Download
1 / 34
340 likes | 505 Views
Life in a nut: cell. A hike on the borderline between life and not-life Dr. Alkan Kabak çıoğlu Koc Univ, Istanbul. “ The human race is just a chemical scum on a moderate-sized planet, orbiting around a very average star in the outer suburb of one among hundreds of billion of galaxies. ”.
E N D
Life in a nut: cell A hike on the borderline between life and not-life Dr. Alkan Kabakçıoğlu Koc Univ, Istanbul
“ The human race is just a chemical scum on a moderate-sized planet, orbiting around a very average star in the outer suburb of one among hundreds of billion of galaxies. ” Stephen W. Hawking
David Deutsch’s universe (www.ted.com/tedtalks)
EVEN SMALLER SCALES Simple organization Complex organization Iron crystal Liquid water
Life makes its copies • A cell is the smallest unit of organized matter (on earth) that can copy itself. • Virtually all living organisms are composed of cells.
Borderline gets blurred at smaller scales Chromosome duplication Transport along microtubules
Laws of physics governing the behavior of many particles are approximate N = PV / kT If you measure the # of particles in a box for given (P,V,T) the value will depart from the law by √N . For N=100 deviation is 10% For N=1 million deviation is 0.1%
Thermal fluctuations are dramatic… DIFFUSION… r ~ sqrt(Dt) Diffusion constant (D) ~ 1/(Radius x viscosity) D for GFP inside the cell = 25 μm^2/s (one round a sec) Small parts are constantly on the move! It’s shaky in a cell
A collection of atoms with a predictable behavior has to be large, with its parts sufficiently strongly connected in order to remain intact under thermal agitation.
Chemical bonds Covalent/ionic bonds : few eV Hydrogen bonds : 0.1 eV Thermal energy at 24 C : 0.026 eV (=kT) p ~ exp(-E/kT) • Biological molecules are linear chains • sequence held by covalent bonds • 3D structure held by hydrogen bonds
Proteins A protein is a long word of with a 20-letter alphabet • They do all the work: • transport material • catalyze reactions • serve as building blocks • etc
Protein Folding Problem Sequence Structure ? • Still unsolved after 50 years.. • Computers can simulate only the first μs of folding which may take 1ms – 1s.
DNA A long chain of 4 letters: A,T,C,G. A T G C Two complementary strands. Carries all the information required to construct proteins. Complete human DNA sequence is known since 2003. Original drawing by Francis Crick Reading: “The Double Helix”, J.D. Watson
Genetic Code …GTTGTATGCTCC… …-Leu-Leu-Thr-Trp-…
. “Gene expression profiles” can be monitored using microarrays. Correlations in the data give indirect evidence on gene-gene interactions.
Cell activity is controlled by a complex regulatory network Resolving the underlying complexity is the next challenge.
How did this complexity come about? First there was the soup.. Next came the replicator “A” (an RNA?) A AA AAAA AAAAAAAA … When soup was full As fought for resources Let there be natural selection! Reading: “The Selfish Gene”, R. Dawkins
“There is nothing on which a free man ponders less than death; his wisdom is, to meditate not on death but on life.” Spinoza (as quoted by Erwin Schrodinger in “What is life?”)
