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2013Marek Vácha
The future of customize medicine is in your DNA; don´t wait until you are sick to learn why.
Dr. Mehmet Oz
DNA analysis
23andMe https://www.23andme.com/ Navigenics http://
www.navigenics.com/ deCODE http://www.decode.com/
DNA analysis
23andMe https://www.23andme.com/ $ 399 spitting into special test tube
Navigenics http://www.navigenics.com/ $ 2499 spitting into special test tube
deCODE http://www.decode.com/ $ 985 scraping cells from a cheek by a swab
Your DNA sequence, properly encrypted, will soon become a permanent part of your electronical medical record
Collins, F., (2010) The Language of Life. Profile Books LTD. London, GB.
For centuries, we considered ourselves to be healthy until symptoms of illness arose. Once diagnosed, correctly or not, we received standardized treatments. In accordance with this view, the human body was generally ignored untill something went wrong.
Collins, F., (2010) The Language of Life. Profile Books LTD. London, GB. p. 34
We do not have a health care system; we have a sick care system!
Collins, F., (2010) The Language of Life. Profile Books LTD. London, GB. p. 58
2013Marek Vácha
Convention for the protection of Human Rights and dignity of the human being with regard to the application of biology and medicine: Convention on Human Rights and Biomedicine. 1997
Chapter IV - Human genome
Article 11 - Non-discriminationAny form of discrimination against a person on grounds of his or her genetic heritage is prohibited.
Human Genome – Internal Universe
After many centuries of investigations we have built up an approximate understanding of at least the more accesible parts of our external Universe
...however, there is also a largely unexplored Universe within us about 1011 neurons and somewhere in the region of 1015
interconnections
Three Stage Approach
Whole-genom shotgun approachCelera Genomics
Public Consortium and Celera
Public Consortium x Celera GenomicsFrancis Collins Craig Venter
Genome Gallery
Galerie genomů
Genome Gallery
Human Genome Project
officialy beagan in 1990 the project involved 20 large sequencing
centers in six countries plus a host of other labs working on small projects
largely completed in 2003 the sequence of each chromosome was
carefully analyzed and described in series of papers, the last of which covered chromosome 1 and was published in 2006
Nuclear Genome and Mitochondrial Genome
Human Genome
Human Genome
Dna sequences that acode for proteins or give rise to tRNA or rRNA compose a mere 1,5 % of the guman genome there are 78 000 proteins in human body
If we include introns and regulatory sequences associated with genes, the total amount of DNA that is gene-related - coding and non-coding - constitutes about 25 % of the human genome
put another way, only about 6 % (1,5 % out of 25 %) of the lenght of the average gene is represented in the final gene product
Unique noncoding DNA pseudogenes gene fragments small noncoding RNA
the genes that produce small noncoding RNAs are a tiny percentage of the genome, distributed between the 20 % introns and the 15 % unique noncoding DNA
Dispersed repeats(Jobling, M.A., et al. (2004) Human Evolutionary Genetics. New York, Garland Science
Class Number of Copies in the Haploid
% of Genome
Lenght
LINEs 850 000 21% 6 000 – 8 000 pb
SINEs 1 500 000 13% 100 – 300 pb
Retrovirus-like elements
450 000 8% 6 000 – 11 000 pb
Copy DNA of Transpozons
300 000 3% 2 000 – 3 000 pb
Transposon movementcopy-and-paste
Retrotransposon movementcopy-and-paste
Transposable elements and related sequences make up 25% - 50 % of most mammalian genomes and even higher percentages in amphibians and many plants
the very large size of some plant genomes is accounted for not by extra genes, but by extra transposable elements sequences like these make up 85 % of the
corn genome!
