Key Aroma Compounds in ‘Centennial’, ‘Citra’ and ‘Nelson ...
Transcript of Key Aroma Compounds in ‘Centennial’, ‘Citra’ and ‘Nelson ...
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The Science of Beer
Key Aroma Compounds in ‘Centennial’, ‘Citra’ and ‘Nelson Sauvin’ Hop Identified
by Aroma Extract Dilution Analysis Shi Feng, Yanping Qian and MICHAEL C. QIAN
Flavor Chemistry Research Laboratory
Department of Food Science and Technology, Oregon State University, 100 Wiegand Hall, Corvallis, OR 97331,U.S.A.
email: [email protected]
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The Science of Beer
A Word About Hop
• 84% vegetative matter • 16% Lupulin glands:
– soft resins ~13% – hard resins ~2% – essential oils ~0.5-3%
• Depending on variety, growing conditions/harvest time
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The Science of Beer
Hop Oil Composition
• Hydrocarbons and epoxides – Monoterpenes – Sesquiterpenes – Epoxides
• Terpene alcohols and esters • Aldehydes, Ketones, fatty Acids, esters
• Simple, well studied • C13-norisoprenoids • Benzene derivatives • Sulfur-containing compounds
• Very complicated
Which compounds
are important?
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The Science of Beer
Objectives
• Identify the most important aroma-active compounds in three different hops – Centennial – Citra – Nelson Sauvin
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The Science of Beer
30 g of dried hop cones were blended under liquid nitrogen. Volatiles were extracted with dichloromethane (3X) Solvent Assisted Flavor Evaporation (SAFE) was applied to the hop extract under high vacuum Distillates were concentrated to 1 mL with a Kuderna-Danish Concentrator
Gentle Volatile Isolation from Hops
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The Science of Beer
Aroma Identification Is Extremely Challenging
• Many compounds are co-eluted, what you can identify may not be what you smell
• Many compounds have smell but no MS signal
• Using multiple tools for confirmation – Mass spectra and retention index match with pure
standards in lab – 2D GC-MS with heart-cut technique – Pre-fractionation and preparative GC – Personal experiences with aroma compounds
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The Science of Beer
Aroma Extract
Silica Gel
Eluted with Pentane
Non-polar fraction Polar fraction
Eluted with CH2Cl2
Normal Phase Chromatography Fractionation
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GC-MS/Olfactometry
MS GC column
Sniffing port
Gas Chromatography-Mass Spectrometry/Olfactometry
Chromatogram
Oil Extract
diac
etyl
linal
ool
α-pinene
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The two fractions of hop oils were stepwise diluted with dichloromethane/pentane at 1:1 ratio and analyzed by GC–O.
Flavor dilution (FD) factor of each odorant was calculated.
Original sample 1:2 dilute
1:4 dilute
1:512 dilute
⋯⋯ 1:1 1:1 1:1 1:1
Aroma Extract Dilution Analysis (AEDA)
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FD=1 FD=2 FD=4 FD=512
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Nonpolar Fraction FD-Factor
RI Aroma Compounds Descriptor CE CI NS 1032 α-pinene orange peel, pine 32 32 32 1152 myrcene celery, balsamic 512 512 512 1177 β-phellandrene mint, turpentine 8 4 4 1628 β-caryophyllene woody 4 2 4
AEDA-Nonpolar Fraction
myrcene α-pinene β-phellandrene β-caryophyllene
Nonpolar fraction (hydrocarbons) can be classified into two major groups: monoterpenes (C10H16) and sesquiterpenes (C15H24).
