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Power of MBT.ppt

Molecular biological techniques utilize DNA, RNA, and enzymes that interact with nucleic acids to understand biology at a molecular level. Molecular pathology applies these techniques to detect and predict disease states by examining things like inherited diseases, infectious diseases, cancers, and genetic variations. Key techniques discussed include DNA hybridization, restriction enzymes, polymerase chain reaction, and analyzing single nucleotide polymorphisms.

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The Power of Molecular Biological Techniques Mark E. Sobel, MD, PhD Executive Officer American Society for Investigative Pathology mesobel@asip.org www.asip.org
Overview I. Introduction to Molecular Pathology II. DNA, Restriction Enzymes, Hybridization, PCR III. Introduction to the Genome IV. Applications to Molecular Medicine: SNPs and Chips
TEST YOUR SCIENCE LITERACY Adapted from Dave Barry, Miami Herald Explain in your own words, what is DNA? 1. DNA is deoxyribonucleicantidisestablishmentarianism, a complex string of syllables found inside your body in tiny genes called chromosomes. 2. The information in your DNA determines your unique biological characteristics, such as eye color, Social Security number, and age. There is surprisingly little difference between DNA in humans, Democrats, and Republicans.
Highly Sensitive and Specific by “Orders of Magnitude” from Powers of Ten, by Charles and Ray Eames
BIOLOGY: THE STUDY OF LIFE 1. WHOLE ORGANISMS 2. ORGANS 3. TISSUES 4. CELLS 5. INTRACELLULAR ORGANELLES 6. CHEMICAL COMPONENTS
CHEMICAL COMPONENTS OF LIFE 1. PROTEINS 2. LIPIDS 3. NUCLEIC ACIDS: • DNA • RNA
MOLECULAR BIOLOGY TECHNIQUES Molecular biology techniques utilize DNA, RNA, and enzymes that interact with nucleic acids to understand biology at a molecular level.
MOLECULAR PATHOLOGY Molecular Pathology is a subspecialty of pathology that utilizes molecular biology techniques to: •Detect normal and disease states (diagnosis) •Predict disease progression (prognosis)
SUBSPECIALTIES OF MOLECULAR PATHOLOGY •INHERITED DISEASES (GENETICS) – Cystic fibrosis – Sickle cell anemia – Predispositions to cancer •INFECTIOUS DISEASES – Bacteria – Viruses – Fungi
SUBSPECIALTIES OF MOLECULAR PATHOLOGY •HEMATOPATHOLOGY – Leukemias – Lymphomas •SOLID TUMORS – Breast cancer – Colon cancer – Brain cancer
SUBSPECIALTIES OF MOLECULAR PATHOLOGY •FORENSICS •IDENTITY TESTING – HLA – parentage
NUCLEIC ACIDS • Genetic material of all known organisms • DNA: deoxyribonucleic acid • RNA: ribonucleic acid (e.g., some viruses) • Consist of chemically linked sequences of nucleotides • Nitrogenous base • Pentose- 5-carbon sugar (ribose or deoxyribose) • Phosphate group • The sequence of bases provides the genetic information
Bases • Two types of bases • Purines are fused five- and six-membered rings • Adenine A DNA RNA • Guanine G DNA RNA • Pyrimidines are six-membered rings • Cytosine C DNA RNA • Thymine T DNA • Uracil U RNA
Base-pairing • Hydrogen bonds are relatively weak bonds compared to covalent bonds • Hydrogen bonds can form between a pyrimidine and a purine • Watson-Crick base-pairing rules • A T • G C
Hydrogen Bonds H H H H O O H C C C C N N C Thymine H N H H N C C C C N N H N C Adenine H O N H C C C N N C Cytosine H H H N C C C C N N H N C Guanine N H O H
DNA: Helix 5’ 5’ 3’ 3’ In general, DNA is double-stranded. Double-stranded (ds) DNA takes the form of a right handed helix with approximately 10 base pairs per turn of the helix.
