors, and Impact of Myopic Macular Degeneration on Visual Impairment and Functioning Among Adults in Singapore

Monomer nucleosomes purified on isokinetic sucrose gradients are shown to dissociate into component DNA and histones at physiological ionic strength upon dilution to a DNA concentration below 20 microgram/ml. The starting material is 11S, contains 145-190 BP DNA, and equimolar amounts of the four core histones with slightly less H1. Dilution of monomers in the presence of 0.14 M NaCl results in the rapid conversion of 10-40% of the 3H thymidine labeled material from 11S to 5S (5S is coincident with the S value of monomer length DNA). The proportion of nucleosomes which dissociate increases with increasing NaCl concentration between 0.15 M and 0.35 M and decreases with increasing DNA concentration above 1 microgram/ml. Recycling 11S monomers, which remain after dissociation, through a second dilution in salt generates an equivalent proportion of 5S material as seen after the initial dilution. Thus, the dissociation does not result from special properties of a subset of nucleosomes. An equilibrium between intact monomer and free DNA and histones appears to be rapidly established under the conditions described and the dissociated DNA will reassociate with histones to form 11S monomers if conditions of high DNA concentration and low ionic strength are established.

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Isolation of Deoxyribonucleic Acid (DNA) from Saliva and Forensic Science Samples Containing Saliva

Walsh¹,

Corey²,

Cotton³

et al. 1992

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Saliva and saliva-stained materials were examined as potential sources of deoxyribonucleic acid (DNA) for DNA analysis and identity testing. In this paper, the authors demonstrate that DNA was isolated and DNA banding patterns suitable for DNA typing were obtained from fresh saliva and various saliva-stained materials, such as envelopes, buccal swabs, gags, and cigarettes. Furthermore, DNA and DNA banding patterns were obtained from actual forensic evidentiary samples containing mixed saliva/semen stains. The DNA banding patterns obtained from saliva or saliva-stained material were indistinguishable from the patterns obtained from blood or hair from the same individual. Intact DNA was readily isolated and DNA banding patterns were obtained from saliva stored at −20°C and dried saliva stains stored under varying conditions. We conclude that saliva and saliva-stained material can be good sources of DNA for analysis and for DNA typing in certain forensic settings.

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Analytical Thresholds and Sensitivity: Establishing RFU Thresholds for Forensic DNA Analysis,

Bregu

Conklin

Coronado

et al. 2012

Journal of Forensic Sciences

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Determining appropriate analytical thresholds (ATs) for forensic DNA analysis is critical to maximize allele detection. In this study, six methods to determine ATs for forensic DNA purposes were examined and compared. Four of the methods rely on analysis of the baseline noise of a number of negatives, while two utilize the relationship between relative fluorescence unit signal and DNA input in the polymerase chain reaction (PCR) derived from a dilution series ranging from 1 to 0.06 ng. Results showed that when a substantial mass of DNA (i.e., >1 ng) was amplified, the baseline noise increased, suggesting the application of an AT derived from negatives should only be applied to samples with low levels of DNA. Further, the number and intensity of these noise peaks increased with increasing injection times, indicating that to maximize the ability to detect alleles, ATs should be validated for each post-PCR procedure employed.

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Match likelihood ratio for uncertain genotypes

Perlin¹,

Kadane²,

Cotton³

2009

Law, Probability and Risk

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Development of a Human‐Specific Real‐Time PCR Assay for the Simultaneous Quantitation of Total Genomic and Male DNA^*

Horsman

Hickey

Cotton³

et al. 2006

Journal of Forensic Sciences

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A duplex real-time quantitative PCR assay was developed for forensic DNA analysis, which provides simultaneous quantitation of total genomic human DNA and human male DNA. The assay utilizes two spectrally resolved fluorogenic probes in a 5' nuclease (TaqMantrade mark) assay. Within the range of organisms empirically tested and based upon theoretical specificity using National Center for Biotechnology Information GenBank sequences, primer and probe sequences were shown to be human specific, and the Y-chromosome probe, male-specific. A mixture-challenge study resulted in accurate quantitation of 25 pg male DNA in a mixture of up to 1:5000 (male:female DNA). Additional experimental results include comparisons with the slot blot method and commercial real-time PCR kits. The assay developed addresses the shortcomings of the traditional slot blot method as well as the commercial real-time PCR kits. This method is shown to be specific, relatively simple, rapid, has low limits of detection, and consumes limited sample in addition to reporting both the male and total genomic DNA concentrations present.

