Results for:
Species: Candida glabrata

1-phenylbutan-1-one

Mass-Spectra

Compound Details

Synonymous names
BUTYROPHENONE
1-phenylbutan-1-one
495-40-9
n-Butyrophenone
1-Butanone, 1-phenyl-
Phenyl propyl ketone
1-Phenyl-1-butanone
Propyl phenyl ketone
1-Phenyl-butan-1-one
NSC 8463
NSC-8463
DTXSID3047059
NSC8463
186I11WB5B
MFCD00009397
Butyrophenone, >=99%
Butyrophenone; 1-Phenylbutan-1-one; n-Butyrophenone
UNII-186I11WB5B
propylphenylketone
EINECS 207-799-7
3-methylpropiophenone
Phenyl n-propyl ketone
AI3-02062
SCHEMBL82532
CHEMBL193524
DTXCID1027059
Butyrophenone, analytical standard
NSC8463NSC 8463
Tox21_302345
BBL027757
STL373490
AKOS000120282
CS-W010981
MCULE-1952839528
PS-5615
NCGC00256194-01
CAS-495-40-9
SY011586
AM20040561
B0769
NS00012073
EN300-20322
F81498
A827738
Q421344
J-505070
W-106021
F0001-1286
Z104477742
InChI=1/C10H12O/c1-2-6-10(11)9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H
Microorganism:

Yes

IUPAC name1-phenylbutan-1-one
SMILESCCCC(=O)C1=CC=CC=C1
InchiInChI=1S/C10H12O/c1-2-6-10(11)9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H3
FormulaC10H12O
PubChem ID10315
Molweight148.2
LogP2.5
Atoms11
Bonds3
H-bond Acceptor1
H-bond Donor0
Chemical Classificationbenzenoids aromatic compounds aromatic ketones ketones
Supernatural-IDSN0084492

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas AeruginosaNANABean et al. 2012
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
EukaryotaChromera VeliaCulture Collection of Algae and Protozoa (CCAP) at the SAMS Limited Scottish Marine Institute (Oban, Argyll, Scotland, UK)Koteska et al. 2023
EukaryotaTuber MelanosporumT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
ProkaryotaBacillus SubtilisNANALee et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas Aeruginosalysogeny brothSPME/GCxGC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaChromera Veliaseawater media L1OSSA/GC-MSno
EukaryotaTuber Melanosporumyes
ProkaryotaBacillus SubtilisTryptone soy broth (TSB)HPLCno


2,5-dimethylbenzaldehyde

Compound Details

Synonymous names
2,5-DIMETHYLBENZALDEHYDE
5779-94-2
Isoxylaldehyde
Benzaldehyde, 2,5-dimethyl-
MFCD00003342
6M224X1615
UNII-6M224X1615
EINECS 227-303-2
2,5-dimethyl benzaldehyde
YSWG666
SCHEMBL268706
DTXSID0075449
2,5-Dimethylbenzaldehyde, 99%
CHEBI:173203
AKOS000120289
MCULE-9026398948
AC-28485
AS-58131
SY017911
DB-024140
CS-0153345
NS00033792
EN300-20658
A831605
W-105442
Q27265131
Z104479610
InChI=1/C9H10O/c1-7-3-4-8(2)9(5-7)6-10/h3-6H,1-2H
Microorganism:

Yes

IUPAC name2,5-dimethylbenzaldehyde
SMILESCC1=CC(=C(C=C1)C)C=O
InchiInChI=1S/C9H10O/c1-7-3-4-8(2)9(5-7)6-10/h3-6H,1-2H3
FormulaC9H10O
PubChem ID22015
Molweight134.17
LogP2.1
Atoms10
Bonds1
H-bond Acceptor1
H-bond Donor0
Chemical Classificationbenzenoids aldehydes aromatic compounds aromatic aldehydes benzaldehydes
CHEBI-ID173203
Supernatural-IDSN0349832