Complementarity • In the DNA double helix, purines and pyrimidines face each other • The two polynucleotide chains in the double helix are connected by hydrogen bonds between the bases • Watson-Crick base-pairing rules • A T • G C • GC base pairs (bps)have more energy than AT bps • Since one strand of DNA is complementary to the other, genetic material can be accurately reproduced; each strand serves as the template for the synthesis of the other
Antiparallel Chains 5’p OH3’ 3’OH p5’ Two strands of the DNA double helix are antiparallel and complementary to each other
Gene promoter Structural gene flank flank upstream downstream 5’ 3’ •A gene is a unit of inheritance •Carries the information for a: -polypeptide -structural RNA molecule
Nucleases Endonuclease 5’ Exonuclease 3’ Exonuclease
Restriction enzymes • Specific endonucleases • Recognize specific short sequences of DNA and cleave the DNA at or near the recognition sequence • Recognition sequences: usually 4 or 6 bases but there are some that are 5, 8, or longer • Recognition sequences are palindromes • Palindrome: sequence of DNA that is the same when one strand is read from left to right or the other strand is read from right to left– consists of adjacent inverted repeats
Restriction enzymes (cont’d) • Example of a palindrome: GAATTC CTTAAG • Restriction enzymes are isolated from bacteria • Derive names from the bacteria • Genus- first letter capitalized • Species- second and third letters (small case) • Additional letters from “strains” • Roman numeral designates different enzymes from the same bacterial strain, in numerical order of discovery • Example: EcoRI – E Escherichia – Co coli – R R strain – I first enzyme discovered from Escherichia coli R
Hybridization • Nucleic acid hybridization is the formation of a duplex between two complementary sequences • Intermolecular hybridization: between two polynucleotide chains which have complementary bases – DNA-DNA – DNA-RNA – RNA-RNA • Annealing is another term used to describe the hybridization of two complementary molecules
Double- stranded DNA Denaturation Single- stranded DNA Initial Base pairing Denaturation - Renaturation Renatured DNA Renaturation
Probes • Probe is a nucleic acid that – can be labeled with a marker which allows identification and quantitation – will hybridize to another nucleic acid on the basis of base complementarity • Types of labels – Radioactive (32P, 35S, 14C, 3H) – Fluorescent • FISH: fluorescent in situ hybridization – chromosomes – Biotinylated (avidin-streptavidin)
Solid Support Hybridization • Solid support hybridization: DNA or RNA is immobilized on an inert support so that self- annealing is prevented • Bound sequences are available for hybridization with an added nucleic acid (probe). • Filter hybridization is the most common application: – Southern Blots – Dot/Slot Blots – Northern Blots • In-silica hybridization (glass slides) – in situ hybridization (tissue) – Chromosomal (FISH) – Microarrays
Southern Blots • Southern blotting is a procedure for transferring denatured DNA from an agarose gel to a solid support filter where it can be hybridized with a complementary nucleic acid probe • The DNA is separated by size so that specific fragments can be identified • Procedure: – Restriction digest to make different sized fragments – Agarose gel electrophoresis to separate by size – Since only single strands bind to the filter, the DNA must be denatured. – Denaturation to permit binding to the filter (NaOH) – Transfer to filter paper (capillary flow) – Hybridization to probe – Visualization of probe
Southern Blot Restriction enzyme DNA of various sizes Electrophorese on agarose gel gel Denature - transfer to filter paper. blot
Hybridize to probe Visualize Denature- transfer to filter paper. blot
Southern Blot
Dot/Slot Blots • DNA or RNA is bound directly to a solid support filter • No size separation • Ideal for multiple samples and quantitative measurements • Important to establish specificity of conditions
Slot Blot
A Focus of Development: Automation User-Friendly, Faster, and Cost-Effective This electronic microarray is an example of "Lab-on-a-Chip" technology. It is an electrophoresis device that produces results up to 1000 times faster than conventional techniques while using much less sample.
High Resolution Banding and FISH Control Signals Region-Specific Signal The chromosome banding technique performed 20 years ago missed the small deletion. High resolution banding developed more recently can elucidate the abnormality. Fluorescence in situ Hybridization (FISH) is a powerful technique in that it can reveal submicroscopic abnormalities even in non-dividing cells.
