Chemical Properties of Biological Molecules: Difference between revisions

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== Facts ==
== Facts ==
* W & C did not suggested the structure of DNA molecule, but they did not prove that  double helices would form spontaneously outside the biological system
* W & C did not suggested the structure of DNA molecule, but they did not prove that  double helices would form spontaneously outside the biological system. However, if you keep a set of two single helices at 1mM concentration, 25 degree C, 99% would form a double helix
* '''Resonance structure''': A same molecule can be written in two different ways based on the bonding possibilities (alternative arrangements)
* Types of Non-covalent bonds
** Electrostatic interactions
** Hydrogen bonds
** Van der Waals interactions:
** Hydrophobic interactions
* Laws of thermodynamics
** Zeroth law of thermodynamics:  If two systems are in thermal equilibrium with a third system, they are in thermal equilibrium with each other.  This law helps define the notion of temperature.
** First law of thermodynamics: When energy passes, as Work (thermodynamics)|work, as heat, or with matter, into or out from a system, the system's internal energy changes in accord with the law of conservation of energy. Equivalently, perpetual motion machines of the first kind are impossible.
** Second law of thermodynamics: In a natural thermodynamic process, the sum of the entropies of the interacting thermodynamic systems increases. Equivalently, perpetual motion machines of the second kind are impossible.
** Third law of thermodynamics: The entropy of a system approaches a constant value as the temperature approaches absolute zero. With the exception of non-crystalline solids (glasses) the entropy of a system at absolute zero is typically close to zero, and is equal to the natural logarithm of the product of the quantum ground states.

Revision as of 08:53, 4 January 2017


Facts

  • W & C did not suggested the structure of DNA molecule, but they did not prove that double helices would form spontaneously outside the biological system. However, if you keep a set of two single helices at 1mM concentration, 25 degree C, 99% would form a double helix
  • Resonance structure: A same molecule can be written in two different ways based on the bonding possibilities (alternative arrangements)
  • Types of Non-covalent bonds
    • Electrostatic interactions
    • Hydrogen bonds
    • Van der Waals interactions:
    • Hydrophobic interactions
  • Laws of thermodynamics
    • Zeroth law of thermodynamics: If two systems are in thermal equilibrium with a third system, they are in thermal equilibrium with each other. This law helps define the notion of temperature.
    • First law of thermodynamics: When energy passes, as Work (thermodynamics)|work, as heat, or with matter, into or out from a system, the system's internal energy changes in accord with the law of conservation of energy. Equivalently, perpetual motion machines of the first kind are impossible.
    • Second law of thermodynamics: In a natural thermodynamic process, the sum of the entropies of the interacting thermodynamic systems increases. Equivalently, perpetual motion machines of the second kind are impossible.
    • Third law of thermodynamics: The entropy of a system approaches a constant value as the temperature approaches absolute zero. With the exception of non-crystalline solids (glasses) the entropy of a system at absolute zero is typically close to zero, and is equal to the natural logarithm of the product of the quantum ground states.