mathematics is biology’s next microscope, only …...expression profiles in 60 human cancer cell...
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Mathematics Is Biology’s NextMicroscope, Only Better;
Biology Is Mathematics’ NextPhysics, Only Better
Joel E. CohenLaboratory of Populations
Rockefeller & Columbia Universities10 July 2003
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Mathematics Is Biology’s NextMicroscope, Only Better
• Microscope (late 17th C.) caused revolution inbiology by revealing otherwise invisible, &previously unsuspected, worlds.
• Mathematics (broadly interpreted) can revealotherwise invisible worlds in all kinds of data, notonly optical.
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“Mathematics seems to endow onewith something like a new sense.”
Charles Darwin
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Biology Is Mathematics’ NextPhysics, Only Better
• Physics stimulated enormous advances inmathematics, e.g. geometry, calculus.
• Biology can stimulate creation of new realmsof mathematics.
• Is living nature qualitatively moreheterogeneous than non-living nature?
Newton Mendel
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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Biology since 1500• External factor: Columbian exchange
(New World species, foods, diseases)
• Technical progress– quantitation (Harvey 1615 [1628])– microscope (Leeuwenhoek 1660-1700)– chemistry (Liebig 1855)
• Conceptual progress– anatomical observation (Vesalius 1543)– cell theory (Schleiden Schwann Virchow
Weissman 1838-80)– evolution (Darwin Wallace 1859)– genes (Mendel Correns von Seysenegg deVries
1865-1900)
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William Harvey (1578-1659)
Exercitatio AnatomicaDe Motu Cordis etSanguinis InAnimalibus (1628)
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Harvey showed that blood circulates• Galen (2d C.): blood ebbs & flows, pumped
by arteries; heart is passive.• Harvey (1615): heart & veins have 1-way
valves; flow is unidirectional.• Left ventricle (dead) holds 2 oz. ~ 60 ml.• >1/8-1/4 of blood is expelled per stroke.• Heart beats 60-100 times/minute.• ∴60ml x 1/8 x 60 beats/min x 60 = 27 l/h.• Average human has 5.5 l blood.[Marcello Malpighi (1628-94) saw capillaries.]
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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Mathematics since 1500• Geometry & topology
– analytic geometry (Descartes 1637)– non-Euclidean geometries (1823-1830)
• Algebra– roots of equations, group theory, symmetry– linear algebra (19th-20th C.)
• Analysis: modern mathematical thought– calculus: theory of limits (Newton 1666 Leibniz)– probability (Pascal Fermat 1654 DeMoivre
Laplace Gauss 1733-1809 normal curve)• External factor: computers (war, business)
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Mathematics arising frombiological problems (1)
• Age structure of stable populations(Euler 1760)
• Logistic equation for limited populationgrowth (Verhulst 1838)
• Branching processes, extinction offamily names (Galton 1889)
• Correlation (K. Pearson 1903)
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Mathematics arising frombiological problems (2)
• Markov chains, statistics of language(Markov 1906)
• Hardy-Weinberg equilibrium (1908)• Analysis of variance, design of
agricultural experiments (Fisher 1920s)• Dynamics of interacting species (Lotka
1922 Volterra 1926-37)
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Mathematics arising frombiological problems (3)
• Birth process (Yule 1925), birth anddeath process (D.G. Kendall 1948)
• Traveling waves in genetics (Fisher;Kolmogorov Petrovsky Piscounov 1937)
• Game theory (von Neumann 1944)• Distribution for estimating bacterial
mutation rates (Luria Delbruck 1943)• Morphogenesis (Turing 1952)
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Mathematics arising frombiological problems (4)
• Diffusion equation for gene frequencies(Kimura 1954)
• Circular interval graphs, genetic finestructure (Benzer 1959)
• Threshold functions of random graphs,models of communication networks or“even of organic structures of livingmatter” (Erdös-Rényi 1960)
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Mathematics arising frombiological problems (5)
• Sampling formula for haplotypefrequencies (Ewens 1972)
• Coalescent, genealogy of populations(Kingman 1982)
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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The biological landscapeDomains• Molecules• Cells• Tissues• Organs• Individuals• Populations• Communities,
ecosystems• Biosphere
Questions• Structure(s)
– How is it built?• Function(s)
– How does it work?• Pathology(ies)
– What goes wrong?• Repair(s)
– How is it fixed?• Origin(s)
– How did it begin?
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The applied mathematical landscape• Data structures• Algorithms
– analyze data– analyze models
• Theories & models, including all pure math– analyze data– analyze ideas
• Computers & software– embody mathematical knowledge– interface with humans (vision, speech)– compute
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The landscape of biology andmathematics
The landscape of research inmathematics and biology contains allcombinations of a problem from thematrix of biological problems andproblem areas from appliedmathematics.
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• gene expression & molecular pharmacology• food webs, body size & abundance
• Future– potential problems– opportunities
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Example 1: integrate geneexpression & molecular
pharmacology
• Scherf U, 16 others. A gene expression database forthe molecular pharmacology of cancer. NatureGenetics 2000 Mar; 24(3):236-44.
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Results• “used cDNA microarrays to assess gene
expression profiles in 60 human cancer celllines of the National Cancer Institute’s drugdiscovery program.”