Polymerase chain reaction • PCR is the in vitro enzymatic synthesis and amplification of specific DNA sequences • Can amplify one molecule of DNA into billions of copies in a few hours
Applications of PCR • Detection of chromosomal translocations – Amplification across a translocation sequence • Chromosome painting • Detection of residual disease • Infectious disease • Forensics • HLA typing • Detection of Loss of Suppressor Genes – Loss of Heterozygosity (LOH)
Genome Literacy • Genome: The entire DNA of an organism – Humans • diploid (chromosome pairs) • 6 x 109 bp per diploid genome • Haploid genome is one set of chromosomes • Chromosome: structure found within a cell nucleus consisting of a continuous length of ds DNA – Humans • 22 pairs of autosomal chromosomes • 2 sex chromosomes
Human Genome Project • 40,000 genes • Speaking a language of molecular fingerprints • Gene expression is another language of complexity
Genome Mapping Terms • Locus: a position on a chromosome • Allele: alternate form of DNA at a specific locus on the chromosome – Each individual inherits two copies of DNA • Maternal • Paternal – Homozygous alleles: the two copies are identical – Heterozygous alleles: the two copies are different
Restriction fragment length polymorphism • RFLP is a polymorphic allele identified by the presence or absence of a specific restriction endonuclease recognition site: – GAATTC versus GATTTC • RFLP is usually identified by digestion of genomic DNA with specific restriction enzymes followed by Southern blotting • Regions of DNA with polymorphisms: – Introns – Flanking sequences – Exons
Genetic Variation • Most genes have small sequence differences between individuals – Occur every 1350 bp on average • Some of these polymorphisms may affect: – How well the protein works – How the protein interacts with another protein or substrate • The different gene forms containing polymorphisms are called alleles
Mutation detection • Sequence DNA • Hybridization Methods – Blotting – Chips • Restriction enzyme polymorphisms: – GAATTC versus GATTTC • SNPs (single nucleotide polymorphisms)
SNPs • Single nucleotide polymorphisms • Distinction from mutations
ASO Allele Specific Oligonucleotides ATGTGGCCATGTGGC ATGCGGCCATGTGGC ASOs can be used to detect SNPs (single nucleotide polymorphisms)
More About SNPs • SNPs in exons are called coding SNPs • SNPs in introns or regulatory regions may affect transcription, translation, RNA stability, RNA splicing
Pharmacogenomics • Cytochrome P450 • Uptake and metabolsim of drugs • Seizure disorders • Psychiatric disorders • Cancer therapy
Resources • www.amptestdirectory.org is an online directory of laboratories that perform molecular techniques. • www.genetests.org has an illustrated glossary and good explanations of genetic testing. • http://www.ornl.gov/sci/techresources/Human_Genome/edu cation/images.shtml has links to many educational resources and images. • http://www.dnalc.org/resources/resources.html has an animated DNA primer targeted at the level of a “bright teenager.” It is a part of the website of the Dolan DNA Learning Center of Cold Spring Harbor Laboratory.
aRA r = 0.91 log 10 (ratio), T3-3 Microarrays FISH Laser microscope genome Tissue arrays

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Power of MBT.ppt

  • 1.
    The Power ofMolecular Biological Techniques Mark E. Sobel, MD, PhD Executive Officer American Society for Investigative Pathology [email protected] www.asip.org
  • 2.
    Overview I. Introduction toMolecular Pathology II. DNA, Restriction Enzymes, Hybridization, PCR III. Introduction to the Genome IV. Applications to Molecular Medicine: SNPs and Chips
  • 3.
    TEST YOUR SCIENCELITERACY Adapted from Dave Barry, Miami Herald Explain in your own words, what is DNA? 1. DNA is deoxyribonucleicantidisestablishmentarianism, a complex string of syllables found inside your body in tiny genes called chromosomes. 2. The information in your DNA determines your unique biological characteristics, such as eye color, Social Security number, and age. There is surprisingly little difference between DNA in humans, Democrats, and Republicans.
  • 4.
    Highly Sensitive andSpecific by “Orders of Magnitude” from Powers of Ten, by Charles and Ray Eames
  • 5.
    BIOLOGY: THE STUDYOF LIFE 1. WHOLE ORGANISMS 2. ORGANS 3. TISSUES 4. CELLS 5. INTRACELLULAR ORGANELLES 6. CHEMICAL COMPONENTS
  • 6.
    CHEMICAL COMPONENTS OFLIFE 1. PROTEINS 2. LIPIDS 3. NUCLEIC ACIDS: • DNA • RNA
  • 7.
    MOLECULAR BIOLOGY TECHNIQUES Molecularbiology techniques utilize DNA, RNA, and enzymes that interact with nucleic acids to understand biology at a molecular level.
  • 8.
    MOLECULAR PATHOLOGY Molecular Pathologyis a subspecialty of pathology that utilizes molecular biology techniques to: •Detect normal and disease states (diagnosis) •Predict disease progression (prognosis)
  • 9.
    SUBSPECIALTIES OF MOLECULAR PATHOLOGY •INHERITEDDISEASES (GENETICS) – Cystic fibrosis – Sickle cell anemia – Predispositions to cancer •INFECTIOUS DISEASES – Bacteria – Viruses – Fungi
  • 10.
