Results for:
Species: Tilletia controversa

N,N-dimethylmethanamine

Mass-Spectra

Compound Details

Synonymous names
trimethylamine
N,N-dimethylmethanamine
75-50-3
Methanamine, N,N-dimethyl-
N-Trimethylamine
Dimethylmethaneamine
Trimethylamin
(CH3)3N
FEMA No. 3241
FEMA Number 3241
N,N,N-trimethylamine
NMe3
Trimethylamine anhydrous
CCRIS 6283
HSDB 808
trimethyl-amine
AI3-15639
EINECS 200-875-0
UNII-LHH7G8O305
UN1083
UN1297
TRIMETHYLAMINUM
LHH7G8O305
tridimethylaminomethane
DTXSID2026238
CHEBI:18139
Trimethylamine, anhydrous
Methylamine, N,N-dimethyl-
DTXCID106238
N(CH3)3
EC 200-875-0
MFCD00008327
Trimethylamine, anhydrous [UN1083] [Flammable gas]
TRIMETHYL AMINE
(CH3)3NH
(CH3)3NH+
MELDONIUM DIHYDRATE IMPURITY A (EP IMPURITY)
MELDONIUM DIHYDRATE IMPURITY A [EP IMPURITY]
ACETYLCHOLINE CHLORIDE IMPURITY C (EP IMPURITY)
ACETYLCHOLINE CHLORIDE IMPURITY C [EP IMPURITY]
tri-methylamine
KEN
dimethylamino methane
trimethylamine (tma)
N,N-dimethyl-Methanamine
N,N-Dimethylmethanamine #
bmse000224
TRIMETHYLAMINE [MI]
NCIOpen2_007868
TRIMETHYLAMINE [FCC]
TRIMETHYLAMINE [FHFI]
TRIMETHYLAMINE [HSDB]
Trimethylamine, >=99.0%
Trimethylamine, >=99.5%
Trimethylamine 2.0M in THF
TRIMETHYLAMINUM [HPUS]
CHEMBL439723
GTPL5521
Trimethylamine 2M in Isopropanol
TRIMETHYLAMINE, (ANHYDROUS)
Trimethylamine, 43-49% in water
Trimethylamine, anhydrous, >=99%
Tox21_302355
BDBM50416499
NSC101179
STL264242
AKOS000119986
MCULE-7903544426
NSC-101179
UN 1083
UN 1297
CAS-75-50-3
NCGC00255170-01
InChI=1/C3H9N/c1-4(2)3/h1-3H
NS00006832
T0464
T2268
T2704
T2892
T2893
T3567
T3614
T3847
C00565
Trimethylamine (ca.8% in N,N-Dimethylformamide)
Q423953
Trimethylamine (~25 wt. % solution in methanol)
Trimethylamine (~30 wt. % Solution in Ethanol)
Trimethylamine (ca. 8% in Toluene, ca. 1mol/L)
F1908-0091
Trimethylamine (ca. 13% in Acetonitrile, ca. 2mol/L)
Trimethylamine (ca. 25% in Isopropyl Alcohol, ca. 3mol/L)
Trimethylamine solution (ca. 28% in Water, ca. 4.3mol/L)
Trimethylamine solution (ca. 25% in Isopropyl Alcohol, ca. 3mol/L)
Trimethylamine, anhydrous, cylinder, with 316SS needle valve, 99%
Microorganism:

Yes

IUPAC nameN,N-dimethylmethanamine
SMILESCN(C)C
InchiInChI=1S/C3H9N/c1-4(2)3/h1-3H3
FormulaC3H9N
PubChem ID1146
Molweight59.11
LogP0.3
Atoms4
Bonds0
H-bond Acceptor1
H-bond Donor0
Chemical Classificationamines nitrogen compounds
CHEBI-ID18139
Supernatural-IDSN0103747

mVOC Specific Details

Boiling Point
DegreeReference
2.87 °C peer reviewed
Volatilization
The Henry's Law constant for trimethylamine is 1.0X10-4 atm-cu m/mole(1). This Henry's Law constant indicates that trimethylamine is expected to volatilize from water surfaces(2). However, trimethylamine is a base with pKa of 9.8(3) and will exist primarily as a cation under environmental conditions (pH 5-9)(SRC). Thus, volatilization of trimethylamine from moist soil and water surfaces will not be an important fate process because cations do not volatilize(SRC). The potential for volatilization of trimethylamine from dry soil surfaces may exist(SRC) based upon a vapor pressure of 1,610 mm Hg(4).
Literature: (1) Christie AO, Crisp DJ; J Appl Chem 17: 11-4 (1967) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Perinn DD; Dissociation Constants of Organic Bases in Aqueous Solution. IUPAC Chem Data Ser: Suppl 1972. London, England: Buttersworth (1972) (4) Daubert TE, Danner RP; Physical and Thermodynamic Properties of Pure Chemicals: Data Compilation. Design Inst Phys Prop Data, Amer Inst Chem Eng, NY, NY: Hemisphere Pub Corp, 5 Vol (1989)
Soil Adsorption
The Koc of trimethylamine is estimated as 29(SRC), using a log Kow of 0.16(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that trimethylamine is expected to have very high mobility in soil(SRC). However, trimethylamine has a pKa of 9.8(4) and should exist primarily as a cation under environmental conditions (pH 5-9)(SRC). As a result, trimethylamine may have greater adsorption and less mobility than its estimated Koc value indicates since cations generally adsorb more strongly to soils containing organic carbon and clay than neutral species(5). Sorption coefficients for trimethylamine adsorption on montmorillonite, kaolinite and Flax Pond sediment (7% clay, 2.8% OM; Long Island, NY) were 15, 2 and 7 ml/g, respectively(6). The trimethylamine cation adsorbed strongest to the negatively-charged montmorillonite via electrostatic interactions(6).
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 9 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17- 28 (1983) (4) Perrin DD; Dissociation Constants of Organic Bases in Aqueous Solution. IUPAC Chem Data Ser: Suppl 1972. Buttersworth, London (1972) (5) Doucette WJ; pp. 141-188 in Handbook of Property Estimation Methods for Chemicals. Boethling RS, Mackay D, eds. Boca Raton, FL: Lewis Publ (2000) (6) Wang XC, Lee C; Mar Chem 44: 1-23 (1993)
Vapor Pressure
PressureReference
1610 mm Hg at 25 deg CDaubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEnterococcus FaecalisTYESIFT-MSno
ProkaryotaEscherichia ColiBacT/ALERT FASIFT-MSno
ProkaryotaEscherichia ColiTYESIFT-MSno
ProkaryotaProteus MirabilisTYESIFT-MSno
ProkaryotaPseudomonas AeruginosaTYESIFT-MSno
ProkaryotaStaphylococcus AureusBacT/ALERT FASIFT-MSno
ProkaryotaStaphylococcus AureusTYESIFT-MSno
ProkaryotaStreptococcus PneumoniaeBacT/ALERT FASIFT-MSno
EukaryotaTilletia Cariesn/an/ano
EukaryotaTilletia Foetidan/an/ano
EukaryotaTilletia Controversan/an/ano
ProkaryotaStreptomyces Sp.YPD agarGCxGC-TOFMSyes
ProkaryotaStaphylococcus Aureusno