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Life Technologies Corporation et al v. Biosearch Technologies, Inc. DC
- 3:12-cv-00852
- N.D. Cal.
- Judge: William H. Alsup +1
- Filed: 02/22/2012
- Closed: 10/03/2012
- Latest Docket Entry: 10/03/2012
- PACER
- Docket updated daily
2
Plaintiffs
3
Defendants
1
Accused
Product
5
Patents-in-Suit
1,112
Days in
Litigation
-
Life Technologies Corporation et al v. Biosearch Technologies, Inc. DC
- 3:12-cv-00852
- N.D. Cal.
- Judge: William H. Alsup +1
- Filed: 02/22/2012
- Closed: 10/03/2012
- Latest Docket Entry: 10/03/2012
- PACER
- Docket updated daily
Cause of Action
Willful Patent Infringement
Market Sector
Biotech and Pharma
Referred Judge
Assigned Judge
Outcome Summary
- Patent Information
-
Validity & Enforceability
Claim # | Claim Text | Outcome |
---|---|---|
1 |
A method for detecting a target polynucleotide in a sample comprising: contacting said sample of nucleic acids with an oligonucleotide probe under conditions where said oligonucleotide probe selectively hybridizes to said target polynucleotide,
view more
|
Invalid (102)
Entry 397 |
3 |
The method according to claim 1 wherein said reporter molecule is separated from said quencher molecule by at least 15 nucleotides.
|
Invalid (102)
Entry 397 |
4 |
The method according to claim 1 wherein said reporter molecule is separated from said quencher molecule by between 15 and 60 nucleotides.
|
Invalid (102)
Entry 397 |
Claim # | Claim Text | Outcome |
---|---|---|
1 |
A method for detecting a target polynucleotide in a sample comprising: contacting said sample of nucleic acids with an oligonucleotide probe under conditions where said oligonucleotide probe selectively hybridizes to said target polynucleotide,
view more
|
Invalid (102)
Entry 397 |
3 |
The method according to claim 1 wherein said reporter molecule is separated from said quencher molecule by at least 15 nucleotides.
|
Invalid (102)
Entry 397 |
4 |
The method according to claim 1 wherein said reporter molecule is separated from said quencher molecule by between 15 and 60 nucleotides.
|
Invalid (102)
Entry 397 |
7 |
The method according to claim 1 wherein said reporter molecule is attached to a 3' terminal nucleotide of said oligonucleotide probe.
|
Invalid (102)
Entry 397 |
8 |
The method according to claim 7 wherein said quencher molecule is attached to a 5' terminal nucleotide of said oligonucleotide probe.
|
Invalid (102)
Entry 397 |
12 |
The method according to claim 1 wherein said quencher molecule is attached to a 5' terminal nucleotide of said oligonucleotide probe.
|
Invalid (102)
Entry 397 |
13 |
The method according to claim 1 wherein said reporter molecule is a fluorescein dye and said quencher molecule is a rhodamine dye.
|
Invalid (102)
Entry 397 |
14 |
The method according to claim 1 wherein said quencher is fluorescent and the fluorescence intensity of said reporter molecule is greater than the fluorescence intensity of said quencher molecule when said oligonucleotide probe is hybridized to
view more
|
Invalid (102)
Entry 397 |
16 |
A method for detecting a target polynucleotide in a sample comprising: contacting said sample of nucleic acids with an oligonucleotide probe under conditions where said oligonucleotide probe selectively hybridizes to said target polynucleotide,
view more
|
Invalid (102)
Entry 397 |
Claim # | Claim Text | Outcome |
---|---|---|
26 |
An oligonucleotide probe comprising: an oligonucleotide sequence which does not hybridize with itself to form a hairpin structure; a fluorescent reporter molecule attached to said oligonucleotide sequence; and a quencher molecule capable of
view more
|
Invalid (102)
Entry 397 |
28 |
The oligonucleotide probe according to claim 26 wherein said reporter molecule is separated from said quencher molecule by between 15 and 60 nucleotides.
|
Invalid (102)
Entry 397 |