Recognition of DNA sequence by an inorganic crystal surface

Beatrice Sampaolese; Anna Bergia; Anita Scipioni; Giampaolo Zuccheri; Maria Savino; Bruno Samori; Pasquale De Santis; Massimo Castagnola

Recognition of DNA sequence by an inorganic crystal surface

Beatrice Sampaolese, Anna Bergia, Anita Scipioni, Giampaolo Zuccheri, Maria Savino, Bruno Samori, Pasquale De Santis, Massimo Castagnola

Università Cattolica del Sacro Cuore

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

The sequence-dependent curvature is generally recognized as an important and biologically relevant property of DNA because it is involved in the formation and stability of association complexes with proteins. When a DNA tract, intrinsically curved for the periodical recurrence on the same strand of A-tracts phased with the B-DNA periodicity, is deposited on a flat surface, it exposes to that surface either a T- or an A-rich face. The surface of a freshly cleaved mica crystal recognizes those two faces and preferentially interacts with the former one. Statistical analysis of scanning force microscopy (SFM) images provides evidence of this recognition between an inorganic crystal surface and nanoscale structures of double-stranded DNA. This finding could open the way toward the use of the sequence-dependent adhesion to specific crystal faces for nanotechnological purposes.

Lingua originale	English
pagine (da-a)	13566-13570
Numero di pagine	5
Rivista	Proceedings of National Academy of Sciences (PNAS) USA
Stato di pubblicazione	Pubblicato - 2002

Keywords

acidi nucleici
struttura

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title = "Recognition of DNA sequence by an inorganic crystal surface",

abstract = "The sequence-dependent curvature is generally recognized as an important and biologically relevant property of DNA because it is involved in the formation and stability of association complexes with proteins. When a DNA tract, intrinsically curved for the periodical recurrence on the same strand of A-tracts phased with the B-DNA periodicity, is deposited on a flat surface, it exposes to that surface either a T- or an A-rich face. The surface of a freshly cleaved mica crystal recognizes those two faces and preferentially interacts with the former one. Statistical analysis of scanning force microscopy (SFM) images provides evidence of this recognition between an inorganic crystal surface and nanoscale structures of double-stranded DNA. This finding could open the way toward the use of the sequence-dependent adhesion to specific crystal faces for nanotechnological purposes.",

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author = "Beatrice Sampaolese and Anna Bergia and Anita Scipioni and Giampaolo Zuccheri and Maria Savino and Bruno Samori and {De Santis}, Pasquale and Massimo Castagnola",

year = "2002",

language = "English",

pages = "13566--13570",

journal = "Proceedings of National Academy of Sciences (PNAS) USA",

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TY - JOUR

T1 - Recognition of DNA sequence by an inorganic crystal surface

AU - Sampaolese, Beatrice

AU - Bergia, Anna

AU - Scipioni, Anita

AU - Zuccheri, Giampaolo

AU - Savino, Maria

AU - Samori, Bruno

AU - De Santis, Pasquale

AU - Castagnola, Massimo

PY - 2002

Y1 - 2002

N2 - The sequence-dependent curvature is generally recognized as an important and biologically relevant property of DNA because it is involved in the formation and stability of association complexes with proteins. When a DNA tract, intrinsically curved for the periodical recurrence on the same strand of A-tracts phased with the B-DNA periodicity, is deposited on a flat surface, it exposes to that surface either a T- or an A-rich face. The surface of a freshly cleaved mica crystal recognizes those two faces and preferentially interacts with the former one. Statistical analysis of scanning force microscopy (SFM) images provides evidence of this recognition between an inorganic crystal surface and nanoscale structures of double-stranded DNA. This finding could open the way toward the use of the sequence-dependent adhesion to specific crystal faces for nanotechnological purposes.

AB - The sequence-dependent curvature is generally recognized as an important and biologically relevant property of DNA because it is involved in the formation and stability of association complexes with proteins. When a DNA tract, intrinsically curved for the periodical recurrence on the same strand of A-tracts phased with the B-DNA periodicity, is deposited on a flat surface, it exposes to that surface either a T- or an A-rich face. The surface of a freshly cleaved mica crystal recognizes those two faces and preferentially interacts with the former one. Statistical analysis of scanning force microscopy (SFM) images provides evidence of this recognition between an inorganic crystal surface and nanoscale structures of double-stranded DNA. This finding could open the way toward the use of the sequence-dependent adhesion to specific crystal faces for nanotechnological purposes.

KW - acidi nucleici

KW - struttura

KW - acidi nucleici

KW - struttura

UR - http://hdl.handle.net/10807/25533

M3 - Article

SP - 13566

EP - 13570

JO - Proceedings of National Academy of Sciences (PNAS) USA

JF - Proceedings of National Academy of Sciences (PNAS) USA

ER -

Recognition of DNA sequence by an inorganic crystal surface

Abstract

Keywords

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