Presentation is loading. Please wait.

Presentation is loading. Please wait.

DNA Extraction and Analysis: and 1.2.3

Published byCharleen Page Modified over 5 years ago

Similar presentations

Presentation on theme: "DNA Extraction and Analysis: and 1.2.3"— Presentation transcript:

1 DNA Extraction and Analysis: 1.2.2 and 1.2.3
By Emily

2 What is DNA? DNA’s purpose is to store information.
DNA stands for deoxyribonucleic acid It’s made of subunits of nucleotides. It includes: A nitrogenous base Adenine Cytosine Guanine Thymine A sugar And a phosphate DNA’s purpose is to store information.

3 What does DNA look like? DNA is a double-helix, so it looks like a twisted ladder

4 Where is DNA? DNA is stored in the nucleus of cells
It’s highly twisted and coiled into chromosomes A healthy human has 23 chromosomes There’s approximately 2 meters of DNA per cell

5 Why Do You Need to Collect DNA?
DNA stores information. It’s why you look like you do. Each person’s DNA is unique, so they can use it to identify people and… Use for analysis of forensic evidence Genetic testing Body Identification

6 Steps of Collecting DNA
You have to go through multiple steps to get the DNA from a cell. It must first be purified of proteins and contaminants Collect cells Open cells to get DNA Separate the DNA from proteins and debris Isolate DNA

7 Collecting DNA Add lysis solution(This solution contains detergent which breaks down the cells membrane and nuclear envelope and a enzyme which cuts apart proteins called histones that DNA wraps around.) to where the sample is Place the tube with the sample and lysis solution in warm water. Add a salt solution. This causes the proteins and contaminants to clump together. Put the tube into a centrifuge. The proteins and contaminants will sink to the bottom while DNA is still dispersed through the liquid. Remove the liquid and put it into a new tube. Add isopropyl alcohol to the tube and shake gently. The DNA should clump. And you’ll be able to see it.

8 Analyzing DNA To look at someone’s DNA profile, you need to look at a their Restriction Fragment Length Polymorphisms(or RLFPs). RLFPs are created when an enzyme cuts a specific DNA location. These enzymes are called restriction enzymes. (Example: Haell cuts between base pairs GG|CC.) Different length RLFPs travel through an agarose gel at different speeds in a process known as gel electrophoresis. It creates the pattern known as a DNA fingerprint or profile. Large amounts of DNA are required for analyzing DNA so they use a process called Polymerase Chain Reaction(PCR) to make millions of copies.

9 Gel Electrophoresis Small RFLPs move faster through a gel than lager RFLPs. DNA has a negative charge, so you can get the DNA to move by applying an electric current into the gel. The DNA will move to the positive end. You can stain the gel to see the groups of DNA with the naked eye.

10 Online Labs DNA extraction- Gel Electrophoresis-

Download ppt "DNA Extraction and Analysis: and 1.2.3"

Similar presentations

Explain how crime scene evidence is

Explain how crime scene evidence is
DNA Analysis Lesson 1.2 PBS.

DNA Analysis Lesson 1.2 PBS.
1.Medical Purposes 2.Reviving endangered species and extinct species 3.Reproducing a deceased pet 4.Cloning humans?????

1.Medical Purposes 2.Reviving endangered species and extinct species 3.Reproducing a deceased pet 4.Cloning humans?????
A modern tool for genetics testing, forensic science, and research.

A modern tool for genetics testing, forensic science, and research.
1 Chapter 7 Chapter 7 DNA Fingerprinting Learning Goals: o Explain how crime scene evidence is collected and processed to obtain DNA o Describe how radioactive.

1 Chapter 7 Chapter 7 DNA Fingerprinting Learning Goals: o Explain how crime scene evidence is collected and processed to obtain DNA o Describe how radioactive.
Dna It’s an individual sort of thing. What does DNA mean? D- deoxyribo N- nucleic A- acid Deoxyribonucleic Acid.

Dna It’s an individual sort of thing. What does DNA mean? D- deoxyribo N- nucleic A- acid Deoxyribonucleic Acid.
Structure and Function

Structure and Function
DNA Chapter 12.1/12.2.

DNA Chapter 12.1/12.2.
What is DNA? DNA is a molecule that contains ALL of an organism’s genetic material and is therefore responsible for HEREDITY A strand of DNA contains many.

What is DNA? DNA is a molecule that contains ALL of an organism’s genetic material and is therefore responsible for HEREDITY A strand of DNA contains many.
DNA FINGERPRINTING.

DNA FINGERPRINTING.
By Diane Thajeb, Nicky Fernandez, and Stephanie Harris.

By Diane Thajeb, Nicky Fernandez, and Stephanie Harris.
Strawberry DNA Extraction. DNA: Basics Deoxyribonucleic acid Genetic material ◦ Chain of molecules linked together ◦ DNA contains instructions for traits.

Strawberry DNA Extraction. DNA: Basics Deoxyribonucleic acid Genetic material ◦ Chain of molecules linked together ◦ DNA contains instructions for traits.
Revision 1 Molecules of life. Comparing cell structure.

Revision 1 Molecules of life. Comparing cell structure.
Structure of DNA Notes 12/17. The Double Helix Made up of units called nucleotides, which have three parts.

Structure of DNA Notes 12/17. The Double Helix Made up of units called nucleotides, which have three parts.
Forensic Science DNA Analysis 1. History of Biological Evidence in Forensics  DNA fingerprinting  Also known as DNA profiling  Used with a high degree.

Forensic Science DNA Analysis 1. History of Biological Evidence in Forensics  DNA fingerprinting  Also known as DNA profiling  Used with a high degree.
History Evidence BIOLOGICAL EVIDENCE EXAMINED FOR INHERITED TRAITS TECHNIQUES EMERGED FROM HEALTHCARE DNA FINGERPRINTING DEVELOPED IN 1984.

History Evidence BIOLOGICAL EVIDENCE EXAMINED FOR INHERITED TRAITS TECHNIQUES EMERGED FROM HEALTHCARE DNA FINGERPRINTING DEVELOPED IN 1984.
CYSTIC FIBROSIS ALBINISM HEMOPHILIA DWARFISM WHAT DO THEY HAVE IN COMMON? THEY ARE GENETIC DISEASES (DISORDERS) https://commons.wikimedia.org.

CYSTIC FIBROSIS ALBINISM HEMOPHILIA DWARFISM WHAT DO THEY HAVE IN COMMON? THEY ARE GENETIC DISEASES (DISORDERS)
DNA Deoxyribonucleic Acid. DNA Review Genetic material (DNA) is found in the nucleus of cells, and is contained on chromosomes. An organism inherits chromosomes.

DNA Deoxyribonucleic Acid. DNA Review Genetic material (DNA) is found in the nucleus of cells, and is contained on chromosomes. An organism inherits chromosomes.
DNA Forensics 352 – O’Dette. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body.

DNA Forensics 352 – O’Dette. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body.
DNA Fingerprinting Review. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body is.

DNA Fingerprinting Review. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body is.

Similar presentations

Ads by Google