Viscoelasticity
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Oct 21, 2013
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Measurement of viscoelasticity of DNA By:- Jasmin
VISCOELASTICITY Viscoelasticity is the property of materials that exhibit both viscoUs and elastic characteristics when undergoing deformation .
viscosity is the result of the diffusion of atoms or molecules inside an amorphous material. elasticity is usually the result of bond stretching along crystallographic planes in an ordered solid. Viscoelastic materials have elements of both of these properties and their relationship between stress and strain depends on time.
DNA Deoxyribonucleic acid (DNA) is an important biopolymer that contains the genetic information and is present in the nucleus of cells. DNA are long polymers made of repeating units called deoxyribo nucleotides, which are made up of a phosphate group, a sugar moiety and four different nitrogenous bases
If the solutions of DNA are subjected to shear stress , the DNA molecules are extended After stress has been removed. The molecules returns to a relaxed configuration in which molecule , if it is long approximates a random coil
However if the rotor is suspended in solution of high molecular weight DNA, the rotor stops and the direction of rotor reverses owing to relaxation of previously stretched DNA Ultimately the rotor stops owing to friction The exponential decay rate at which rotor comes to rest can be characterized by time constant τ r called retardation time. when is τ r extrapolated to zero DNA concentration is called as relaxation time ( τ r o )
The molecular weight of a linear DNA molecule is determined by specific viscosity by extrapolating value of retardation time to zero shear rate and zero DNA concentration 0.665 logM = 2.0863 + log([n]+5)
RADIAL MIGRATION METHOD Developed by Ken D ill and B runo Zimm Novel method for separation of large DNA molecules according to molecular weight Two concentric cones are arranged
The space between the cones is filled by the DNA solution and the inner cone is rotating slowly (approx I rotation per 5 seconds ) The elastic molecule are aligned and stretched The molecule is stretched in curve therefore, there is small force directed toward the axis of rotation This makes the molecules migrate toward the centre of the system
The rate of migration is proportional to 5/2 power of molecular weight so this separation occurs during migration After several hours of migration , the rotation stopped and the stop cock at the base of the outer cone is opened The solution is then fractioned by drop collection The largest molecule emerge first
This method is being used to concentrate and separate intact DNA molecules of chromosomes from fragments that are produced during the isolation of DNA from the tissue
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