Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Language of Life Basic Concepts in Human Genetics Jim Evans MD, Ph.D ASTAR Judges’ Science School Chapel Hill, NC 19 November 2012.

Published byStephany Chandler Modified over 7 years ago

Similar presentations

Presentation on theme: "The Language of Life Basic Concepts in Human Genetics Jim Evans MD, Ph.D ASTAR Judges’ Science School Chapel Hill, NC 19 November 2012."— Presentation transcript:

1 The Language of Life Basic Concepts in Human Genetics Jim Evans MD, Ph.D ASTAR Judges’ Science School Chapel Hill, NC 19 November 2012

2 “We have discovered the secret of life” February 28, 1953

3 All living things are composed of cells: Skin Brain Liver Blood etc……….

4 Cells are composed of tiny protein “machines”…. cytoplasm nucleus channels antibodies Structural components

5 Enzymes cut and glue chemicals to form other chemicals...

6 Proteins are long intricately folded chains….. Stylized Channel Antibody More Accurate

7 The Long Folded Chains that are proteins are composed of amino acids…. cys met gly tyr

8 The Order of Amino Acids Dictates How the Chain Will Fold, and Thus its Shape and Function There are 20 different amino acids used by living organisms Each has slightly different chemical characteristics The only difference between two proteins with radically different shapes (and thus functions) is the order of their amino acids With 20 amino acids there is a virtually infinite set of differing orders (and thus shapes) possible

9 The only difference between this membrane channel…. and this antibody…. is the order of amino acids which make up the protein chain

10 So, we can now rephrase our First Question….. How do we make specific proteins in order to carry out the tasks of life? (i.e. how do we build all the necessary tiny “machines”) Becomes… How do we direct the order of amino acids so as to make all the necessary proteins that are needed for a living organism?

11 DNA is the repository of information in the cell DNA It is by “reading” DNA that a cell makes the specific proteins necessary for life. Protein RNA

12 HOW does DNA direct (encode) the synthesis of specific proteins?... DNA directs (“encodes”) the order of each protein’s amino acids By virtue of the order of its own 4 building blocks, the nucleotides: “A”, “T”, “G”, and “C”

13 ASCO The DNA Double Helix Adenine (A) Thymine (T) Cytosine (C) Guanine (G) Bases Base pair Sugar phosphate backbone

14 First, the cell makes a copy of one of the DNA strands….. A T G C G T C A G This is the “messenger” RNA and acts as a “tape” that will direct the construction of an individual protein To make a protein...

15 “Adapter” molecules (called tRNAs) exist in the cell which bind to the messenger RNA and line-up the proper amino acids for construction of the protein chain VAL ARG HIS

16 One end of an "adapter” molecule in the cell recognizes and binds to a specific triplet in RNA….. VAL ARG HIS The other end of an “adapter” molecule binds to a specific amino acid (the building blocks of proteins)….. The Genetic Code is read in triplets...

17 A T G C G T C A G VAL ARG HIS Growing Protein Chain mRNA

18 Thus, DNA directs the production of Proteins The order of nucleotides (DNA’s basic building blocks) dictates the order of amino acids in protein chains The order of amino acids in a protein dictates how that protein chain will fold and therefore what its structure and function will be (i.e. the shape of the protein “machine”)

19 A Gene is simply a segment of DNA that directs the synthesis of one particular protein... Gene #1Gene #2Gene #3 Your “Genome” is simply all of your DNA – all the genes and all the in-between material

20 ASCO DNA is Packaged in the Cell’s Nucleus Cell Nucleus Chromosomes Gene Protein Adapted from Understanding Gene Testing, NIH, 1995

21 One Central Question Remains How does DNA manage to pass its information on to the next generation?

22 The answer lies in the structure of DNA …. The DNA Double Helix Adenine (A) Thymine (T) Cytosine (C) Guanine (G) ASCO Bases Base pair Sugar phosphate backbone

23 The Double Helix is held together by the binding of its bases... Guanine (G) Cytosine (C) Always binds to Adenine (A) Always binds to Thymine (T) AGCTATGC TCGATACG

24 Thus, if one strand of the DNA double helix is present, the other can be reconstructed precisely... AGCTATGC TCGATACG

25 Passing Along the Information By virtue of being a double helix, each DNA molecule contains a copy of itself To make a new cell (or a sperm or egg and thus the next generation), the cell separates the two strands of DNA and copies each, forming a new identical double helix One copy is sent to each “daughter” cell Thus, each new cell (or new generation) receives the exact same information necessary for propagation of life

26 A G C T A T G C T C G A T A C G T C G A T A C G A G C T A T G C A G C T A T G C T C G A T A C G AGCTATGC TCGATACG A G C T A T G C T C G A T A C G A G C T A T G C T C G A T A C G The double helix is unzipped Copies of each strand are made The cell divides and sends one copy of each double helix to each new cell

27 Predictive Genetic Testing The most important goal of Medicine is to heal However, another important function of medicine is to tell the future Patients are interested in their prognosis even when we have no treatments to offer Genetics is providing us with a better “crystal ball” –But our predictions remain cloudy and fraught with the potential for problems

28 The BRCA1 Gene Normally Encodes a Protein that Regulates Cell Growth Cell Nucleus Chromosomes BRCA1 Gene BRCA1 Protein which keeps cell growth in check