    SUBSPECIALTIES OF MOLECULAR PATHOLOGY •HEMATOPATHOLOGY –Leukemias – Lymphomas •SOLID TUMORS – Breast cancer – Colon cancer – Brain cancer
  • 11.
  • 12.
    NUCLEIC ACIDS • Geneticmaterial of all known organisms • DNA: deoxyribonucleic acid • RNA: ribonucleic acid (e.g., some viruses) • Consist of chemically linked sequences of nucleotides • Nitrogenous base • Pentose- 5-carbon sugar (ribose or deoxyribose) • Phosphate group • The sequence of bases provides the genetic information
  • 13.
    Bases • Two typesof bases • Purines are fused five- and six-membered rings • Adenine A DNA RNA • Guanine G DNA RNA • Pyrimidines are six-membered rings • Cytosine C DNA RNA • Thymine T DNA • Uracil U RNA
  • 14.
    Base-pairing • Hydrogen bondsare relatively weak bonds compared to covalent bonds • Hydrogen bonds can form between a pyrimidine and a purine • Watson-Crick base-pairing rules • A T • G C
  • 15.
    Hydrogen Bonds H H H H O O H C C CC N N C Thymine H N H H N C C C C N N H N C Adenine H O N H C C C N N C Cytosine H H H N C C C C N N H N C Guanine N H O H
  • 16.
    DNA: Helix 5’ 5’ 3’ 3’ Ingeneral, DNA is double-stranded. Double-stranded (ds) DNA takes the form of a right handed helix with approximately 10 base pairs per turn of the helix.
  • 17.
    Complementarity • In theDNA double helix, purines and pyrimidines face each other • The two polynucleotide chains in the double helix are connected by hydrogen bonds between the bases • Watson-Crick base-pairing rules • A T • G C • GC base pairs (bps)have more energy than AT bps • Since one strand of DNA is complementary to the other, genetic material can be accurately reproduced; each strand serves as the template for the synthesis of the other
  • 18.
    Antiparallel Chains 5’p OH3’ 3’OHp5’ Two strands of the DNA double helix are antiparallel and complementary to each other
  • 19.
    Gene promoter Structural gene flankflank upstream downstream 5’ 3’ •A gene is a unit of inheritance •Carries the information for a: -polypeptide -structural RNA molecule
  • 20.
  • 21.
    Restriction enzymes • Specificendonucleases • Recognize specific short sequences of DNA and cleave the DNA at or near the recognition sequence • Recognition sequences: usually 4 or 6 bases but there are some that are 5, 8, or longer • Recognition sequences are palindromes • Palindrome: sequence of DNA that is the same when one strand is read from left to right or the other strand is read from right to left– consists of adjacent inverted repeats
  • 22.
    Restriction enzymes (cont’d) •Example of a palindrome: GAATTC CTTAAG • Restriction enzymes are isolated from bacteria • Derive names from the bacteria • Genus- first letter capitalized • Species- second and third letters (small case) • Additional letters from “strains” • Roman numeral designates different enzymes from the same bacterial strain, in numerical order of discovery • Example: EcoRI – E Escherichia – Co coli – R R strain – I first enzyme discovered from Escherichia coli R
  • 23.
    Hybridization • Nucleic acidhybridization is the formation of a duplex between two complementary sequences • Intermolecular hybridization: between two polynucleotide chains which have complementary bases – DNA-DNA – DNA-RNA – RNA-RNA • Annealing is another term used to describe the hybridization of two complementary molecules
  • 24.
  • 25.
    Probes • Probe isa nucleic acid that – can be labeled with a marker which allows identification and quantitation – will hybridize to another nucleic acid on the basis of base complementarity • Types of labels – Radioactive (32P, 35S, 14C, 3H) – Fluorescent • FISH: fluorescent in situ hybridization – chromosomes – Biotinylated (avidin-streptavidin)
  • 26.
    Solid Support Hybridization •Solid support hybridization: DNA or RNA is immobilized on an inert support so that self- annealing is prevented • Bound sequences are available for hybridization with an added nucleic acid (probe). • Filter hybridization is the most common application: – Southern Blots – Dot/Slot Blots – Northern Blots • In-silica hybridization (glass slides) – in situ hybridization (tissue) – Chromosomal (FISH) – Microarrays
  • 27.
    Southern Blots • Southernblotting is a procedure for transferring denatured DNA from an agarose gel to a solid support filter where it can be hybridized with a complementary nucleic acid probe • The DNA is separated by size so that specific fragments can be identified • Procedure: – Restriction digest to make different sized fragments – Agarose gel electrophoresis to separate by size – Since only single strands bind to the filter, the DNA must be denatured. – Denaturation to permit binding to the filter (NaOH) – Transfer to filter paper (capillary flow) – Hybridization to probe – Visualization of probe
  • 28.