CE: Centennial, CI: Citra, NS: Nelson Sauvin
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Polar Fraction FD-Factor
RI Aroma Compounds Descriptor Centennial Citra Nelson Sa 987 diacetyl cheesy, buttery 64 8 16 1130 2-methylbutyl acetate fruity, nail polish 16 16 8 1173 unknown pine, turpentine 32 64 64 1461 methional potato, soy sauce 16 8 4 1550 linalool floral 64 64 16 1609 methyl (Z)-4-decenoate milky, green 16 16 4 1659 isovaleric acid smelly, rancid 128 256 64 1701 (2E,4E)-nona-2,4-dienal steamed grain, oily 16 64 16 1730 S-methylthiomethyl 2-methylbutanethioate* garlic, preserved vegetable 16 32 8 1837 geraniol citrus, lemon 256 128 128 1897 S-methylthiomethyl 4-methylpentanethioate* garlic, fatty 16 16 16 1973 S-methyl methanethiosulfonate radish, cabbage 128 64 16 2000 unknown preserved vegetable 16 64 16 2546 vanillin vanilla 64 64 64
AEDA-Polar Fraction
*Compounds were tentatively identified but have not confirmed by pure standards yet.
Oxygenated components (alcohols, aldehydes, acids, esters,etc.) and sulfur-containing components (thioesters, miscellaneous sulphur compounds, etc.).
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Polar Fraction FD-Factor
RI Aroma Compounds Descriptor Centennial Citra Nelson Sauvin 1101 hexanal grassy 4 8 1 1181 isoamyl propionate fruity 4 2 4 1195 2-methylbutyl isobutyrate fruity, soda 2 <1 <1 1199 2-methyl-1-butanol pear, fruity, sweet 8 4 8 1228 unknown pine tree, almond 8 4 1 1271 methyl heptanoate fruity, sweet 2 2 <1 1354 S-containing compounds preserved vegetable 8 2 2 1380 methyl octanoate citrus, soapy, fatty 8 8 4 1398 nonanal citrus, floral 8 <1 4 1404 S-methylthiohexanoate preserved vegetable, cabbage 8 8 2 1409 cis-3-hexenol green, grassy 8 2 4 1433 acetic acid vinegar, sour 2 2 2 1493 methyl nonanoate floral, cooked rice 8 4 8 1547 isobutyric acid cheese, rancid 8 8 <1 1704 geranial citrus, soapy 4 <1 <1 1756 nerol sweet, floral, citrus 8 <1 <1 1845 Unknown fatty, nutty 8 16 1 1970 caryophyllene oxide woody, incense 8 16 1 2041 octanoic acid sweaty, rancid 16 8 2 2133 Unknown ink, rancid 8 16 <1 2206 nonanoic acid sweaty 2 4 8 2227 Unknown rancid, cheese <1 16 <1
AEDA-Polar Fraction
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Odor Active Compounds in Three Hops
In the nonpolar fractions, myrcene possessed the highest FD factor while α-pinene also stood out as an odor-active compound.
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In the polar fractions, geraniol and isovaleric acid were proved to have the highest FD values followed by S-containing compound, linalool and vanillin.
S-methyl methanethiosulfonate was detected in the hops for the first time and showed high FD factor in Centennial and Citra hops, further work is needed to confirm this finding. Sulfur-containing compounds were identified to be important contributors to hop aroma profile, many needs to be further confirmed
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Dry-Hopped Beer
Control beer
Centennial
Citra
Nelson Sauvin
All the beers were prepared in the pilot plant by Jeff Clawson and his brewing group.
