Stock material or miscellaneous articles – Composite – Of polyamide
Reexamination Certificate
2002-03-06
2004-11-09
Nutter, Nathan M. (Department: 1711)
Stock material or miscellaneous articles
Composite
Of polyamide
C435S181000, C435S960000, C436S528000, C436S532000, C436S809000
Reexamination Certificate
active
06815078
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to fabricating protein microarrays in general and in particular to a method that utilizes a gelatin-based substrate wherein the gelatin surface is modified to improve specific attachment of biological molecules.
BACKGROUND OF THE INVENTION
The completion of Human Genome project spurred the rapid growth of a new interdisciplinary field of proteomics which includes: identification and characterization of complete sets of proteins encoded by the genome, the synthesis of proteins, post-translational modifications, as well as detailed mapping of protein interaction at the cellular regulation level.
While 2-dimensional gel electrophoresis in combination with mass spectrometry still remains the dominant technology in proteomics study, the successful implantation and application of DNA microarray technology to gene profiling and gene discovery have prompted scientists to develop protein microarray technology and apply microchip based protein assays to the field of proteomics. For example, in WO 00/04382 and WO 00/04389, a method of fabricating protein microarrays is disclosed. A key element in the disclosure is a substrate consisting of a solid support coated with a monolayer of thin organic film on which protein or a protein capture agent can be immobilized.
Nitrocellulose membrane was widely used as a protein blotting substrate in Western blotting and enzyme linked immunosorbent assay (ELISA). In WO 01/40312 and WO 01/40803, antibodies are spotted onto a nitrocellulose membrane using a gridding robot device. Such spotted antibody microarrays on a nitrocellulose membrane substrate have been shown to be useful in analyzing protein mixture in a large parallel manner.
In WO 98/29736, L. G. Mendoza et al. describe an antibody microarray with antibody immobilized onto a N-hydroxysuccinimidyl ester modified glass substrate. In U.S. Pat. No. 5,981,734 and WO 95/04594, a polyacrylamide based hydrogel substrate technology is described for the fabrication of DNA microarrays. More recently, in
Anal. Biochem
. (2000) 278, 123-131, the same hydrogel technology was further demonstrated as useful as a substrate for the immobilization of proteins in making protein microarrays.
In the above cited examples, the common feature among these different approaches is the requirement of a solid support that allows covalent or non-covalent attachment of a protein or a protein capture agent on the surface of said support. In DNA microarray technology, a variety of surfaces have been prepared for the deposition of pre-synthesized oligos and PCR prepared cDNA probes. For example, in EP 1 106 603 A2 a method of preparing vinylsulfonyl reactive groups on the surface to manufacture DNA chip is disclosed. Even though the invention is useful in preparing DNA chip, it is not suitable for protein microarray applications. Unlike DNA, proteins tend to bind to surfaces in a non-specific manner and, in doing so, lose their biological activity. Thus, the attributes for a protein microarray substrate are different from those for a DNA microarray substrate in that the protein microarray substrate must not only provide surface functionality that are capable of interacting with protein capture agents, but must also resist non-specific protein binding to areas where no protein capture agents have been deposited.
Bovine serum albumin (BSA) has been demonstrated to be a useful reagent in blocking proteins from non-specific surface binding. Polyethylene glycol and phospholipids have also been used to passivate surfaces and provide a surface resistant to non-specific binding. However, all of these methods suffer disadvantages either because surface preparation takes a long time or because the method of surface modification is complex and difficult, making the method less than an ideal choice for large scale industrial manufacture.
U.S. Ser. No. 10/020,747, describes a low cost method of making protein microarray substrate using gelatin coating to create a reactive surface for immobilization of protein capture agents. While the gelatin modified surface effectively eliminates non-specific protein binding, the number of reactive sites on the surface are limited by the intrinsic functional groups in gelatin and the type of chemical agents (A-L-B) employed. Since the number of reactive sites on the surface directly determine the ultimate signal detection limit, it is desirable to create a surface with higher number of reactive sites that serve as a matrix on a solid support for the attachment of protein capture agents. The art needs a substrate with chemical functionality for the immobilization of protein capture agents, but such substrate must not bind proteins to areas on the gelatin surface that are without immobilized protein capture agents.
SUMMARY OF THE INVENTION
The present invention seeks to solve some of the problems discussed above by providing:
A gelatin-based substrate for fabricating protein arrays, the substrate comprising:
gelatin having at least one surface;
a polymer scaffold affixed to the gelatin surface; and
the polymer scaffold in interaction with/bonded to/a trifunctional compound A-L-B;
wherein A is a functional group capable of interacting with the protein scaffold; L is a linking group capable of interacting with A and with B; and B is a functional group capable of interacting with a protein capture agent.
Also A method of making a gelatin-based substrate for fabricating protein arrays comprising the steps of:
providing a support;
coating on the support a composition containing gelatin;
bonding a polymer scaffold to a surface of the gelatin; wherein the polymer in the scaffold is rich in reactive units capable of immobilizing proteins.
The invention is particularly useful in fabricating protein microarrays. It provides a substrate with functionalities capable of interacting specifically with protein capture agents immobilized on its surface and that is substantially resistant to non-specific binding.
Substrates prepared with gelatin modified according to this invention require a very low concentration of biological sample in fabricating protein microarrays when compared with unmodified gelatin substrates. The gelatin substrates of the invention can be readily manufactured at low cost. The usefulness of the claimed substrate for protein attachment is demonstrated below in the examples, using several chemical modification methods and enzyme linked immunosorbent assay (ELISA).
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patent: 5110833 (1992-05-01), Mosbach
patent: 5981734 (1999-11-01), Mirzabekov et al.
patent: 1 106 603 (2001-06-01), None
patent: WO 95/04594 (1995-02-01), None
patent: WO 98/29736 (1998-07-01), None
patent: WO 00/04382 (2000-01-01), None
patent: WO 00/04389 (2000-01-01), None
patent: WO 01/40312 (2001-06-01), None
patent: WO 01/40803 (2001-06-01), None
Analytical Biochemistry278, 123-131 (2000), “Protein Microchips: Use for Immunoassay and Enzymatic Reactions,” by Pavel Arenkov et al.
Edgar B. Gutoff, Chapter 1 of “Modern Coating and Drying Technology,” (Interfacial Engineering Series; v.1), 1992, VCH Publishers Inc. New York, N.Y.
Science, vol. 249, 505-510, 1990, “Systematic Evolution of Ligands by Exponential Enrichment: RNA Ligands to Bacteriophage T4 DNA Polymerase,” Craig Tuerk and Larry Gold.
Nature, vol. 346, pp 818-822, 1990, “In vitro selection of RNA molecules that bind specific ligands,” Andrew D. Ellington & Jack W. Szostak.
Qiao et al., Method for Making Biochip Substrate, USSN 10/020,747 (Attorney Docket No. 82429/D-W), filed Nov. 30, 2001.
P.I. Rose, “The Theory of the Photographic Process,” 4th edition, T.H. James Ed., pp. 51-67, 1977.
Leon Jeffrey W.
Penner Thomas L.
Qiao Tiecheng A.
Yang Zhihao
Eastman Kodak Company
Manne Kathleen Neuner
Nutter Nathan M.
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