genetics 101/clinical significance camp sunshine july 22, 2013 diamond blackfan anemia foundation...
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Genetics 101/Clinical Significance Camp Sunshine
July 22, 2013
Diamond Blackfan Anemia FoundationDiamond Blackfan Anemia Canada
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
HUMAN CHROMOSOMES
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
GENETICS 101
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Mendel’s tall pea plants and short pea plants make similar offspring: breed true
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Tall pea plants crossed to short pea plants make tall offspring
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Crossing the tall progeny of the original cross gives 3 tall plants to every 1 short plant.
Mendel’s conclusions: The tall trait masks the short trait, but the short trait is present in the parents.The tall and short traits segregate independently of each other.
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair. (Peas have 7 pairs).
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father. (Peas have 10s of thousands of genes too).
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Mendel’s tall pea plants and short pea plants breed true because they are homozygous (2 copies) for the tall or short trait.
T/T T/T
T/T T/T T/T T/T
t/t t/t
t/t t/t t/t t/t
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Tall pea plants crossed to short pea plants makes heterozygous offspring. The heterozygous offspring are tall because tall is a dominant trait.
T/T
T/t T/t T/t T/t
t/t
T/t T/t
GENETICS IN PEA PLANTS AND OTHER MODELS: YOU CAN MAKE THE MATINGS
YOU WANT!
Crossing the tall progeny of the original cross gives 3 tall plants to every 1 short plant ON AVERAGE.
T/TT/t T/t T/t T/t t/t
Plant 1- pollen
Plant 2 – egg
T
T
t
t
T/T T/t
T/t t/t
MENDEL’S CROSS: THEORY
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
Plant 1- pollen
Plant 2 – egg
T
T
t
t
T / T T / t
t / t
MENDEL’S CROSS: REALITY
T / t
PATTERNS OF INHERITANCE
Autosomal Dominant: Homozygous and Heterozygous individuals show the trait.
Autosomal Recessive: Only Homozygous individuals show the trait.
X-Linked: The trait is only seen in males.
Attached ears
INHERITANCE OF A HUMAN TRAIT
Attached ears
1. Non-attached ears does not breed true in this family
INHERITANCE OF A HUMAN TRAIT
Attached ears
1. Non-attached ears does not breed true in this family2. Attached ears does not breed true in this family
INHERITANCE OF A HUMAN TRAIT
Attached ears
INHERITANCE OF A HUMAN TRAIT
1. Non-attached ears does not breed true in this family2. Attached ears does not breed true in this family
3. Attached ears can be inherited from one parent
Attached ears
1. Non-attached ears does not breed true in this family2. Attached ears does not breed true in this family
3. Attached ears can be inherited from one parent4. A parent with attached ears can have non-attached children
INHERITANCE OF A HUMAN TRAIT
Is Attached ears inherited as a Dominant or Recessive trait?
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
Attached ears
a/a
a/a
a/aa/aa/a
a/a a/a
A/a
A/a
A/a
INHERITANCE OF A HUMAN TRAIT
Dominant!
a/a a/a
Willig T et al. Blood 1999;94:4294-4306
©1999 by American Society of Hematology
DBA IS MORE COMPLICATED: AUTOSOMAL DOMINANT WITH
INCOMPLETE PENETRANCE
MUTATIONS
Mutations are changes in the DNA that are inherited.
Deletion: complete loss of a segment of DNA containing multiple gene or part of a gene.
Point Mutation: A change in the DNA sequence the amino acid sequence of a protein.
Indel: The addition or loss of a base into a sequence that alters the amino acid sequence of a protein.
Genes make RNA which is translated into proteins.
RPS19RPL5RPL11RPS26RPS24RPL35aRPS10RPS17RPS7othersunknown
DIAMOND BLACKFAN ANEMIA MUTATIONS
RPS19: Draptchinskaia et al. Nat Genet. 1999. 21: 169-175.
RPS24: Gazda et al.. Am J Hum Genet. 2006. 79: 1110-1118.
RPS17: Cmejla et al. Hum Mutation 2007. 28: 1178-1182.
RPL35a: Farrar et al. Blood, 2008. 112: 1582-1592.
RPL11/RPL5: Gazda et al. Am J Hum Genet, 2008. 83: 769-780.
RPS10/26: Doherty et al. Am J Hum Genet, 2010. 86: 222-228.
Ribosome
28S rRNA
18S rRNA
Small Subunit40S
Large Subunit60S
WHY IS IT IMPORTANT TO IDENIFY THE MUTATIONS IN THE REMAINING DBA
PATIENTS?
Improve clinical opportunitiesStem cell transplant from matched sibling donor
WITHOUT the mutation – incomplete penetrance
Genotype/phenotype correlationsRemission ~15% of patientsSteroid responsiveness ~40% of patients
Willig T et al. Blood 1999;94:4294-4306
©1999 by American Society of Hematology
THE IMPORTANCE OF GENOTYPING
RPS19RPL5RPL11RPS26RPS24RPL35aRPS10RPS17RPS7othersunknown
DIAMOND BLACKFAN ANEMIA MUTATIONS
RPS19: Draptchinskaia et al. Nat Genet. 1999. 21: 169-175.