    Southern Blot Restriction enzyme DNAof various sizes Electrophorese on agarose gel gel Denature - transfer to filter paper. blot
  • 29.
    Hybridize to probe Visualize Denature-transfer to filter paper. blot
  • 30.
  • 31.
    Dot/Slot Blots • DNAor RNA is bound directly to a solid support filter • No size separation • Ideal for multiple samples and quantitative measurements • Important to establish specificity of conditions
  • 32.
  • 33.
    A Focus ofDevelopment: Automation User-Friendly, Faster, and Cost-Effective This electronic microarray is an example of "Lab-on-a-Chip" technology. It is an electrophoresis device that produces results up to 1000 times faster than conventional techniques while using much less sample.
  • 34.
    High Resolution Bandingand FISH Control Signals Region-Specific Signal The chromosome banding technique performed 20 years ago missed the small deletion. High resolution banding developed more recently can elucidate the abnormality. Fluorescence in situ Hybridization (FISH) is a powerful technique in that it can reveal submicroscopic abnormalities even in non-dividing cells.
  • 35.
    Polymerase chain reaction •PCR is the in vitro enzymatic synthesis and amplification of specific DNA sequences • Can amplify one molecule of DNA into billions of copies in a few hours
  • 36.
    Applications of PCR •Detection of chromosomal translocations – Amplification across a translocation sequence • Chromosome painting • Detection of residual disease • Infectious disease • Forensics • HLA typing • Detection of Loss of Suppressor Genes – Loss of Heterozygosity (LOH)
  • 37.
    Genome Literacy • Genome:The entire DNA of an organism – Humans • diploid (chromosome pairs) • 6 x 109 bp per diploid genome • Haploid genome is one set of chromosomes • Chromosome: structure found within a cell nucleus consisting of a continuous length of ds DNA – Humans • 22 pairs of autosomal chromosomes • 2 sex chromosomes
  • 38.
    Human Genome Project •40,000 genes • Speaking a language of molecular fingerprints • Gene expression is another language of complexity
  • 39.
    Genome Mapping Terms •Locus: a position on a chromosome • Allele: alternate form of DNA at a specific locus on the chromosome – Each individual inherits two copies of DNA • Maternal • Paternal – Homozygous alleles: the two copies are identical – Heterozygous alleles: the two copies are different
  • 40.
    Restriction fragment lengthpolymorphism • RFLP is a polymorphic allele identified by the presence or absence of a specific restriction endonuclease recognition site: – GAATTC versus GATTTC • RFLP is usually identified by digestion of genomic DNA with specific restriction enzymes followed by Southern blotting • Regions of DNA with polymorphisms: – Introns – Flanking sequences – Exons
  • 41.
    Genetic Variation • Mostgenes have small sequence differences between individuals – Occur every 1350 bp on average • Some of these polymorphisms may affect: – How well the protein works – How the protein interacts with another protein or substrate • The different gene forms containing polymorphisms are called alleles
  • 42.
    Mutation detection • SequenceDNA • Hybridization Methods – Blotting – Chips • Restriction enzyme polymorphisms: – GAATTC versus GATTTC • SNPs (single nucleotide polymorphisms)
  • 43.
    SNPs • Single nucleotidepolymorphisms • Distinction from mutations
  • 44.
    ASO Allele Specific Oligonucleotides ATGTGGCCATGTGGC ATGCGGCCATGTGGC ASOscan be used to detect SNPs (single nucleotide polymorphisms)
  • 45.
    More About SNPs •SNPs in exons are called coding SNPs • SNPs in introns or regulatory regions may affect transcription, translation, RNA stability, RNA splicing
  • 46.
    Pharmacogenomics • Cytochrome P450 •Uptake and metabolsim of drugs • Seizure disorders • Psychiatric disorders • Cancer therapy
  • 47.
    Resources • www.amptestdirectory.org isan online directory of laboratories that perform molecular techniques. • www.genetests.org has an illustrated glossary and good explanations of genetic testing. • http://www.ornl.gov/sci/techresources/Human_Genome/edu cation/images.shtml has links to many educational resources and images. • http://www.dnalc.org/resources/resources.html has an animated DNA primer targeted at the level of a “bright teenager.” It is a part of the website of the Dolan DNA Learning Center of Cold Spring Harbor Laboratory.
  • 48.