Chemistry: molecular biology and microbiology – Measuring or testing process involving enzymes or... – Involving nucleic acid
Reexamination Certificate
2000-09-12
2002-03-12
Campbell, Eggerton A. (Department: 1656)
Chemistry: molecular biology and microbiology
Measuring or testing process involving enzymes or...
Involving nucleic acid
C435S091200
Reexamination Certificate
active
06355436
ABSTRACT:
BACKGROUND OF THE INVENTION
I. Field of the Invention
The present invention generally relates to the detection of products, and preferably of biological products (known as “affins”), especially those with a high molecular weight, such as nucleic acids and biopolymers of a proteic nature, e.g. proteins, peptides and the like. More specifically, in one aspect, the present invention relates to a procedure for the qualitative and/or quantitative analysis of substances (and preferably of biological substances) that are present in a conductive liquid medium (“LC”), by means of electrical measurements. In a related aspect, the present invention provides bioelectronic or biochemical affinity sensors intended for use in the implementation of the detection methods of the invention.
In particularly preferred aspects, the methods and apparatuses of the invention are used in the detection of nucleic acids, e.g., RNA and DNA, and all genetic structures that contain them, as well as compounds that are capable of being involved in immunological coupling reactions, e.g., antigens (Ag) and antibodies (Abs).
II. Background
In order to detect, identify, or quantify nucleic acids, antibodies, antigens and the like, use has been made of their bioaffinity properties, i.e., their ability to specifically pair with their complements, in accordance with genetic hybridization or immunological coupling mechanisms.
For example, typical immunological methods are based on the antigen/antibody coupling mechanism, and involve detection of the resulting antigen/antibody pairs with the aid of radioactive, fluorescent, stained, or similar enzymatic markers. Such methods have proven to be time-consuming and complex to implement. Furthermore, the reactions that are utilized are tedious and not readily available. Finally, these methods do not allow measurements to be made continuously, much less in vivo. Similar methods with similar drawbacks have also been used in the detection of nucleic sequences.
In another approach, detection methods have been proposed that rely on the detection of a number of different physical signals that can be induced by the biochemical nucleotide hybridization or immunological coupling reactions. To do so, it is first generally necessary to isolate a particular and characteristic type of signal and then to utilize a transducer that is suitable for converting that signal into a measurable physical magnitude. For example, the signal may consist of the production of a chemical species, a change in thickness, a change in the optical index, a change in mass, or even a change in electrical charge. Consequently, the transducers may consist of electrochemical, piezoelectric, optical, or electrical sensors. Despite these proposed methods, difficulties still exist in the detection of specific signals indicating that pairing has taken place, and in the development of a corresponding transducer that is reliable, sensitive, and dependable.
SUMMARY OF THE INVENTION
The present invention generally provides methods and apparatuses for the detection of biological substances in conductive liquid media. In a first aspect, the methods of the present invention comprise providing at least one affinity sensor which includes at least one structure having at least one semiconductor (Sc) material coated on one surface with at least one isolating layer (Is) and at least one sensitive membrane (Mbs) affixed to said isolating layer. The sensitive membrane is in fluid contact with a conductive medium (LC) and includes ligands that are complementary to and capable of forming hybridizing pairs with the biological substances to be detected. A voltage is applied between the semiconductor and the conductive medium and variations in electrical signals resulting from pairings of the biological substances in the conductive medium with the ligands coupled on the sensitive membrane are detected. The variations in electrical signals detected in said detecting step are then interpreted in order to detect said biological substances.
In an additional aspect, the present invention provides an affinity sensor for detecting biological substances present in a conductive liquid medium (LC), which comprises at least one Sc/Is/Mbs structure. The Mbs includes ligands capable of forming specific pairs with the biological substances, thereby causing a charge-effect which produces measurable variations in an electrical signal.
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Lawrence Marcus Francois
Martin Jean-Rene
Mikkelsen Susan Rosalie
Souteyrand Eliane
Campbell Eggerton A.
L'Ecole Centrale de Lyon
Morgan & Lewis & Bockius, LLP
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