Human Genome
nuclear genome 3200Mb
mitochondril genome
16,6 kb
euchromatin 2900-3000Mb
constitutive heterochromatine
200Mb
Human Genome
coding DNA 50 Mb (cca 1,5%)
regulatory sequences 100Mb (3%)
noncoding repetitive DNA
50%
number of genes cca 22 000
nuclear genome cca 22 000
mitochondrial genome
37 genes
Discrepancies between Chromosome Number and Sequence Lenght
Chromosome 21 is bigger than 22
Chromosomes 9,10,11 are also named in the wrong order
Dates of 2010
Fritillaria assyriaca 124 billion bp Polychaos dubia (single-celled amoeba)
670 billion bp
There is a wide range of genome sizes within the groups of protists, insects, aphibians, and plants
and less of a range within mammals and reptiles
Genomes of Bacteria and Archea
genomes are „compact“ genomes are correllated to metabolic diversity
Mycoplasma genitalium – lives inside of eucaryotic cells genome 580 000 bp., 517 genes
Streptomyces coelicolor – soil bactery with extremely complicated metabolical pathways genome 8,7 mil. bp., 7 846 genes
Genomes of Bacteria and Archea
large genetic diversity between species cca 15 % - 30 % of genes are unique to a
species! lateral gene transfer
Thermatoga maritima – lives in hot springs up to 80 Celsia with many Archea up to 25 % of its genes closely related to genes of
Archea ! transferes are realized by viruses, plasmids and
transpozons
Genomes of Eucarya
genes are generally orders of magnitude larger
exons are only few percent of the genome majority of the genome are „repeated
sequences“
Year 2001
approximately 50 organisms entirely or nearly entirely sequenced 10 archea E.coli Saccharomyces cerevisiae C. elegans Arabidopsis thaliana
Year 2010
1 200 genomes entirely sequenced 1 000 of bacteria 80 archeal genomes 124 eucaryotic species
1980: one lab 1000bp a day 2000: one lab 1000bp per second, 24 hours
a day, seven days a week
first human genome: 13 years and cost $ 100 million
James Watson´s genome: four months (2007) for about $ 1 million
2010: 3 humans, each $ 4 400 2011: one day, $ 1000, cca 1000 persons
2011
all exons: $ 600
Craig Venter´s Genome
3 millions SNPs 14 779 changes in protein coding regions
(SNPs) 20% never seen before
2020 change in protein sequence (nonsynonymous aminoacid substitutions) 12% predicted to disrupt function of proteins 11% in disease-causing genes
There is no "The Human Genome" platonic´s idea of the ideal human genome
probably does not agree with reality
another marks should be invented for deletions and inzertions
2010: Homo Neanderthalensishttp://news.bbc.co.uk/2/hi/science/nature/8660940.stm
Between 1% and 4% of the Eurasian human genome seems to come from Neanderthals.
Svante Paabo (pictured here with a Neanderthal skull) led the research effort
Sekvenování genomu neandertálce
2010: Homo Neanderthalensishttp://www.eva.mpg.de/neandertal/index.html
The Neandertal Genome Project
Number of Genes
Mycoplasma genitalium – 480 genes probably 265 – 350 genes only are really
irreplaceable
Number of Chromosomes
Myrmecia pilosula 1 pair of chromosomes fern Ophioglossum reticulatum 630 pairs
of chromosomes
Genomics: biology is about informations!
What does it mean to be a human? Why we act as we act?
Nature (Genes)Nurture (Environment) Developmental Noise
Freedom Philosophy
}} Science
James Watson
” We used to think that our fate was in our stars. Now we know, in large part, that our fate is in our genes.“
Francis Crick
The development of biology is going to destroy to some extent our traditional grounds for ethical beliefs, and it is not easy to see what to put in their place.
Zdroj:http://www.cnn.com/video/#/video/us/2007/10/19/todd.saudi.schools.cnn
Zdroj:http://www.cnn.com/video/#/video/us/2007/10/19/todd.saudi.schools.cnn
A Man: a Periodic Table of Genes?
„All matter can be reduced to a periodic table of elements, but at a higher level, every living thing can be reduced to a periodic table of genes.“
(Strachan, T., Read, A.P., (2004) Human Molecular Genetics. 3rd ed. Garland Publishing, New Yourk, p. 208)
James Watson: ”We used to think that our fate was in our stars. Now we know, in large part, that our fate is in our genes.“
Walter Gilbert: „When we have the complete sequence of the human genome, we will know what it is to be a human“
E.O.Wilson:Ethics, as we understand it, is an illusion fobbed on us by our genes to get us to cooperate.
The search for the Holy Grail of who we are, has now reached its culminating phase; the ultimate goal is the acquisition of all the details of our genome... that will transform our capacity to predict what we will become.
Walter Gilbert Le Fanu, J., (2009) Why us? How Science Rediscovered the Mystery of Ourselves. Pantheon Books, New
York.
E.O. Wilson( On Human Nature)
„The question is no longer whether human social behavior is genetically determined. It is to what extent. The accumulated evidence for a large hereditary component is more detailed and compelling than most persons, including even geneticists, realize. I will go further, it is decisive.“
The psychologist Thomas Bouchard has said, "For almost every behavioral trait so far investigated, from reaction time to religiosity, an important fraction of the variation among people turns out to be associated with genetic variation. This fact need no longer be subject to debate; rather it is time instead to consider its implications.„
http://www.nytimes.com/books/first/a/appleyard-brave.html?_r=2&oref=slogin
Robert Weinberg
So what are you going to do if you begin to find on a chip of a child's DNA that this kid is likely to be very good in language, probably is going to have poor math skills, will be a rather anxious and obsessive person, will have difficulty associating with his or her peers, and is likely to come down with heart disease at the age of 45? How is that going to affect your relationship to that person, that child?
