Markku S. Kulomaa scite author profile

Chicken avidin and bacterial streptavidin, (strept)avidin, are proteins widely utilized in a number of applications in life science, ranging from purification and labeling techniques to diagnostics, and from targeted drug delivery to nanotechnology. (Strept)avidin-biotin technology relies on the extremely tight and specific affinity between (strept)avidin and biotin (dissociation constant, K(d) approximately 10(-14)-10(-16) M). (Strept)avidins are also exceptionally stable proteins. To study their ligand binding and stability characteristics, the two proteins have been extensively modified both chemically and genetically. There are excellent accounts of this technology and chemically modified (strept)avidins, but no comprehensive reviews exist concerning genetically engineered (strept)avidins. To fill this gap, we here go through the genetically engineered (strept)avidins, summarizing how these constructs were designed and how they have improved our understanding of the structural and functional characteristics of these proteins, and the benefits they have provided for (strept)avidin-biotin technology.

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Organelle pH studies using targeted avidin and fluorescein–biotin

Llopis

Adams

et al. 2000

Chemistry & Biology

180

133

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Brave new (strept)avidins in biotechnology

Laitinen

Nordlund²,

Hytönen

et al. 2007

Trends in Biotechnology

177

141

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Baculovirus capsid display: a novel tool for transduction imaging

et al. 2003

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Baculoviruses are enveloped insect viruses that can carry large quantities of foreign DNA in their genome. Baculoviruses have proved to be very promising gene therapy vectors but little is known about their transduction mechanisms in mammalian cells. We show in this study that Autographa californica multiple nuclear polyhedrosis virus capsid is compatible with the incorporation of desired proteins in large quantities. Fusions can be made to the N-terminus or C-terminus of the major capsid protein vp39 without compromising the viral titer or functionality. As an example of the baculovirus capsid display we show a tracking of the baculovirus transduction in mammalian cells by an enhanced green fluorescent protein (EGFP)-displaying virus. Our confocal and electron microscopy results suggest that the transduction block in mammalian cells is not in the endosomal escape, as previously proposed, but rather in the cytoplasmic transport or nuclear entry of the virus capsid. Our results also suggest that the EGFP-tagged virus can be used for visualization of the virus biodistribution in vivo. Furthermore, capsid-modified baculoviruses hold great promise for the nuclear and subcellular targeting of transgenes and as a novel peptide display system for a variety of eukaryotic applications.

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Markku S. Kulomaa

Biochemical Characterization of CA IX, One of the Most Active Carbonic Anhydrase Isozymes

Genetically engineered avidins and streptavidins

Organelle pH studies using targeted avidin and fluorescein–biotin

Brave new (strept)avidins in biotechnology

Baculovirus capsid display: a novel tool for transduction imaging

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