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200 10$aForensic DNA biology$b[electronic resource] $ea laboratory manual /$fKelly M. Elkins
210   $aOxford $cElsevier$d2012, c2013
215   $a1 online resource (225 p.)
300   $aIncludes index.
311   $a0-12-394585-2 
327   $aFront Cover; Forensic DNA Biology: A Laboratory Manual; Copyright; Contents; Acknowledgements; About the Author; Welcome; Forensic DNA Biology: An Introduction; BIOLOGY OVERVIEW; RESTRICTION FRAGMENT LENGTH POLYMORPHISMS; POLYMERASE CHAIN REACTION; SHORT TANDEM REPEATS; SINGLE NUCLEOTIDE POLYMORPHISMS; MITOCHONDRIAL DNA; KNOWN VERSUS QUESTIONED SAMPLES; WHY STUDY FORENSIC DNA BIOLOGY?; Laboratory Safety; RULES FOR A SAFE LAB ENVIRONMENT; Reference; Avoiding Contamination Issues: Standard Laboratory Practices; Reference; Chapter 1 - Pipetting; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND
327   $aPROCEDUREQUESTIONS; GRAPHING THE DATA USING MICROSOFT EXCEL (2003); EQUATIONS; References; Chapter 2 - Serology; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 3 - Sampling Biological Evidence for DNA Extraction; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE: DNA COLLECTION AND PACKAGING; QUESTIONS; References; Chapter 4 - DNA Extraction; OBJECTIVE; SAFETY; MATERIALS; RECIPES FOR BUFFER AND SOLUTION PREPARATION; BACKGROUND; PROCEDURE; QUESTION; References; Chapter 5 - Determination of Quality and Quantity of DNA Using Agarose Gel Electrophoresis
327   $aOBJECTIVESAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; Reference; Chapter 6 - Determination of DNA Quality and Quantity Using UV-Vis Spectroscopy; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 7 - Determination of DNA Quantity by Fluorescence Spectroscopy; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 8 - Real-Time Polymerase Chain Reaction (PCR) Quantitation of DNA; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References
327   $aChapter 9 - Multiplex Polymerase Chain Reaction (PCR) Primer Design (in Silico)OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 10 - Testing Designed Polymerase Chain Reaction (PCR) Primers in Multiplex Reactions; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 11 - Multiplex Polymerase Chain Reaction (PCR) Amplification of Short Tandem Repeat (STR) Loci Using a Commercial Kit; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References
327   $aChapter 12 - Capillary Electrophoresis of Short Tandem Repeat (STR) Polymerase Chain Reaction (PCR) Products from a Commercial Multiplex KitOBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTION; References; Chapter 13 - Computing Random Match Probability from DNA Profile Data Using Population Databases; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References; Chapter 14 - Mitochondrial Deoxyribonucleic Acid (mtDNA) Single Nucleotide Polymorphism (SNP) Detection; OBJECTIVE; SAFETY; MATERIALS; BACKGROUND; PROCEDURE; QUESTIONS; References
327   $aChapter 15 - Analysis of Deoxyribonucleic Acid (DNA) Sequence Data Using BioEdit
330   $a DNA typing has revolutionized criminal investigations and has become a powerful tool in the identification of individuals in criminal and paternity cases. Forensic DNA Biology: A Laboratory Manual is comprised of up-to-date and practical experiments and step-by-step instructions on how to perform DNA analysis, including pipetting, microscopy and hair analysis, presumptive testing of body fluids and human DNA typing. Modern DNA typing techniques are provided, reflecting real life, where not all institutions and crime labs can afford the same equipment and software. Real case studies w
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606   $aDNA fingerprinting
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615  0$aForensic genetics$xTechnique.
615  0$aDNA fingerprinting.
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500   $aBibliography: p. 249-253
500   $aIncludes index
650  0$aAcceleration of convergence
650  0$aNumerical analysis
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650  0$aTransformations
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