Y Hiller scite author profile

A commercially available, purified preparation of avidin was found to comprise two polypeptide bands (Mr 18,000 and Mr 15,500 respectively). Both bands bound biotin as assessed by biotin overlays of protein blots. The Mr 15,500 polypeptide was found to differ from the Mr 18,000 polypeptide only in its sugar content. When the commercial preparation was applied to a concanavalin A affinity column, the glycosylated forms were retarded as expected, and homotypic nonglycosylated avidin tetramers which failed to bind selectively to the column were collected in the effluent. The biotin-binding properties of the nonglycosylated avidin were equivalent to those obtained for the native (glycosylated) avidin molecule, indicating that the oligosaccharide moiety is not essential for the binding activity.

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Postsecretory modifications of streptavidin

Bayer

Ben-Hur

Hiller

et al. 1989

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Streptavidin, an extracellular biotin-binding protein from Streptomyces avidinii, exhibits a multiplicity in its electrophoretic mobility pattern which depends both upon the conditions for growth of the bacterium and upon the protocol used in the purification of the protein. The observed structural heterogeneity appears to reflect the action of two types of postsecretory molecular events: proteolytic digestion of the intact Mr-18,000 subunit to a minimal molecular size (approx. Mr 14,000), and aggregation of the native tetramer into higher-order oligomeric forms. The extent of subunit degradation and/or tetrameric aggregation affects the capacity of a given streptavidin preparation to interact with biotin-conjugated proteins in different assay systems.

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Studies on the biotin-binding site of avidin. Minimized fragments that bind biotin

Hiller

Bayer

Wilchek

1991

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The object of this study was to define minimized biotin-binding fragments, or 'prorecognition sites', of either the egg-white glycoprotein avidin or its bacterial analogue streptavidin. Because of the extreme stability to enzymic hydrolysis, fragments of avidin were prepared by chemical means and examined for their individual biotin-binding capacity. Treatment of avidin with hydroxylamine was shown to result in new cleavage sites in addition to the known Asn-Gly cleavage site (position 88-89 in avidin). Notably, the Asn-Glu and Asp-Lys peptide bonds (positions 42-43 and 57-58 respectively) were readily cleaved; in addition, lesser levels of hydrolysis of the Gln-Pro (61-62) and Asn-Asp (12-13 and 104-105) bonds could be detected. The smallest biotin-binding peptide fragment, derived from hydroxylamine cleavage of either native or non-glycosylated avidin, was identified to comprise residues 1-42. CNBr cleavage resulted in a 78-amino acid-residue fragment (residues 19-96) that still retained activity. The data ascribe an important biotin-binding function to the overlapping region (residues 19-42) of avidin, which bears the single tyrosine moiety. This contention was corroborated by synthesizing a tridecapeptide corresponding to residues 26-38 of avidin; this peptide was shown to recognize biotin. Streptavidin was not susceptible to either enzymic or chemical cleavage methods used in this work. The approach taken in this study enabled the experimental distinction between the chemical and structural elements of the binding site. The capacity to assign biotin-binding activity to the tyrosine-containing domain of avidin underscores its primary chemical contribution to the binding of biotin by avidin.

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[6] Nonglycosylated avidin

Hiller¹,

Bayer²,

Wilchek³

1990

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Attenuation of DNA-protein interactions associated with intrinsic, sequence-dependent DNA curvature

Shatzky-Schwartz

Hiller²,

Reich³

et al. 1992

Biochemistry

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Inherently curved DNA segments, associated with short runs of adenines, have been identified in many gene regulatory regions, yet their physiological significance remains unknown. The observations reported in this study indicate that intrinsically bent nucleic acid fragments are characterized by substantially attenuated affinities toward DNA-binding proteins involved in structural functions, such as H1 histone and protamine, as well as toward various DNA-modifying enzymes including ligases and exo- and endonucleases. Two mechanisms might be responsible for the altered binding properties. According to the first mechanism, the attenuated binding affinities and the bending represent two independent consequences of the unique structural parameters exhibited by A-tracts. Indeed, analysis of the degradation products obtained upon exposure of the curved sequences to various chemical nucleases points toward the narrowing of the DNA minor groove, a conformational modulation known to characterize A-tracts and to run along the axially-bent motifs, as a potential determinant of the observed binding attenuation. Alternatively, the conformational constraints which result from the stable bending might act to modulate the strength of DNA-protein interactions. Although the factor directly responsible for the altered binding affinities revealed by the bent sequences cannot as yet be conclusively resolved, it is proposed that a reiteration of this specific factor, being either an A-tract or a bend, in phase with the DNA helical repeat acts to amplify the modulation of the binding.(ABSTRACT TRUNCATED AT 250 WORDS)

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Y Hiller

Biotin binding to avidin. Oligosaccharide side chain not required for ligand association

Postsecretory modifications of streptavidin

Studies on the biotin-binding site of avidin. Minimized fragments that bind biotin

[6] Nonglycosylated avidin

Attenuation of DNA-protein interactions associated with intrinsic, sequence-dependent DNA curvature

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