Everything about Streptavidin totally explained
Streptavidin is a 53,000
dalton tetrameric
protein purified from the
bacterium Streptomyces avidinii. It finds wide use in
molecular biology through its extraordinarily strong affinity for the vitamin
biotin; the
dissociation constant (K
d) of the biotin-streptavidin complex is on the order of ~10
-15 mol/L, ranking among one of the strongest known non-covalent interactions.
Uses in Biotechnology
Among the most common uses are the purification or detection of various biomolecules. The strong streptavidin-biotin bond can be used to attach various biomolecules to one another or onto a solid support.
One technique fixes DNA by first digesting DNA with a restriction exonuclease to produce either a blunt end, a 3' overhang or a 5' overhang. The DNA is then incubated with biotin-11-dUTP, a deoxyribonucleotide analog that's covalently attached to biotin, and the
Klenow fragment of the
holoenzyme DNA polymerase I of
E. coli. The biotin-11-dUTP is incorporated into the 3' end of the strand complementary to the 5' ssDNA portion of the overhang. This is because
DNA polymerases can only add nucleotides to the 3'-OH of DNA and not the 5'-phosphate.
- 5'-ACTGGCTU-3'
- 3'-TGACCGAACCGTT-5'
(where
U is biotin-11-UTP incorporated into the DNA strand)
Assuming that care is taken to ensure that only one 5' overhang with only one possible site is available for dUTP incorporation, the result is a strand of DNA with a biotinylated end. One of the primary uses for biotinylated DNA is for binding (via non-covalent interactions) to streptavidin coated surfaces. With the DNA firmly attached to this substrate, various DNA hybridization and immunological assays can be performed. They may also be attached to streptavidin coated
agarose microspheres,
polystyrene or even
paramagnetic beads. These complexes are most commonly used for the purification or isolation of DNA binding proteins. Other molecular biological techniques allow for exquisite control over DNA sequence, length, etc which make this a very powerful molecular tool.
Comparison to avidin
There are considerable differences in the composition of
avidin and streptavidin, but they're remarkably similar in other respects. Both proteins form
tetrameric complexes to function in which each
subunit can bind one molecule of biotin.
Guanidine hydrochloride will dissociate both avidin and streptavidin tetramers into their component subunits, but streptavidin is more resistant to
dissociation.
Streptavidin is much less soluble in water than avidin, and it lacks avidin's extensive
glycosylation. Streptavidin has a mildly acidic
isoelectric point (pI) of ~5. A
recombinant form of streptavidin with a mass of 53,000 daltons and a near-neutral pI is also commercially available. Because streptavidin lacks any
carbohydrate modification and has a near-neutral pI, it has the advantage of much lower
nonspecific binding than avidin.
Deglycosylated avidin is more comparable to the size, pI and nonspecific binding of streptavidin.
Further Information
Get more info on 'Streptavidin'.
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