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molecular formula C17H18N2O6 B3420541 Nifedipine CAS No. 193689-82-6

Nifedipine

货号 B3420541
分子量: 346.3 g/mol
InChI 键: HYIMSNHJOBLJNT-UHFFFAOYSA-N
注意: 仅供研究使用。不适用于人类或兽医用途。
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Patent
US04784955

Procedure details

Nifedipine-isothiocyanate was also coupled to casein, ovalbumin and keyhole limpet hemocyanin using the procedures described above. An alternate procedure for the coupling of nifedipine-isothiocyanate to various proteins (i.e., bovine serum albumin, ovalbumin, casein and keyhole limpet hemocyanin) was to dissolve the protein (20 mg) in 2 ml of 100 mM sodium bicarbonate (pH 9.0) and then incubate with 0.8 mg of nifedipine-isothiocyanate (dissolved in ethanol to make the final concentration of ethanol in the incubation medium 38 percent) for 24 hours at 37° C. with shaking in the dark. This alternate procedure is useful for producing nifedipine conjugates at high protein concentrations.
Name
Nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Reaction Step One
Name
nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Reaction Step Two
Name
nifedipine isothiocyanate
Quantity
0.8 mg
Type
reactant
Reaction Step Three
Quantity
2 mL
Type
solvent
Reaction Step Four
Quantity
0 (± 1) mol
Type
solvent
Reaction Step Five
Quantity
0 (± 1) mol
Type
solvent
Reaction Step Six

Identifiers

REACTION_CXSMILES
[CH3:1][C:2]1[NH:7][C:6]([CH3:8])=[C:5]([C:9]([O:11][CH3:12])=[O:10])[CH:4]([C:13]2[CH:14]=[CH:15][CH:16]=[CH:17][C:18]=2[N+:19]([O-:21])=[O:20])[C:3]=1[C:22]([O:24][CH3:25])=[O:23].[N-]=C=S>C(=O)(O)[O-].[Na+].C(O)C>[CH3:1][C:2]1[NH:7][C:6]([CH3:8])=[C:5]([C:9]([O:11][CH3:12])=[O:10])[CH:4]([C:13]2[CH:14]=[CH:15][CH:16]=[CH:17][C:18]=2[N+:19]([O-:21])=[O:20])[C:3]=1[C:22]([O:24][CH3:25])=[O:23] |f:0.1,2.3|

Inputs

Step One
Name
Nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Two
Name
nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Three
Name
nifedipine isothiocyanate
Quantity
0.8 mg
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Four
Name
Quantity
2 mL
Type
solvent
Smiles
C([O-])(O)=O.[Na+]
Step Five
Name
Quantity
0 (± 1) mol
Type
solvent
Smiles
C(C)O
Step Six
Name
Quantity
0 (± 1) mol
Type
solvent
Smiles
C(C)O

Conditions

Stirring
Type
CUSTOM
Details
with shaking in the dark
Rate
UNSPECIFIED
RPM
0
Other
Conditions are dynamic
1
Details
See reaction.notes.procedure_details.

Workups

CUSTOM
Type
CUSTOM
Details
for 24 hours
Duration
24 h
CUSTOM
Type
CUSTOM
Details
at 37° C.

Outcomes

Product
Name
Type
product
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC

Source

Source
Open Reaction Database (ORD)
Description
The Open Reaction Database (ORD) is an open-access schema and infrastructure for structuring and sharing organic reaction data, including a centralized data repository. The ORD schema supports conventional and emerging technologies, from benchtop reactions to automated high-throughput experiments and flow chemistry. Our vision is that a consistent data representation and infrastructure to support data sharing will enable downstream applications that will greatly improve the state of the art with respect to computer-aided synthesis planning, reaction prediction, and other predictive chemistry tasks.
Patent
US04784955

Procedure details

Nifedipine-isothiocyanate was also coupled to casein, ovalbumin and keyhole limpet hemocyanin using the procedures described above. An alternate procedure for the coupling of nifedipine-isothiocyanate to various proteins (i.e., bovine serum albumin, ovalbumin, casein and keyhole limpet hemocyanin) was to dissolve the protein (20 mg) in 2 ml of 100 mM sodium bicarbonate (pH 9.0) and then incubate with 0.8 mg of nifedipine-isothiocyanate (dissolved in ethanol to make the final concentration of ethanol in the incubation medium 38 percent) for 24 hours at 37° C. with shaking in the dark. This alternate procedure is useful for producing nifedipine conjugates at high protein concentrations.
Name
Nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Reaction Step One
Name
nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Reaction Step Two
Name
nifedipine isothiocyanate
Quantity
0.8 mg
Type
reactant
Reaction Step Three
Quantity
2 mL
Type
solvent
Reaction Step Four
Quantity
0 (± 1) mol
Type
solvent
Reaction Step Five
Quantity
0 (± 1) mol
Type
solvent
Reaction Step Six

Identifiers

REACTION_CXSMILES
[CH3:1][C:2]1[NH:7][C:6]([CH3:8])=[C:5]([C:9]([O:11][CH3:12])=[O:10])[CH:4]([C:13]2[CH:14]=[CH:15][CH:16]=[CH:17][C:18]=2[N+:19]([O-:21])=[O:20])[C:3]=1[C:22]([O:24][CH3:25])=[O:23].[N-]=C=S>C(=O)(O)[O-].[Na+].C(O)C>[CH3:1][C:2]1[NH:7][C:6]([CH3:8])=[C:5]([C:9]([O:11][CH3:12])=[O:10])[CH:4]([C:13]2[CH:14]=[CH:15][CH:16]=[CH:17][C:18]=2[N+:19]([O-:21])=[O:20])[C:3]=1[C:22]([O:24][CH3:25])=[O:23] |f:0.1,2.3|

Inputs

Step One
Name
Nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Two
Name
nifedipine isothiocyanate
Quantity
0 (± 1) mol
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Three
Name
nifedipine isothiocyanate
Quantity
0.8 mg
Type
reactant
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC.[N-]=C=S
Step Four
Name
Quantity
2 mL
Type
solvent
Smiles
C([O-])(O)=O.[Na+]
Step Five
Name
Quantity
0 (± 1) mol
Type
solvent
Smiles
C(C)O
Step Six
Name
Quantity
0 (± 1) mol
Type
solvent
Smiles
C(C)O

Conditions

Stirring
Type
CUSTOM
Details
with shaking in the dark
Rate
UNSPECIFIED
RPM
0
Other
Conditions are dynamic
1
Details
See reaction.notes.procedure_details.

Workups

CUSTOM
Type
CUSTOM
Details
for 24 hours
Duration
24 h
CUSTOM
Type
CUSTOM
Details
at 37° C.

Outcomes

Product
Name
Type
product
Smiles
CC1=C(C(C(=C(N1)C)C(=O)OC)C=2C=CC=CC2[N+](=O)[O-])C(=O)OC

Source

Source
Open Reaction Database (ORD)
Description
The Open Reaction Database (ORD) is an open-access schema and infrastructure for structuring and sharing organic reaction data, including a centralized data repository. The ORD schema supports conventional and emerging technologies, from benchtop reactions to automated high-throughput experiments and flow chemistry. Our vision is that a consistent data representation and infrastructure to support data sharing will enable downstream applications that will greatly improve the state of the art with respect to computer-aided synthesis planning, reaction prediction, and other predictive chemistry tasks.
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