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Liquid Crystal Phases of DNA and Implications for The Origin of Life

Liquid Crystal Phases of DNA and Implications for The Origin of Life. Yang Yang, Xianfeng Song Advisor: Sima Setayeshgar Journal Club April 11 th , 2008. Outline. Part I: Introduction to liquid crystals Part II: Background on theories of origin of life

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Liquid Crystal Phases of DNA and Implications for The Origin of Life

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  1. Liquid Crystal Phases of DNA and Implications for The Origin of Life Yang Yang, Xianfeng Song Advisor: Sima Setayeshgar Journal Club April 11th, 2008

  2. Outline • Part I: Introduction to liquid crystals • Part II: Background on theories of origin of life • Part III: Liquid crystal condensation of 6-to-20-base pair DNA duplexes

  3. Part I: Introduction to liquid crystals

  4. Introduction to Liquid Crystal • Phases between liquid and solid • Can be divided into two types: • Thermotropic: exhibit phase transition into the LC phase as temperature is changed • Lyotropic: exhibit phase transition into the LC phase as a function of concentration of the mesogen • Mesogen is the fundamental unit of a liquid crystal that induces structural order in the crystals. http://dept.kent.edu/spie/liquidcrystals

  5. Birefringence (Double Refraction) • A typical behavior due to anisotropy • Two different refraction index • no is the refractive indices for o-ray (polarization direction is perpendicular to the optical axis, called director) • ne is the refractive indices for e-ray (polarization direction is parallel to the optical axis) • Utilized to view the texture of different phases of LC. http://plc.cwru.edu/tutorial/enhanced/files/lc/biref/graphics/birefringence.JPG

  6. Optical Devices: Crossed Polarizers http://bly.colorado.edu/lcphysics/lcintro/tnlc.html When the polarizers are arranged so that their planes of polarization are perpendicular to each other, the light is blocked. When the second filter (called the analyzer) is parallel to the first, all of the light passed by the first filter is also transmitted by the second. When putting LC in between two polarizers, the polarization state is modified by LC. Now there will be light come through depends on the director’s direction, LC’s thickness, ray’s frequency.

  7. Liquid Crystal Phases: Nematic Phase • Nematic phase • The mesogens have no positional order, but exhibits long-range orientational order. • Most nematics are uniaxial, but some liquid crystals are biaxial nematics. From Nature 430, 413-414(22 July 2004) The Schlieren texture, is characteristic of the nematic phase. The dark regions that represent alignment parallel or perpendicular to the director are called brushes. http://dept.kent.edu/spie/liquidcrystals/

  8. Liquid Crystal Phases: Chiral Nematic Phase • The chiral nematic (cholesteric) liquid crystal phase is typically composed of nematic mesogenic molecules containing a chiral center which produces intermolecular forces that favor alignment between molecules at a slight angle to one another. • This leads to the formation of a structure which can be visualized as a stack of very thin 2-D nematic-like layers with the director in each layer twisted with respect to those above and below. http://plc.cwru.edu/tutorial/enhanced/files/lc/phase/phase.htm http://bly.colorado.edu/lcphysics/textures/ A typical texture of chiral nematic liquid crystal with long pitch helix. Network-like defect lines are oily-streak lines. The structure of chiral nematic liquid crystals

  9. Liquid Crystal Phases: Smectic Phase • Form well-defined layers that can slide over one another • Smectic A phase: the mesogen are oriented along the layer normal • Smectic C phase: the mesogen are tilted away from the layer normal http://plc.cwru.edu/tutorial/enhanced/files/lc/phase/phase.htm Texture of the smectic A phase Picture of the smectic A phase Picture of the smectic C phase

  10. Liquid Crystal Phases: Columnar Phases A class of liquid crystal phases in which molecules assemble into cylindrical structures http://www.rsc.org/ej/JM/2001/b008904o/b008904o-f2.gif From Nature 406, 868-871, 2000 From Science 318, 1276 (2007) 100× of texture exhibited by the hexagonal columnar mesophase Columnar phase formed by discotic molecules Columnar phase formed by rod-like molecules

  11. Part II: Introduction to Theories of Origin of Life

  12. Origin of Life • Scientific theory • Origin of organic molecules • From organic molecules to protocells • Other theories • Religion theory: humankind and other organisms are created by God. • Spontaneous Generation: small organisms like bacterium and frogs are spontaneously generated in the mud. • Aliens: organisms were brought to earth by aliens

