Levorphanol

A summary of the most common chemical descriptors (InChI Key and SMILES codes) for Levorphanol are summarized together with 3D and 2D structures and relevant physico-chemical properties.

What is the Levorphanol?

The molecule Levorphanol presents a molecular formula of C17H23NO and its IUPAC name is (1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.01,10.02,7]heptadeca-2(7),3,5-trien-4-ol.

Levorphanol is a potent opioid analgesic that is structurally similar to methadone. It was first synthesized in the early 1930s and was approved for medical use in the United States in 1953. Levorphanol is used for the relief of moderate to severe pain and is typically given as an oral tablet or an intramuscular injection. The most common side effects of levorphanol include dizziness, drowsiness, and nausea..

3D structure

Cartesian coordinates

Geometry of Levorphanol in x, y and z coordinates (Å units) to copy/paste elsewhere. Generated with Open Babel software.

2D drawing

 

Levorphanol JAQUASYNZVUNQP-USXIJHARSA-N chemical compound 2D structure molecule svg
Levorphanol

 

Molecule descriptors

 
IUPAC name(1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.01,10.02,7]heptadeca-2(7),3,5-trien-4-ol
InChI codeInChI=1S/C17H23NO/c1-18-9-8-17-7-3-2-4-14(17)16(18)10-12-5-6-13(19)11-15(12)17/h5-6,11,14,16,19H,2-4,7-10H2,1H3/t14-,16+,17+/m0/s1
InChI KeyJAQUASYNZVUNQP-USXIJHARSA-N
SMILESCN1CC[C@]23CCCC[C@H]2[C@H]1Cc1ccc(O)cc13

Other names (synonyms)

IUPAC nomenclature provides a standardized method for naming chemical compounds. Although this system is widely used in chemistry, many chemical compounds have also other names commonly used in different contexts. These synonyms can come from a variety of sources and are used for a variety of purposes.

One common source of synonyms for chemical compounds is the common or trivial names, assigned on the basis of appearance, properties, or origin of the molecule.

Another source of synonyms are historical or obsolete names employed in the past, however replaced nowadays by more modern or standardized names.

In addition to common and historical names, chemical compounds may also have synonyms that are specific to a particular field or industry.

