2-Acetyl-3-methylpyrazine

Formula: C₇H₈N₂O
Molecular weight: 136.1512
IUPAC Standard InChI: InChI=1S/C7H8N2O/c1-5-7(6(2)10)9-4-3-8-5/h3-4H,1-2H3
IUPAC Standard InChIKey: QUNOTZOHYZZWKQ-UHFFFAOYSA-N
CAS Registry Number: 23787-80-6
Chemical structure:
This structure is also available as a 2d Mol file or as a computed 3d SD file
The 3d structure may be viewed using Java or Javascript.
Other names: Ethanone, 1-(3-methylpyrazinyl)-; 1-(3-Methyl-2-pyrazinyl)ethanone; 1-[3-Methyl-2-pyrazinyl]-1-ethanone; 3-Acetyl-2-methylpyrazine; Pyrazine, 2-acetyl-3-methyl; Pyrazine, 3-acetyl-2-methyl; 1-(3-methylpyrazinyl)ethan-1-one
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Other data available:
- IR Spectrum
- Mass spectrum (electron ionization)
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Gas Chromatography

Data compiled by: NIST Mass Spectrometry Data Center, William E. Wallace, director

Van Den Dool and Kratz RI, non-polar column, temperature ramp

Column type	Active phase	I	Reference	Comment
Capillary	DB-5	1080.	Wu and Cadwallader, 2002	30. m/0.32 mm/0.25 μm, He, 40. C @ 5. min, 10. K/min, 220. C @ 30. min
Capillary	DB-1	1097.	Wu, Wang, et al., 2000	60. m/0.25 mm/1. μm, N2, 5. K/min, 200. C @ 30. min; T_start: 30. C

Van Den Dool and Kratz RI, polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	DB-Wax	1628.	Wu and Cadwallader, 2002	30. m/0.32 mm/1. μm, He, 40. C @ 5. min, 10. K/min, 200. C @ 30. min
Capillary	DB-Wax	1640.	Le Guen, Prost, et al., 2000	60. m/0.32 mm/0.5 μm, He, 40. C @ 2. min, 4. K/min, 250. C @ 10. min
Capillary	Supelcowax-10	1630.	Chung, 1999	60. m/0.25 mm/0.25 μm, He, 35. C @ 5. min, 2. K/min, 195. C @ 90. min
Capillary	Supelcowax-10	1615.	Cadwallader, Tan, et al., 1995	60. m/0.25 mm/0.25 μm, He, 40. C @ 5. min, 2. K/min, 200. C @ 30. min

Van Den Dool and Kratz RI, polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	Supelcowax-10	1635.	Bianchi, Careri, et al., 2007	30. m/0.25 mm/0.25 μm, He; Program: 35C(8min) => 4C/min => 60C => 6C/min => 160C => 20C/min => 200C(1min)

Normal alkane RI, non-polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	SLB-5MS	1128.	Risticevic, Carasek, et al., 2008	10. m/0.18 mm/0.18 μm, Helium, 40. C @ 1.5 min, 10. K/min; T_end: 295. C
Capillary	DB-5MS	1089.	Cadwallader and Heo, 2001	30. m/0.53 mm/1.5 μm, He, 40. C @ 5. min, 6. K/min, 225. C @ 30. min
Capillary	DB-1	1112.	Chen and Ho, 1998	60. m/0.32 mm/1.0 μm, He, 3. K/min; T_start: 40. C; T_end: 260. C
Capillary	OV-101	1061.	Mihara and Masuda, 1988	2. K/min; Column length: 50. m; Column diameter: 0.22 mm; T_start: 80. C; T_end: 200. C
Capillary	OV-101	1061.	Mihara and Masuda, 1987	N2, 2. K/min; Column length: 50. m; Column diameter: 0.22 mm; T_start: 80. C; T_end: 200. C
Capillary	OV-101	1061.	Mihara and Enomoto, 1985	N2, 2. K/min; Column length: 50. m; Column diameter: 0.22 mm; T_start: 80. C; T_end: 200. C

Normal alkane RI, non-polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	SLB-5MS	1082.	Risticevic, Carasek, et al., 2008	10. m/0.18 mm/0.18 μm, Helium; Program: not specified
Capillary	HP-5	1069.	Characterization of Pyrazines in Some Chinese Liquors and Their Approximate Concentrations, 2007	30. m/0.25 mm/0.25 μm, He; Program: 50C(2min) => 2C/min => 140C => 10C/min => 280C (10min)

Normal alkane RI, polar column, temperature ramp

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Column type	Active phase	I	Reference	Comment
Capillary	DB-Wax	1629.	Cadwallader and Heo, 2001	30. m/0.53 mm/1. μm, He, 40. C @ 5. min, 6. K/min, 225. C @ 30. min
Capillary	DB-Wax	1627.	Sekiwa, Kubota, et al., 1997	He, 2. K/min; Column length: 60. m; Column diameter: 0.25 mm; T_start: 60. C; T_end: 180. C

