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Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions.

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Research Abstract Details

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Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Abstract Text:

Zheyuan Zhao,Hiroshi Matsui,

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Publishing Authors By Initials

Z Zhao,H Matsui,

For similar natural sciences: chemistry: chemistry, physical: surface properties research abstracts see: natural sciences: chemistry: chemistry, physical: surface properties research

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Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Journal Published:

PUBLICATION TYPE: Research Support, U.S. Gov't,

Journal: Small (Weinheim an der Bergstrasse, Germany)

VOLUME: 3

Page Numbers: 1390-3

Journal Abbreviation:

ISSN: 1613-6829

DAY: 3

MONTH: Aug

YEAR: 2007

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Information

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LANGUAGE: eng

NlmUniqueID: 101235338

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Keywords Mesh Terms:

KEYWORDS: Surface Properties

MESH TERMS: methods

Chemical & Substance for Abstract: Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Information

Substance Name: Peptides

Registry Number: 0

Grant and Affiliation Information for Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions.

AFFILIATION: Department of Chemistry and Biochemistry, City University of New York, Hunter College, New York, NY 10021, USA.

Country: Germany

AGENCY: United States NCRR

GRANT: G12-RR-03037

ACRONYM: RR

MEDLINETA: Small

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Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions.

Research Abstract Table of Contents

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Abstract Text:

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Publishing Authors By Initials

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Journal Published:

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Information

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Keywords Mesh Terms:

Chemical & Substance for Abstract: Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions. Information

Grant and Affiliation Information for Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions.

Accurate immobilization of antibody-functionalized peptide nanotubes on protein-patterned arrays by optimizing their ligand-receptor interactions Related Publications

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