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Identification of Pneumocystis carinii chromosomes and mapping of five genes

et al. 1990

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Pulsed field gel electrophoresis was used to identify the chromosome-size DNA of Pneumocystis carinii, a major pathogen of immunocompromised patients. Thirteen chromosomes of rodent Pneumocystis carinii, ranging in size from 300 to 700 kilobases (kb), were identified. The minimum genome size for P. carinii, estimated on the basis of the sizes of chromosomes, is 7,000 kb. Genetic heterogeneity among different P. carinii isolates was documented by demonstration of chromosomal size variability. By hybridization studies, the genes for topoisomerase I, dihydrofolate reductase, rRNA, actin, and thymidylate synthase were mapped to single chromosomes of approximately 650, 590, 550, 460, and 350 kb, respectively. Hybridization studies further confirmed the genetic heterogeneity of P. carinii.

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Review: Properties of sperm and seminal fluid, informed by research on reproduction and contraception

Cotton

Fisher

2015

Forensic Science International: Genetics

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Investigation of Reproducibility and Error Associated with qPCR Methods using Quantifiler^® Duo DNA Quantification Kit*

Grgicak

Urban

Cotton

2010

Journal of Forensic Sciences

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Reproducibility of quantitative PCR results is dependent on the generation of consistent calibration curves via accurate volume transfers and instrument performance. A review of 14 standard curves, using two different QuantDuo® standard DNA lots, showed variability of cycle threshold values between assays were larger than those of the Internal PCR Control (IPC). This prompted a set of experiments designed to determine the source of variability. Results showed that error introduced during DNA addition to the plate resulted in little variation. A comparison of seven independent series demonstrated cycle threshold variation between dilutions was larger than the variation expected from repeated samples. Modeling the influence of pipette errors on dilution series accuracy indicated that a more rigorous approach to external calibration curve production is required and showed that improvement in calibration curve stability is expected if the pipette conditions are carefully chosen and ⁄ or a single validated curve is utilized as the calibrator.

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Robin W. Cotton

Nucleosome dissociation at physiological ionic strengths

Isolation of Deoxyribonucleic Acid (DNA) from Saliva and Forensic Science Samples Containing Saliva

Analytical Thresholds and Sensitivity: Establishing RFU Thresholds for Forensic DNA Analysis,

Match likelihood ratio for uncertain genotypes

Development of a Human‐Specific Real‐Time PCR Assay for the Simultaneous Quantitation of Total Genomic and Male DNA^*

Identification of Pneumocystis carinii chromosomes and mapping of five genes

Review: Properties of sperm and seminal fluid, informed by research on reproduction and contraception

Investigation of Reproducibility and Error Associated with qPCR Methods using Quantifiler^® Duo DNA Quantification Kit*

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Resources

About

Robin W. Cotton

Nucleosome dissociation at physiological ionic strengths

Isolation of Deoxyribonucleic Acid (DNA) from Saliva and Forensic Science Samples Containing Saliva

Analytical Thresholds and Sensitivity: Establishing RFU Thresholds for Forensic DNA Analysis,

Match likelihood ratio for uncertain genotypes

Development of a Human‐Specific Real‐Time PCR Assay for the Simultaneous Quantitation of Total Genomic and Male DNA*

Identification of Pneumocystis carinii chromosomes and mapping of five genes

Review: Properties of sperm and seminal fluid, informed by research on reproduction and contraception

Investigation of Reproducibility and Error Associated with qPCR Methods using Quantifiler® Duo DNA Quantification Kit*

Contact Info

Product

Resources

About

Development of a Human‐Specific Real‐Time PCR Assay for the Simultaneous Quantitation of Total Genomic and Male DNA^*

Investigation of Reproducibility and Error Associated with qPCR Methods using Quantifiler^® Duo DNA Quantification Kit*