  13. DNA Structure • First X-ray diffraction image of DNA, photo 51 • Taken by Rosalind Franklin in 1952 • Critical evidencein identifying the structure of DNA • Structure model of DNA • Presented by James D. Watson and Francis Crick in 1953 • Double helix with sugar and phosphate parts of the nucleotides forming the two strand • Using hydrogen bonds to pair specifically with A opposing to T, and C opposing to G • Opposite directions of the two strands of double helix Franklin R, Gosling RG , Nature ,1953 Watson J.D. and Crick F.H.C. Nature, 1953

  14. Genetic Information Flow • A gene is a sequence of DNA that contains genetic information and can influence the phenotype of an organism. The genetic code consists of three-letter 'words' called codons formed from a sequence of three nucleotides (e.g. ACT, CAG, TTT). • In transcription, the codons of a gene are copied into messenger RNA by RNA polymerase(protein). • In translation, messenger RNA (mRNA) is decoded to produce a specific polypeptide according to the rules specified by the genetic code. This uses an mRNA sequence as a template to guide the synthesis of a chain of amino acids that form a protein.

  15. Origin of Organic Molecules • Miller's experiments (The Primordial Soup Theory) • The Deep Sea Vent Theory • Wächtershäuser’s experiment

  16. “Miller-Urey” Experiments • Performed by Stanley Miller, and his advisor, Harold Urey in 1953 • Recreating the chemical conditions of the primitive earth in the laboratory • Using a highly reduced mixture of gases – methane, ammonia and hydrogen – to form basic organic monomers, such as amino acids. • Proving the spontaneously forming of organic molecule on early earth from inorganic precursor Miller S. L., Science ,1953. Miller S. L., and Urey, H. C . Science, 1959 How the relatively simple organic building blocks polymerize and form more complex structures? From NASA

  17. Deep Sea Vent Theory • The hot environs of undersea hydrothermal vents were the birthplace for life. • In 1999, Japanese researchers synthesized peptides around an artificial deep-sea vent. Balter, M. Science, 1998 Imai E., et al. ,Science,1999

  18. Wächtershäuser's experiment • Early chemistry of life started on mineral surfaces (e.g. iron pyrites) near deep hydrothermal vents • Bubbles on the mineral surfaces acted as the first ‘cell’ • Amino acids and peptides could be formed by mixing simple chemical compounds (carbonmonoxide, hydrogen sulfide, nickel sulfide and iron sulfide)h Huber, C. and Wächterhäuser, G. , Science, 1998 Wächtershäuser, G. , Science 2000. ajdubre.tripod.com/.../OriginLifeSci-82500.html

  19. From Organic Molecules to Protocells • "Genes first" models-the RNA world • "Metabolism first" models-iron-sulfur world

  20. RNA World Hypothesis • Carl R. Woese first presented this independent RNA idea in late 1960s . • Walter Gilbert first used the phrase "RNA World" in 1986 • DNA replication need proteins and enzymes while at the origin of life there is no present of any protein • RNA catalyzed all the reactions necessary for a precursor to survive and replicate • Relatively short RNA molecules which can duplicate others have been artificially produced in the lab • New enzymes replicate DNA and make mRNA copies • DNA took the role as the genetic information storage • Woese, C. The Genetic Code, Harper & Row, New York, 1967 • Gilbert, Walter, Nature, 1986 • Johnston W. K. ,et al. Science, 2001

  21. "Metabolism first" Models: Iron-Sulfur World • Early form of metabolism predated genetics • Metabolism here means a cycle of chemical reactions that produce energy in a form that can be harnessed by other processes • Steps for producing proteins: • Produce acetic acid through metallic ion catalysis • Add carbon to the acetic acid molecule to produce three-carbon pyruvic acid(CH3COCO2H) • Add ammonia to form amino acids • Produce peptides and then proteins. • Once protein had been formed, DNA can be replicated and make RNA copies, and followed by translation to proteins Huber, C. and Wächterhäuser, G. , Science, 1998 Wächtershäuser, G. , Science, 2000.