Salvador Luria:“‘Will the Nazi program to eradicate Jewish or otherwise ‘inferior’ genes by mass murder be transformed into a kinder, gentler program to ‘perfect’ human individuals by ‘correcting’ their genomes in conformity perhaps to an ideal ‘white, Judeo-Christian, economically successful’ genotype?“
HGP
Ethical Questions
knowledge gained from the HGP may lead to the construction of a „standard“ human genome. if this occurs, one must ask what variation society
would view as permissible before an individual´s genome was labelled substandart or abnormal?
Ethical Issues
knowledge gained from the HGP may lead to the construction of a „standard“ human genome. if this occurs, one must ask what variation society
would view as permissible before an individual´s genome was labelled substandart or abnormal?
Human Genome Diversity ProjectHGDP this project would map DNA from
approximately 25 individuals representing 500 of the world´s 5000 or so different ethnic groups
concerns about discriminations of some ethnics
Human Genome Diversity ProjectHGDP first proposed in 1991 by a group of human
geneticist, led by Luca Cavalli-Sforza and Allan Wilson
project was launched in September 1993 the primary goals of the founders were to
advance research into human history and evolution, but they foresaw other possible uses – in medicine, population genetics, anthropology, and other fields
…what they did not foresee was the ethical – and political – storm ahead the Project
(Jobling, M.A., Hurles, M.E., Tyler-Smith, C., (2004) Human Evolutionary Genetics. Garland Publisher, New York, p. 275)
Human Genome Diversity ProjectHGDP the HGDP continues to exist but, probably
at least in part because of the political controversy attached to it, has never received substantial funding – and has never come close to achieving its goals
this project would map DNA from approximately 25 individuals representing 500 of the world´s 5000 or so different ethnic groups, a total of 12 500 individuals (25x500)
Human Genome Diversity ProjectHGDP RAFI (Rural Advancement Foundation
International) had begun excoriate project as „bio-pirate“ interested in stealing valuable genes from indigenous people underhanded commercial goals planning to undermine indigenous culture overthrow indigenous land rights to help US produce ethnically targeted biological
weapons to clone armies of indigenous warrior slaves
(Jobling, M.A., Hurles, M.E., Tyler-Smith, C., (2004) Human Evolutionary Genetics. Garland Publisher, New York, p. 275)
Human Genome Diversity ProjectHGDP Whenever genetics is used to look at nationalities or
ethnicities, its methods, and its history, raise concerns about how the data might be used, or abused, to support racist or nationalistic views. When the groups involved have been oppressed, they may well fear commercial exploitation or worse harms, up to genocide.
And, given history of Australian aboriginal people or Native American Nations, their reluctance to participate is not, and must not be treated as, unreasonable.
Sometimes, in spite of researcher´s best effort, indigenous people will say no. One key to ethical human population genetics research is learning to accept that answer.
(Jobling, M.A., Hurles, M.E., Tyler-Smith, C., (2004) Human Evolutionary Genetics. Garland Publisher, New York, p. 275)
The Ethics of Genome Sequence Publications
as soon as the first sequences were published it became apparent that they could only be used if available in computer readable form
1980s the European Molecular Biology Laboratory
(EMBL) the National Institute of Health (NIH) Japanese National Institute of Genetics
these organizations later joined into an effective international collaboration to share data
The Ethics of Genome Sequence Publications
2003: this community database
(EMBL-bank/GenBank/DDBJ) contains over 40 billion bp of sequence from over 100 000 different organism
All three databases implemented a policy that was both courageous and foresighted: to make all of their data freely available to all (whether they be companies, academics or „John Smith“)
The Ethics of Genome Sequence Publications
By the late 1980s most reputable scientific journals were demanding deposition of sequence data in this database as a pre-condition for the publication of a scientific paper.
This immediately gave rise to a conflict: commercial companies (and some academics) saw their DNA sequence data as a intelectual property that might be turned into money. They were often reluctant to make their data freely available, since this might both compromise patent protection and reduce value of their „property“.
Bermuda Agreement 1996
= all data from the Human Genome Project will be deposited in the public sequence databanks
each sequencing center will release its own data every day
Bermuda Agreement 1996
1998: Celera Genomics „Discovery can´t wait!“
Public consortium had no access to Celera´sequence data
Celera had free access to Public consortium data
Human Genome: Invention or Discovery?