Cascade
Finished beer
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Complete Hop Profiling in Beer by Stir Bar Sorptive Extraction (SBSE)-GC-MS
Beer+Water+Stir Bar SBSE for 3 hours
GC-MS
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Stir Bar Sorptive Extraction (SBSE)-GC-MS
PDMS (Polydimethylsiloxane) Stir Bar
Coating
Glass Magnet
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Hop Aroma in Beer
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Concentration (ppb)
Target compound Threshold(ppb) Control Centennial Citra Nelson Sauvin
α-pinene 2.5-62 <1 <1 <1 <1 β-pinene 140 <1 <1 <1 <1 myrcene 13 27.4±1.9 48.2±4.7 131±3.5 110±3.9 limonene 4-229 109±7 56.9±3.1 118±13.8 105±6.0
β-caryophyllene 64-90 <1 <1a 5.63±0.5 <1 α-humulene 120 <1 1.07±0.2 9.38±0.6 8.61±0.3
linalool 4-10 46.8±0.7 78.4±4.9 144±2.7 70.2±0.0 neral 28-120 <1 <1 <1 <1
geranial n/a <1 <1 <1 <1 geranyl acetate 9-460 <1 <1 <1 <1
nerol 680-2200 <1 11.71±0.4 7.71±0.2 <1 geraniol 4-75 40.0±1.4 97.0±0.9 86.4±0.2 49.3±1.9
caryophyllene oxide n/a 9.3±0.5 12.5±1.3 14.7±0.5 8.0±0.1
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The Science of Beer
Linalool Enantiomer
(S)-(+)-linalool Threshold:7.4 ppb Odor: sweet, floral
(R)-(-)-linalool Threshold: 0.8 ppb
Odor: woody, lavender, floral
Linalool occurs naturally as two isomeric forms. These two enantiomers have identical physical properties such as boiling point, melting point and spectroscopic features.
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Two-Dimensional GC-MS
Oil Extract
MS GC column 1
GC column 2 (β-cyclodextrin Chiral column)
Heart-Cut
FID
Low thermal mass inert Deans switch
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The Science of Beer
MS
MS
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10.00 15.00 20.00 25.00 30.00 35.00 40.00 45.00 50.00 55.00
500000
1000000
1500000
2000000
2500000
3000000
3500000
4000000
4500000
5000000
5500000
Time-->
Abundance
Signal: linalool-hop-citra-qian-2014-02-10-01-Ah-CF.D\FID1A.CH
38.00 40.00 42.00 44.00 46.00 48.00 50.00 52.000
20000
40000
60000
80000
100000
120000
140000
160000
180000
200000
220000
240000
Time-->
Abundance
TIC: HOP-LINALOOL-CHIRAL-20140203-5.D\data.ms
R-(-)-linalool S-(+)-linalool
LTM-DB-wax column
LTM-DB-cyclosil B
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The Science of Beer
Chiral Distribution of Linalool
92% 93% 95% 97%
60%
70%
80%
90%
100%
Control(Cascade)
Centennial Citra NelsonSauvin
Perc
enta
ge o
f R-li
nalo
ol
Hops
Hops
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The Science of Beer
Linalool Chiral Distribution in Hops
Hops % R(-)-linalool Hops % R-(-) Linalool
Azacca 93.7± 0.1 Horizon 95.7± 0.1 Chinook 94.2± 0.4 Maridian 93.8± 0.01
Citra 94.1± 0.07 Mt. Hood 94.3± 0.1
Cluster 92.8± 0.4 N. Brewer 92.6± 0.1 Crystal 94.3± 0.2 Topaz 93.3± 0.1 Fuggle 94.2± 0.06 UK-Golding 94.8± 0.2
Galaxy 93.8± 0.2 Ultra 94.1± 0.3
Galena 94.1± 0.1 Warrior 94.2± 0.1
Glacier 94.8± 0.2 Willamette 94.7± 0.06
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The Science of Beer
(R)-Linalool Conversion
(S)-(+)-linalool Threshold:7.4 ppb Odor: sweet, floral
(R)-(-)-linalool Threshold: 0.8 ppb
Odor: woody, lavender, floral
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The Science of Beer
Conversion to S-linalool at 100ºC
(Ratio x Time [min])
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The Science of Beer
Chiral Distribution of Linalool in Commercial Beer
88% 87% 87%
80%
93% 91% 89%
70.0%
75.0%
80.0%
85.0%
90.0%
95.0%
Beer1 Beer2 Beer3 Beer4 Beer5 Beer6 Beer7
Perc
enta
ge o
f R-
linal
ool
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The Science of Beer
Conclusion
• Hop aroma chemistry is very complicated and facinating
• Understanding hoppy aroma in beer is even more challenging
• Tremendous of challenges and opportunities