29 A Mutated BRCA1 Gene Produces a Faulty Protein Which Allows Cells to Grow too Quickly Cell Nucleus Chromosomes BRCA1 Gene A non-functional BRCA1 Protein which cannot keep cell growth in check Mutation An absent or non-functional BRCA1 protein which cannot keep cell growth in check

30 Cancer Risks for a woman who carries a mutation in BRCA1 Probable small increased risk of other cancers (eg, prostate in male carriers) Life time risk of breast cancer ~85% 10 year risk of a second breast cancer ~35%-70% Life time risk of ovarian cancer ~50%

31 Polymorphisms Common DNA sequence changes –Which typically do not destroy protein function but may alter it Functional but altered protein Functional protein Polymorphisms are common and contribute to common diseases Exist as both susceptibility factors and as protective factors

32 Polymorphisms underlie part of our susceptibility to common disease Risk of lung cancer is increased with smoking, but a significant majority of smokers avoid it. –polymorphisms in GST-1 Alcohol increases risk of cirrhosis, but a minority of alcoholics develop cirrhosis –polymorphisms in Epoxide Hydrolase Susceptibility and natural history of TB and HIV are influenced by genetic factors –polymorphisms in n-RAMP and CCR5 Outcome of head trauma is highly variable –apo E polymorphisms

Download ppt "The Language of Life Basic Concepts in Human Genetics Jim Evans MD, Ph.D ASTAR Judges’ Science School Chapel Hill, NC 19 November 2012."

Similar presentations

DNA DNA is often called the blueprint of life.

DNA DNA is often called the blueprint of life.
Chapter 10 Table of Contents Section 1 Discovery of DNA

Chapter 10 Table of Contents Section 1 Discovery of DNA
Chapter 10 Table of Contents Section 1 Discovery of DNA

Chapter 10 Table of Contents Section 1 Discovery of DNA
Chapter 12:DNA and RNA (Molecular Genetics).

Chapter 12:DNA and RNA (Molecular Genetics).
MOLECULAR GENETICS. DNA- deoxyribonucleic acid 1953- James Watson and Francis Crick discover the structure of the DNA molecule DNA is a double helix (twisted.

MOLECULAR GENETICS. DNA- deoxyribonucleic acid James Watson and Francis Crick discover the structure of the DNA molecule DNA is a double helix (twisted.
Introduction - DNA and DNA Extraction. Every gene has a promoter, a coding region, and a termination sequence. Genetic engineering is the directed addition.

Introduction - DNA and DNA Extraction. Every gene has a promoter, a coding region, and a termination sequence. Genetic engineering is the directed addition.
DNA as the genetic code.

DNA as the genetic code.
Protein synthesis and replication

Protein synthesis and replication
Ch4 Sec4 The DNA Connection. Key Concepts What forms the genetic code? How does a cell produce proteins? How can mutations affect an organism?

Ch4 Sec4 The DNA Connection. Key Concepts What forms the genetic code? How does a cell produce proteins? How can mutations affect an organism?
DNA Replication.

DNA Replication.
PROTEIN SYNTHESIS. DNA RNA Protein Scientists call this the: Central Dogma of Biology!

PROTEIN SYNTHESIS. DNA RNA Protein Scientists call this the: Central Dogma of Biology!
Biology 12 – the nucleus. Cell structures Is this eukaryotic? yes Why? nucleus Is this a plant or animal cell? animal Why? No cell wall or chloroplasts.

Biology 12 – the nucleus. Cell structures Is this eukaryotic? yes Why? nucleus Is this a plant or animal cell? animal Why? No cell wall or chloroplasts.
DNA, Chromosomes & Genes. GENOME The nucleus of a human cell contains between 30 000 and 40 000 genes. This complete set of genes is called the GENOME.

DNA, Chromosomes & Genes. GENOME The nucleus of a human cell contains between and genes. This complete set of genes is called the GENOME.
Chapter 3 The Biological Basis of Life. Chapter Outline  The Cell  DNA Structure  DNA Replication  Protein Synthesis  What is a Gene?  Cell Division:

Chapter 3 The Biological Basis of Life. Chapter Outline  The Cell  DNA Structure  DNA Replication  Protein Synthesis  What is a Gene?  Cell Division:
DNA’s Function. DNA DNA = deoxyribonucleic acid. DNA carries the genetic information in the cell – i.e. it carries the instructions for making all the.

DNA’s Function. DNA DNA = deoxyribonucleic acid. DNA carries the genetic information in the cell – i.e. it carries the instructions for making all the.
Cellular Metabolism Chapter 4. Introduction Metabolism is many chemical reactionss Metabolism breaks down nutrients and releases energy= catabolism Metabolism.

Cellular Metabolism Chapter 4. Introduction Metabolism is many chemical reactionss Metabolism breaks down nutrients and releases energy= catabolism Metabolism.
Chapter 5 Lesson 3 DNA and Genetics.

Chapter 5 Lesson 3 DNA and Genetics.
DNA.

DNA.
Watson and Crick Watson and Crick studied the work of others to determine the structure of DNA Figured that it is a “Double Helix”: –Twisted ladder.

Watson and Crick Watson and Crick studied the work of others to determine the structure of DNA Figured that it is a “Double Helix”: –Twisted ladder.
Chapter 11 DNA Within the structure of DNA is the information for life- the complete instructions for manufacturing all the proteins for an organism. DNA.

Chapter 11 DNA Within the structure of DNA is the information for life- the complete instructions for manufacturing all the proteins for an organism. DNA.

Similar presentations

Ads by Google