  • (+)-cis-1,3,4,9,10,10a-Hexahydro-11-methyl-2H-10,4a-iminoethanophenanthren-6-ol
  • (+-)-17-Methylmorphinan-3-ol
  • (+-)-3-Hydroxy-N-methylmorphinan
  • (+-)-N-Methylmorphinan-3-ol
  • (+/-)-3-Hydroxy-N-methylmorphinan
  • (+/-)-N-METHYL-3-HYDROXYMORPHINAN
  • (+/-)-N-Methylmorphinan-3-ol
  • (-) 3-hydroxy-N-methylmorphinan
  • (-)-3-Hydroxy-N-methylmorphinan
  • (-)-N-Methylmorphinan-3-ol
  • (1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.01,10.02,7]heptadeca-2(7),3,5-trien-4-ol
  • (1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.0?,??.0?,?]heptadeca-2,4,6-trien-4-ol
  • (1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.0^{1,10}.0^{2,7}]heptadeca-2(7),3,5-trien-4-ol
  • (4bR,8aR,9R)-11-methyl-6,7,8,8a,9,10-hexahydro-5H-9,4b-(epiminoethano)phenanthren-3-ol
  • 1,3,4,9,10,10a-Hexahydro-11-methyl-2H-10,4a-iminoethanophenanthren-6-ol, dl-mixture
  • 1,3,4,9,10,10a-Hexahydro-11-methyl-2H-10,4a-iminoethanophenanthren-6-ol, l-
  • 17-Methylmorphinan-3-ol
  • 17-Methylmorphinan-3-ol, (+)- #
  • 27618J1N2X
  • 297-90-5
  • 2H-10, 4a-Iminoethanophenanthren-6-ol, 1,3,4,9,10,10a-hexahydro-11-methyl-, dl-
  • 2H-10,4a-(Iminoethano)phenanthren-6-ol, 1,3,4,9,10,10a-hexahydro-11-methyl-, (+)-
  • 2H-10,4a-Iminoethanophenanthren-6-ol, 1,3,4,9,10,10a-hexahydro-11-methyl-
  • 2H-10,4a-Iminoethanophenanthren-6-ol, 1,3,4,9,10,10a-hexahydro-11-methyl-, l-
  • 77-07-6
  • 77-07-6 (free)
  • 9.alpha.,13.alpha.,14.alpha.-Morphinan-3-ol, 17-methyl-
  • Antalgin
  • Aromarone
  • BDBM224028
  • BDBM50017233
  • BDBM50369518
  • BDBM82427
  • C08014
  • CAS_5985-38-6
  • Cetarin
  • D08123
  • DB00854
  • DEA No. 9220
  • DEA No. 9733
  • Dromoran
  • GTPL7595
  • HSDB 3349
  • IDS-NL-007
  • IDS-NR-003
  • L-morphan
  • LEVORPHANOL HYDROCHLORIDE
  • LEVORPHANOL-tartarate
  • Levorfanol
  • Levorfanolo
  • Levorphan
  • Levorphanal
  • Levorphanol
  • Levorphanol (INN)
  • Levorphanol dl-form
  • Levorphanolum
  • Methorfinan
  • Methorphinan
  • Morphinan, 3-hydroxy-17-methyl-
  • Morphinan, 3-hydroxy-N-methyl, (+)-
  • Morphinan, 3-hydroxy-N-methyl-, (+-)-
  • Morphinan-3-ol, 17-methyl-
  • Morphinan-3-ol, 17-methyl-, (+-)-
  • Morphinan-3-ol, 17-methyl-, (+/-)-
  • Morphinan-3-ol, 17-methyl-, (-)-
  • N-Methyl-3-hydroxymorphinan
  • NU 2206
  • NU-2206
  • Orphan
  • Q2579108
  • Racemic dromoran
  • Racemorfano
  • Racemorphan
  • Racemorphane
  • Racemorphanum
  • Ro 1-5431
  • Ro 1-6794
  • V7R79HN3XD
  • d-Form of levorphanol
  • dl-3-Hydroxy-N-methylmorphinan
  • levorphanol

Reference codes for other databases

There exist several different chemical codes commonly used in orded to identify molecules:
  • ZINC3812984
  • UNII-V7R79HN3XD
  • UNII-27618J1N2X
  • DTXSID3023213
  • DTXSID301016136
  • CHEMBL592
  • CHEBI:6444
  • EINECS 201-002-6
  • EINECS 206-048-0
  • SCHEMBL24335

Physico-Chemical properties

IUPAC name(1R,9R,10R)-17-methyl-17-azatetracyclo[7.5.3.01,10.02,7]heptadeca-2(7),3,5-trien-4-ol
Molecular formulaC17H23NO
Molecular weight257.371
Melting point (ºC)
Boiling point (ºC)
Density (g/cm3)
Molar refractivity82.01
LogP3.0
Topological polar surface area23.5

LogP and topological polar surface area (TPSA) values were estimated using Open Babel software.

The n-octanol/water partition coeficient (Kow) data is applied in toxicology and drug research. Kow values are used, to guess the environmental fate of persistent organic pollutants. High partition coefficients values, tend to accumulate in the fatty tissue of organisms. Molecules with a log(Kow) (or LogP) greater than 5 are considered to bioaccumulate.

TPSA values are the sum of the surface area over all polar atoms or molecules, mainly oxygen and nitrogen, also including hydrogen atoms.

In medicinal chemistry, TPSA is used to assess the ability of a drug to permeabilise cells.

For molecules to penetrate the blood-brain barrier (and act on receptors in the central nervous system), TPSA values below 90 Å2 are required. Thus, molecules with a polar surface area greater than 140 Å2 tend to be poorly permeable to cell membranes.