| A representative listing of Enzo’s U.S. patents follows: |
| Patent# |
Title |
Inventor |
| 5,241,060 |
Base moiety-labeled detectable
nucleotide |
Engelhardt
et al. |
| 5,260,433 |
Saccharide specific binding system
labeled nucleotides |
Engelhardt
et al. |
| 4,994,373 |
Method and structures employing
chemically-labeled polynucleotide probes |
Stavrianopoulos
et al. |
| 4,767,609 |
Therapeutic and diagnostic processes
using isotope transfer to chelator-target recognition
molecule conjugate |
J.Stavrianopoulos |
| 4,772,548 |
Radioisotopicassay using isotope
transfer to chelator-target recognition molecule conjugate |
J.Stavrianopoulos |
| 4,843,122 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 4,943,523 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 4,849,208 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 4,952,685 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 5,002,885 |
Detectable molecules, method preparation
and use |
J.Stavrianopoulos |
| 5,013,831 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 5,175,269 |
Compound and detectable molecules
having an oligo- or polynucleotide with modifiable reactive
group |
J.Stavrianopoulos |
| 4,849,505 |
Detectable molecules, method of
preparation and use |
J.Stavrianopoulos |
| 4,889,798 |
Heterologous system for the detection
of chemically labeled DNA and other biological materials
providing a receptor or target moiety thereon |
E. Rabbani |
| 4,894,325 |
Hybridization method for the detection
of genetic material |
Engelhardt
et al. |
| 5,288,609 |
Capture sandwich hybridization
method and composition |
Engelhardt
et al. |
| 6,221,581B1 |
Processes for detecting polynucleotides,
determining genetic mutations or defects in genetic
material, separating or isolating nucleic acid of interest
from samples, and useful compositions of matter and
multihybrid complex compositions. |
Engelhardt
et al. |
| 4,987,065 |
In vivo labeling of polynucleotide
sequences |
Stavrianopolous
et al. |
| 4,755,458 |
Composition and method for the
detection of the presence of a polynucleotide sequence
of interest |
Rabbani
et al. |
| 4,746,604 |
Specific binding assays utilizing
a viable cell as a label |
S. Moshowitz |
| 4,900,659 |
Nucleotide sequence composition
and method for detection of Neisseria Gonorrhoeae and
Method for screening for a nucleotide sequence that
is specific for a genetically distinct group |
Lo et
al. |
| 4,868,103 |
Analyte detection by means of
energy transfer |
Stavrianopoulos
et al. |
| 5,384,241 |
Specific binding assay compound
with inhibitive self-quenching characteristics |
S. Kline |
| 5,272,065
* |
Regulation of gene expression
by employing translational inhibition of mRNA utilizing
interfering complementary mRNA |
Inouye
et al. |
| 5,082,830 |
End labeled nucleotide probe |
Brakel
et al. |
| 5,024,933 |
Method and kit for sample adherence
to test substrate |
Yang
et al. |
| 5,061,076 |
Time-resolved fluorometer |
I. Hurley |
| 5,998,135 |
Energy Transfer Hybridization
Assay Using Intercalators And Lanthanide Metals |
Rabbani
et al. |
| 5,989,809 |
Methods For Detecting a Polynucleotide
using An Inactivating Reagent and Composition and Kit
Comprising Same |
Wetmur
et al. |
| 5,958,681 |
Branch migration of nucleotides |
Wetmur
et al. |
| 6,358,685
B1 |
Nucleic Acid Displacer Compositions
and Cells Comprising Same |
Wetmur
et al. |
| 6,764,821
B1 |
Detecting the presence of specific target nucleic acid sequences through stem-loop formation |
Rabbani
et al. |
| 6,743,605
B1 |
Linear amplification of specific nucleic acid sequences |
Rabbani
et al. |
|
| *Exclusively licensed
from The Research Foundation of The State University of
New York |
|
|