Normal alkane RI, polar column, custom temperature program

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Column type	Active phase	I	Reference	Comment
Capillary	Innowax	1635.	Ito and Mori, 2004	30. m/0.25 mm/0.50 μm, Helium; Program: 40 0C (2 min) 10 0C/min -> 100 0C 3 0C/min -> 160 0C 5 0C/min -> 260 0C (10 min)

References

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Wu and Cadwallader, 2002
Wu, Y.-F.G.; Cadwallader, K.R., Characterization of the aroma of a meatlike process flavoring from soybean-based enzyme-hydrolyzed vegetable protein, J. Agric. Food Chem., 2002, 50, 10, 2900-2907, https://doi.org/10.1021/jf0114076 . [all data]

Wu, Wang, et al., 2000
Wu, C.-M.; Wang, Z.; Wu, Q.H., Volatile compounds produced from monosodium glutamate in common food cooking, J. Agric. Food Chem., 2000, 48, 6, 2438-2442, https://doi.org/10.1021/jf9907743 . [all data]

Le Guen, Prost, et al., 2000
Le Guen, S.; Prost, C.; Demaimay, M., Characterization of odorant compounds of mussels (Mytilus edulis) according to their origin using gas chromatography-olfactometry and gas chromatography-mass spectrometry, J. Chromatogr. A, 2000, 896, 1-2, 361-371, https://doi.org/10.1016/S0021-9673(00)00729-9 . [all data]

Chung, 1999
Chung, H.Y., Volatile components in crabmeats of Charybdis feriatus, J. Agric. Food Chem., 1999, 47, 6, 2280-2287, https://doi.org/10.1021/jf981027t . [all data]

Cadwallader, Tan, et al., 1995
Cadwallader, K.R.; Tan, Q.; Chen, F.; Meyers, S.P., Evaluation of the aroma of cooked spiny lobster tail meat by aroma extract dilution analysis, J. Agric. Food Chem., 1995, 43, 9, 2432-2437, https://doi.org/10.1021/jf00057a022 . [all data]

Bianchi, Careri, et al., 2007
Bianchi, F.; Careri, M.; Mangia, A.; Musci, M., Retention indices in the analysis of food aroma volatile compounds in temperature-programmed gas chromatography: Database creation and evaluation of precision and robustness, J. Sep. Sci., 2007, 39, 4, 563-572, https://doi.org/10.1002/jssc.200600393 . [all data]

Risticevic, Carasek, et al., 2008
Risticevic, S.; Carasek, E.; Pawliszyn, J., Headspace solid-phase microextraction-gas chromatographic-time-of-flight mass spectrometric methodology for geographical origin verification of coffee, Anal. Chim. Acta, 2008, 617, 1-2, 72-84, https://doi.org/10.1016/j.aca.2008.04.009 . [all data]

Cadwallader and Heo, 2001
Cadwallader, K.R.; Heo, J., Aroma of roasted sesame oil: characterization by direct thermal desorption-gas chromatography-olfactometry and sample dilution analysis, Am. Chem. Soc. Symp. Ser., 2001, 782, 187-202. [all data]

Chen and Ho, 1998
Chen, J.; Ho, C.-T., Volatile compounds formed from thermal degradation of glucosamine in a dry system, J. Agric. Food Chem., 1998, 46, 5, 1971-1974, https://doi.org/10.1021/jf971021o . [all data]

Mihara and Masuda, 1988
Mihara, S.; Masuda, H., Structure-odor relationships for disubstituted pyrazines, J. Agric. Food Chem., 1988, 36, 6, 1242-1247, https://doi.org/10.1021/jf00084a029 . [all data]

Mihara and Masuda, 1987
Mihara, S.; Masuda, H., Correlation between molecular structures and retention indices of pyrazines, J. Chromatogr., 1987, 402, 309-317, https://doi.org/10.1016/0021-9673(87)80029-8 . [all data]

Mihara and Enomoto, 1985
Mihara, S.; Enomoto, N., Calculation of retention indices of pyrazines on the basis of molecular structure, J. Chromatogr., 1985, 324, 428-430, https://doi.org/10.1016/S0021-9673(01)81342-X . [all data]

Characterization of Pyrazines in Some Chinese Liquors and Their Approximate Concentrations, 2007
Characterization of Pyrazines in Some Chinese Liquors; Their Approximate Concentrations, W. Fan; Y. Xu; Y. Zhang, J. Agric. Food Chem., 2007, 55, 9956-9962. [all data]

Sekiwa, Kubota, et al., 1997
Sekiwa, Y.; Kubota, K.; Kobayashi, A., Characteristic flavor components in the brew of cooked clam (Meretrix lusoria) and the effect of storage on flavor formation, J. Agric. Food Chem., 1997, 45, 3, 826-830, https://doi.org/10.1021/jf960433e . [all data]

Ito and Mori, 2004
Ito, K.; Mori, M., Formation of pyrazines in aqueous maltose/glucose/fructose-glutamide model systems upon heating at below 100 0C, Food Sci. Technol. Res., 2004, 10, 2, 199-204, https://doi.org/10.3136/fstr.10.199 . [all data]

Notes

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Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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