• “link the bioinformatics with chemoinformaticsby correlating gene expression and drugactivity patterns in the 60 cell types.Clustering the cells on the basis of geneexpression yields a picture very different fromthat obtained when the cells are clustered onthe basis of their response to drugs.”
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Data http://discover.nci.nih.gov/arraytools/Drug activity matrix A1400 drugs x 60 cell lines from human
cancers of various organs (including 118drugs with “known mechanism of action”)
adc = activity of drug d in suppressing growthof cell line c
adc = sensitivity of cell line c to drug dGene expression matrix T (“T” for target)1375 genes x same 60 cell linestgc = relative abundance of mRNA transcript of
gene g in cell line ctgc = cell line c’s expression of gene g
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60 cell lines14
00 d
rugs
60 cell lines
1375
gen
es
A = activity matrix T = expression matrix
cell 1 cell 2
drug
1
drug
2
cell 1 cell 2
gene
1
g
ene
2
Correlation & clustering
A(cell 1, cell 2). T(cell 1, cell 2). Correlate & cluster. Different.A(drug 1, drug 2). T(gene 1, gene 2). Correlate & cluster.
(A drug d, T gene g). Correlate.
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Clustered image mapgene expression-drug activity correlations plotted as a function
of clustered genes (x-axis) and clustered drugs (y-axis)
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Example 2: integratefood webs (attribute of ecological
communities) withbody size (attribute of individuals)
& abundance (attribute ofpopulations)
Joel E. Cohen, Tomas Jonsson, Stephen R. Carpenter,Ecological community description using the food web,species abundance, and body size. Proc. NationalAcad. Sci. USA 100(4):1781-1786, 18 February 2003
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Old: Food web with feeding only
Predator species
Prey species 2Prey species 1
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New: Food web, body size, abundance
Predator speciesBody size
Abundance
Prey species 2Body size
Abundance
Prey species 1Body size
Abundance
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Tuesday Lake 1984
1 2 4 5 6 7 9 10 11 13 14 15 16
17 18 19 20 21 22 23 24 25 27 30 31
32 33 34 35
36
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39 40 41 42 43 44 45 46
47
48 49 50 51
52
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log10
(body mass, kg)−15 −2
log10
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log10
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100
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body
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g)Food web, body mass &
numerical abundance 1984
numerical abundance (individuals/m3)
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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Potential problems• Educating scientists• Intellectual property• National security
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Potential problems (1)educating scientists
• K-16 education in math, science– U.S. math & science education falls behind that
of other industrial nations.• graduate, postdoc cross-training• diversity: gender, ethnicity, nationality (visas)• educating peer reviewers to approve
exploratory research of high quality
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Potential problems (2)intellectual property
• Science as a potlatch culture• Bayh-Dole 1980
– Rai & Eisenberg, Amer. Scientist 91:52, 2003• Tragedy of anti-commons: Madey v. Duke
– Duke Petition for Writ of Certiorari to U.S.Supreme Court: “The possibility that thepatent system could stifle or even stymie theprogress of biotechnology and otherimportant fields of research is both real andprofound.”
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Potential problems (3)national security
• Win-win domains– EPA biowarfare monitoring– foot & mouth disease– smallpox inoculation strategy
• Good (openness) vs. good (defense)• Good (privacy) vs. good (security): databases,
biomarkers (SNPs)• “Sensitive but unclassified” information
– who does the research? (non-US?)– with what publication rights/obligations?
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Outline• Past
– biology– mathematics
• Present– landscapes of biology & applied math– examples
• Future– potential problems– opportunities
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Mathematics can help biologists graspproblems that are otherwise
• Too big– biosphere
• Too slow– macro evolution
• Too remote in time– early extinctions
• Too complex– brain
• Too small– molecular structure
• Too fast– photosynthesis
• Too remote in space– life at extremes
• Too dangerous orunethical– epidemiology of
infectious agents
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Biological challenges (1)• Understand cells, their diversity within &
between organisms, & their interactionswith biotic & abiotic environments
• Understand brain, behavior & emotion– Why do or don’t people have children?
• Replace tree of life by network torepresent lateral transfers– genes– genomes– prions
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Biological challenges (2)• Couple atmospheric, terrestrial &
aquatic biosphere with globalphysicochemical processes
• Monitor living systems to detect largedeviations– epidemics natural or induced– physiological or ecological pathologies
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Mathematical challenges (1)• Understand computation: gain insight &
prove theorems from numericalcomputation & agent-based models
• Model multilevel systems, e.g., cells inpeople in human communities inphysical, chemical, & biotic ecologies
• Understand uncertainty & risk byintegration of frequentist, Bayesian,subjective & other theories of probability
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Mathematical challenges (2)
• Understand data mining,simultaneous inference(beyond Bonferroni)
• Set standards for clarity,performance, publication &permanence of software &computational results
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AcknowledgmentsI am grateful for helpful suggestions from Mary Clutter,
Charles Delwiche, Bruce A. Fuchs, Yonatan Grad,Alan Hastings, Kevin Lauderdale, Zaida Luthey-Schulten, Daniel C. Reuman, Noah Rosenberg,Michael Pearson and Samuel Scheiner, support fromU.S. National Science Foundation grant DEB9981552, and the hospitality of Mr. and Mrs. WilliamT. Golden during this work. Any opinions, findings,and conclusions or recommendations expressed inthis material are those of the author and do notnecessarily reflect the views of the National ScienceFoundation.