  22. Pending Problem • Once having the building blocks (small RNAs, small DNAs, small proteins) to the protocell, it is still essentially hard to form larger and more complex ones which needed by the protocell for other purpose. • For example, even one of the simplest organism, E. coli, has approximately 4,639,221 base pairs of the genome contain 4,403 genes. The entire genome of humankind occupies over 3 billion DNA base pairs. • The formation of long DNA chains by random chemistry predicted by those theories is essentially impossible. The paper gives us an idea how the small molecule s tend to self-organize themselves to larger molecule

  23. Part III: Liquid Crystal Condensation of sDNA Duplexes

  24. Terminology in Paper • Oligomer: A molecule formed from a small number of monomers. • Self-complementary: Each single strand of the duplex-DNA can form double helix with itself. For example: CCTCAATTGAGG >> <<GGAGTTAACTCC • sDNA: Short DNA double helix • lDNA: Long DNA double helix • DNA ligation: sDNA join together end-to-end to form lDNA. • B form of DNA: normal right-handed DNA, every 3.4 nm makes a turn and there are 10 base pairs per turn • A form of DNA: right-handed DNA, but every 2.3 nm makes a turn and there are 11 base pairs per turn. • Z form of DNA: left-handed DNA due to zigzag bases, every 4.6 nm makes a turn and there are 12 base pairs per turn. Notes form Prof. Cherbas, Dept. of Biology, Indiana University

  25. Background on lDNA Liquid Crystal • Duplex lDNA can form liquid crystal phases when hydrated: • Four phases: isotropic phase (I), chiral nematic (N), uniaxial columnar (CU), crystal phase (X) • Ranging from mega base pair (bp) semi-flexible polymers down to approximately 100 bp rigid rod-like segments (B-DNA has bend persistence length ~50nm) • Onsager-Bolhuis-Frenkel(OBF) criterion[*] • Model: Monodisperse repulsive hard rods (length L, diameter D) • Conclusions: If the rods are sufficiently anisotropic in shape, the appearance of nematic phase require: L/D>4.7 (N>28bp). If L/D<4.7, there should be no LC phases at any volume fraction. [*]Onsager, Ann. N.Y. Acad. Sci. 51, 627 (1949); Bolhuis etc, J. Chem. Phys. 106, 666 (1997)

  26. Experiments on sDNA • Subject: The solutions which contains a series of self-complementary sDNA duplex-forming “palindromic” oligomers, along with a variety of noncomplementary and partially complementary oligomers • Result: Short complementary B-form DNA oligomers, 6 to 20 base pairs in length, are found to exhibit nematic and columnar liquid crystal phases, even though such duplexes lack the shape anisotropy required for liquid crystal ordering

  27. DNA Phase Diagram • The phase diagram includes the phase boundaries measured for sDNA with those obtained from the literature for lDNA, along with the predictions from the Onsager and other models of interacting semi-flexible rod-shaped particle and aggregate solutes. For N < 20, phase transitions from our data are marked by red open symbols (I-N, triangles; N-CU, circles; CU-C2, squares), and the range of each phase is indicated by colored columns (I, magenta; N, cyan, CU, yellow), at T = 20°C for 20 > N > 8 and T = 10°C for N = 6. The phase diagram presents clear evidence that the origin of the LC phases in sDNA is the equilibrium end-to-end physical aggregation of short duplexes into extended duplex units that are long and rigid enough to order.

  28. LC Ordering from Mixed Solutions of Complementary and Non-complementary Oligomers • The addition of unpaired bases at the sDNA duplex ends, eliminates LC ordering by weakening end-to-end adhesion. This interplay of sequence and LC ordering leads to a remarkable means of condensation of complementary sDNA duplexes from mixed solutions of complementary and noncomplementary oligomers. • Experiment show if there is a large excess of noncomplementary oligomers, the LC phase appears as isolated drops. Experiment procedure

  29. The observation of nematic and columnar LC phase provides clear evidence for end-to-end stacking of sDNA into rod-shaped aggregates. Discussion & Conclusion • The observation of nematic and columnar LC phase provides clear evidence for end-to-end stacking of sDNA into rod-shaped aggregates. • Within the LC drops, the end-to-end stacking makes the terminal groups on neighboring oligomers close to each other and the effective concentration much higher than in the surrounding isotropic, thus should strongly promote ligation in the LC phase. • Additionally, every ligation in the LC phase produces an extended complementary oligomer. Thus, LC phase has the autocatalytic effect of establishing conditions that would strongly promote their own growth into longer complementary chains relative to the non-LC-forming oligomers.

  30. Thanks!

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