RPS24: Gazda et al.. Am J Hum Genet. 2006. 79: 1110-1118.
RPS17: Cmejla et al. Hum Mutation 2007. 28: 1178-1182.
RPL35a: Farrar et al. Blood, 2008. 112: 1582-1592.
RPL11/RPL5: Gazda et al. Am J Hum Genet, 2008. 83: 769-780.
RPS10/26: Doherty et al. Am J Hum Genet, 2010. 86: 222-228.
Hypothesis: Deletions and copy number variations cause DBA
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
HUMAN CHROMOSOMES
HUMAN CHROMOSOMES
SINGLE NUCLEOTIDE POLYMORPHISMS
• 99.9% of the bases are identical in all people – but that leaves 3 MILLION bases that can be different between any two people
• ~ 8 million validated human SNPs identified to date– Represent individual point mutations– 1 SNP per 500-1000 bp– Human genome may contain as many as
12 million SNPs– Over 200,000 SNPs may be present within genes
• Provides a means to identify individual parts of a genome
DETECTION TECHNOLOGY
DETECTION TECHNOLOGY
DECIPHERING THE DATA
RPS19 DELETIONS
High resolution SNP array genotyping
n=106
Deletions of known DBA genes
(14 + 2 new genes)
Variable, mosaic copy number loss of
3q (2), 13q, 15q (2), 19q
Mosaic copy loss of 5q33 (RPS14)
(2)
DBA COPY NUMBER VARIANT DETECTION
~10% of DBA patients have a deletion of a DBA gene
RPS19RPL5RPL11RPS26RPS24RPL35aRPS10RPS17RPS7other
deletions
unknown
North American DBA Registry
RPS19
RPL5
RPL11RPS26
RPS24
RPL35aRPS10
RPS17
RPS7
other
deletions
unknown
DIAMOND BLACKFAN ANEMIA MUTATIONS
~30-35% of patients do not have a molecular diagnosis
Hypothesis: Mutations in non-ribosomal genes cause DBA
SELECTION OF PATIENTS FOR SEQUENCING
Resequencing patients without
mutations
SNP array analysis for Copy Number Variants
New patients
(screened)
negative
negative
Family 1 Family 2 Family 3 Family 4
Informed consent for exome capture sequencing
North American DBA Registry
Minimum requirements:>50 x 106 100 bp reads
30X coverage; 85% of exome
Family 1: 112x106; 85X; 91.5% Family 2: 109x106; 79X; 91.2%Family 3: 108x106; 73X; 90.5%Family 4: 103x106; 82X; 90.8%
WHOLE EXOME SEQUENCING 1Enrich Sequence Biotinylated probes
29 x 106 bp (85% of coding sequence)
Select Exome with Streptavidin beads
Elute Exome for sequencingNIH Intramural Sequencing Center (NISC)
WHOLE EXOME SEQUENCING 2
ref. CATGGTGTCTGTTTGAGGTTGCTA 1 CATGGTGTCTGTTTGAGGTTGCTA 2 CATGGTGTCTGTTTGAGGATGCTA 3 CATGGTGTCTGTTTGAGGTTGCTA 4 CATGGTGTCTGTTTGAGGATGCTA 5 CATGGTGTCTGTTTGAGGATGCTA 6 CATGGTGTCTGTTTGAGGATGCTA 7 CATGGTGTCTGTTTGAGGTTGCTA 8 CATGGTGTCTGTTTGAGGTTGCTA 9 CATGGTGTCTGTTTGAGGATGCTA … n CATGGTGTCTGTTTGAGGTTGCTAMPG: CATGGTGTCTGTTTGAGGTTGCTA A
8-10,000 variants/patient
AlignFilter
Variants in 1000 Genomes
Variants in ClinSeq
<100 variantsper patient
NIH Intramural Sequencing Center (NISC)
THE FUNDAMENTALS• Humans have 46 chromosomes in each cell: 23 pairs.
Sperm and egg cells have 23 chromosomes, 1 of each pair.
• Genes are segments of DNA that tell your body what proteins to make. There are over 40,000 genes in a human cell: 20,000 on the chromosomes from your mother and a matching set of 20,000 on the chromosomes from your father.
• Changes in the sequence of the DNA in a gene can alter the function of the protein, causing disease.
WHOLE EXOME SEQUENCING 3
VarSifter Analysis of inheritance
CDPred score(severity)
Erythroidexpression
Genefunction
De novo
X-linked
Aut. Dom.
Aut. Rec.
~5 candidate mutations/family
Prioritize
Functional Validation
Frequency Validation
KNOCKDOWN OF RPL15 AND RPL31 INHIBITS RED CELL PRODUCTION IN VITRO
∂
Luc shRNA
RPL15 shRNA
∂RPL31 shRNA
∂
∂
CD
41
CD235
RPL15RPL31
Rel
ativ
e m
RN
A L
evel
Luc L15 L31 shRNA
FINAL THOUGHTS
Thanks to all of you who took the time and made the effort to be here. You are providing the most valuable
contributions of all: Hope, Support and a Sense of Community.
No DBA patient or family could feel alone in the presence of people like you.
Any researcher would feel inspired by all of you.
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