Human Genome is a discovery, freely available to all – like calendar or Einstein theory of Relativity or Double Helix of DNA
Human Genome is a invention like a bulb or steam engine
...you can patent invention, but not discovery
Human Genome: Discovery
Human Genome is a discovery sequence data of human genome – or any
other organism –are fundamental to biology they are as fundamental as the periodic table
is to chemistry and as Euclid´s axioms are to mathematics
data belong to all of us, they are not commodities to be sold in the
market place like apples and oranges!
Human Genome: Discovery
there is also pragmatic reason: databases are most useful if, within a given scientific domain, they are not fragmented
much of modern genomics would simply be impossible if the universe of sequence data were split between hundreds of different databases by allowing publication without sequence data
deposition in the community sequence databse Science has encouraged fragmentation of the universe sequence data
Patenting of Human Genes
genetics research should be a cooperative search for new knowledge, rather the self-interested pursuit of profits
once patenting comes to the fore, researchers may become increasingly reluctant to share information, thereby diminishing its transfer between laboratories
In the US it costs a woman between $3,000 and $4,000 to be tested for familial breast cancer because a corporation owns the patent for the two genes involved.
Patenting of Human Genes(Richards, J.E., Hawley, R.S., (2005) The Human Genome. Burlington, Elsevier Academic Press)
the gene can be patented if there is an idea regarding some use that could be made of that gene for a particular purpose, such as screening people to find out if they are at risk for a particular disease
Ethical Issues: Racism is dead
1,5 milions bp – difference between mother and her daughter
2,25 milions bp - difference between grandmother and granddaughter
3 milions bp - difference between two random chosen people on Earth
Races
Lewotine (1972) used 17 loci (blood groups, serum proteins, red blood cell enzymes) for which variation had been detected by immunological or electrophoretic methods and had allele frequency data available for several populations
the populations were classified into seven „races“ termed Caucasians, Black Africans, Mongoloids, South Asian Aborigines, Amerinds, Oceanins and Australian Aborigines,
based on morphological, linguistic, historical and cultural criteria
Races
the overwhelming conclusion was that most variation lies within population, and that „races“ had no genetic reality,a conclusion reinforced by subsequent analyses using independent population samples and DNA markers
Lewontine concluded: Human racial classification is of no social value and is
positively destructive of social and human relations. Since such racial classifications is now seen to be of virtually no genetic or taxonomic significance either, no justification can be offered for its continuance.
(Jobling, M.A., Hurles, M.E., Tyler-Smith, C., (2004) Human Evolutionary Genetics. Garland Publisher, New York, p. 277)
„Race“ is not a biological concept
modern population genetics makes the concept of „race“ in the human context biologically meaningless, although socially explosive
polish jews are more similar to polish non-jews than to jews in f.e. Sapin
0
0.2
0.4
0.6
0.8
1
1.2
1.4
Pe
a*
Fly
Fis
h
Hu
ma
n
Humans show little genetic variation compared with other species
Gen
etic
ká
varia
bilit
a (%
)
0
0,1
0,2
0,3
0,4
Ora
ng-uta
n
Go
rilla
Chim
panze
e
Hum
an
Out of Africa a multiregionální model
Dvě teorie vzniku moderního člověka (multiregionální model a „out of Africa“)
"All men are created equal" = moral and political equality
insurance companies: "you should pay according the risk you bring" more risk - you more have to pay but what about genetic predispositions?
genetic exceptionalism =genetic information is not like other kinds of
informations genetic prophecy - DNA can predict things genetic information affect others gentic information has the history of
stigmatization
genome is not "a bean bag" ... genome is rather an ecosystem
Chimp Genome and Human genome
What makes us "human"?
Ethical Issues: The Chimpanzee GenomeAre there any differences between chimps and humans?
The chimpanzee genome is 98.77% identical to the human genome. On average, a typical human protein-coding gene differs from its chimpanzee ortholog by only two amino acid substitutions; nearly one third of human genes have exactly the same protein translation as their chimpanzee orthologs. A major difference between the two genomes is human chromosome 2, which is the product of a fusion between chimpanzee chromosomes 12 and 13.
Human and Chimpanzee chromosomes
Human and Chimpanzee chromosomes
chromosomes 12 and 13 in a human ancestor fused end to end to form human chromosome 2
The centromere from ancestral chromosome 12 remained functional on human chromosome 2. while the one from ancestral chromosome 13 did not
Among the 3 billion base pairs in the DNA of both humans and chimpanzees, researchers found differences in 40 million sites.
When measured by changes in their genetic codes, humans and chimpanzees are about 10 times more different than are individual humans from each other.
Evolution at Two Levels in Humans and Chimpanzees
The organismal differences between chimpanzees and humans would ... result chiefly from genetic changes an a few regulatory systems, while amino acid substitutions in general would rarely be a key factor in major adaptive shifts. (Mary-Claire King and Alan Wilson)
That is to say, the allelic substitutions of the genes that encode protein sequences - which seem to be pretty much the same for chimps and humans - are not what is importatnt. The important difference are where, when, and how much the genes are activated
cit. v Gilbert, S.F., Epel, D., (2009) Ecological Developmental Biology. Sinauer Associates, Inc. Sunderland, MA. USA, p. 325
We cannot see in this why we are so different from chimpanzees. Part of the secret is hidden in there /in the genome/, but we don´t understand it yet.
Svante Paabo Le Fanu, J., (2009) Why us? How Science Rediscovered the Mystery of Ourselves. Pantheon Books, New
York.
Why is there not the slightes hint in the Human Genome of those unique attributes of the upright stance and massively expanded brain that so distinguish us from our primate cousins?
Le Fanu, J., (2009) Why us? How Science Rediscovered the Mystery of Ourselves. Pantheon Books, New York.
Skeleton of the Gorilla and Homo
Roger Fenton (1819-69), 'Skeleton of Man and of the Male Gorilla
(Troglodytes Gorilla)' About 1855Fenton was the official photographer
at the British Museum, which then held collections that are today in the
Natural History Museum. Photographed four years before the publication of Darwin’s On the Origin
of Species, the ape skeleton has been reconstructed in a more upright form
than natural to emphasise the similarities between humans and apes. The gorilla’s left arm shows
evidence of a lion bite.
Auguste RodinWoman Centaur (Mind and Body)
Auguste RodinLa Pensée
GATTACA
1997
„There is no gene for the human spirit“
… but is it true?
How genetically unique are we?
96% with chimpanzee 80% with mouse 50 % with Drosophila 40% with C. elegans 30% with S. cerevisiae
Creationism is dead
51% sequences we share with yeasts 57% sequences we share Brassica
oleracea 98,6% sequences we share wit Pan
troglodytes
Creationism is dead
Collins, F., (2006) The Language of God. Free Press, New York, p. 128)
"Little People with Wings"
The diverse subtlety of form, shape and colour that distinguishes snowdrop from tulips, flies from frogs and humans, is nowhere to be found.
There is not the slighest hint in the composition of the genes of fly or man to account for why the fly should have six legs, a pair of wings and a brain the size of a full stop, and we should have two arms, two legs and that prodigious brain.
Le Fanu, J., (2009) Why us? How Science Rediscovered the Mystery of Ourselves. Pantheon Books, New York.
We have moved, in the wake of Genome project, from assuming that we knew the principle, if not the details, of that greatest marvels, the genetic basis of the infinite variety of life, to recognisisng that we not only don´t understand the principles, we have no conception of what they might be.
Le Fanu, J., (2009) Why us? How Science Rediscovered the Mystery of Ourselves. Pantheon Books, New York.
Convention for the Protection of Human Rights and Dignity of the Human Being with regard to the Application of Biology and Medicine:
Convention on Human Rights and BiomedicineOVIEDO, 1997
Chapter IV – Human genome Article 11 – Non-discrimination
Any form of discrimination against a person on grounds of his or her genetic heritage is prohibited.
The Genetic Information Nondiscrimination Act
passed the American Senate in 2003 Act will prevent insurers and employers
from discriminating based on genetic information. This means that an insurance company cannot deny you insurance or charge you more because you have a particular genotype, and that an employer cannot fire you or pay you less because you have a particular genotype.
Next Lecture
Do genes influence human behaviour?
...coming soon!
ENCODE
The Encyclopedia of DNA Elements Project to identify all the functional elements of
the genome and to determine how those work together to turn on or off in particular tissues.
Perhaps you have heard the joke about the guy whose keys fell out of his coat pocket late at night on a darkened street. Realizing later that he was without his keys, he began searching. His companions were surprised to hind him searching vainly injust one place –under the streetlight. Asked why he was limiting his search, he explained, „Anyone knows you can´t find your keys where there´s no light.“
Sadly, the candidate gene strategy generally suffered the same fate – and we didn´t fid keys.
Why couldn´t this be done more systematically? Why couldn´t we light up the whole street?
An additional surprise emerged: for most of the gentic variants that played a role in risk of disease, the problem wasn´t that the glitch led to a garbled protein; rather, the glitch affected whether the responsible gene was turned „off“ or „on“ at the right time and in the right amount.
Collins, F., (2010) The Language of Life. Profile Books LTD. London, GB. p. 138