mVOC Specific Details


Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaLactobacillus PlantarumNAYang et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
EukaryotaMetschnikowia Reukaufiiinhibitory and promoting effects on the growth of different microorganismsisolate from Aconitum piepunense, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Blollopisinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaTausonia Pullulansinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaRhodotorula Mucilaginosainhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaSporidiobolus Salmonicolorinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCryptococcus Sp.inhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaVishniacozyma Victoriaeinhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Gelidainhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaLactobacillus Plantarumginkgo biloba kernel juicetriple quadrupole GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaMetschnikowia Reukaufiiartificial nectar mediaGC-MSno
EukaryotaMrakia Blollopisartificial nectar mediaGC-MSno
EukaryotaTausonia Pullulansartificial nectar mediaGC-MSno
EukaryotaRhodotorula Mucilaginosaartificial nectar mediaGC-MSno
EukaryotaSporidiobolus Salmonicolorartificial nectar mediaGC-MSno
EukaryotaCryptococcus Sp.artificial nectar mediaGC-MSno
EukaryotaVishniacozyma Victoriaeartificial nectar mediaGC-MSno
EukaryotaMrakia Gelidaartificial nectar mediaGC-MSno


2,4,6-trimethylbenzaldehyde

Compound Details

Synonymous names
2,4,6-TRIMETHYLBENZALDEHYDE
Mesitaldehyde
487-68-3
Mesitylaldehyde
Benzaldehyde, 2,4,6-trimethyl-
Mesitylenecarboxaldehyde
2-Mesitylenecarboxaldehyde
2-Formylmesitylene
2,4,6-trimethyl-benzaldehyde
MFCD00003341
4W00MG84DR
DTXSID5052125
2-Formyl-1,3,5-trimethylbenzene
NSC-29094
EINECS 207-662-1
NSC 29094
BRN 1364114
Isodural
mesityl aldehyde
AI3-06142
b-Isodural
Aldehydomesitylene
b-Isoduryl aldehyde
2,6-Trimethylbenzaldehyde
EC 207-662-1
UNII-4W00MG84DR
SCHEMBL79252
Benzaldehyde,4,6-trimethyl-
4-07-00-00730 (Beilstein Handbook Reference)
CHEMBL3560744
DTXCID7030694
CHEBI:195893
NSC29094
Tox21_303703
AKOS000120393
CS-W018185
HY-W017469
MCULE-1095029386
NCGC00357022-01
AC-15540
AS-11832
CAS-487-68-3
SY035572
DB-013965
NS00001558
T1368
EN300-20385
Mesitaldehyde, Vetec(TM) reagent grade, 98%
A827602
doi:10.14272/HIKRJHFHGKZKRI-UHFFFAOYSA-N.1
W-106040
Q63408662
Z104477950
Mesitaldehyde, contains ~0.1% Hydroquinone as stabilizer, 98%
InChI=1/C10H12O/c1-7-4-8(2)10(6-11)9(3)5-7/h4-6H,1-3H
Microorganism:

Yes

IUPAC name2,4,6-trimethylbenzaldehyde
SMILESCC1=CC(=C(C(=C1)C)C=O)C
InchiInChI=1S/C10H12O/c1-7-4-8(2)10(6-11)9(3)5-7/h4-6H,1-3H3
FormulaC10H12O
PubChem ID10254
Molweight148.2
LogP2.5
Atoms11
Bonds1
H-bond Acceptor1
H-bond Donor0
Chemical Classificationbenzenoids aldehydes aromatic compounds aromatic aldehydes benzaldehydes
CHEBI-ID195893
Supernatural-IDSN0126514

mVOC Specific Details

Boiling Point
DegreeReference
238.5 median
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


Benzaldehyde

Mass-Spectra

Compound Details

Synonymous names
benzaldehyde
100-52-7
Benzoic aldehyde
Phenylmethanal
Benzenecarboxaldehyde
Benzenecarbonal
Benzenemethylal
Benzaldehyde FFC
Benzene carbaldehyde
Benzene carboxaldehyde
benzanoaldehyde
Benzylaldehyde
Benzoyl hydride
NCI-C56133
Benzoic acid aldehyde
FEMA No. 2127
Caswell No. 076
Phenylformaldehyde
Benzaldehyde (natural)
NSC 7917
Benzadehyde
Benzyaldehyde
CCRIS 2376
HSDB 388
NSC-7917
EINECS 202-860-4
UNII-TA269SD04T
Benzaldehyde-carbonyl-13C
Benzaldehyde [NF]
EPA Pesticide Chemical Code 008601
Benzaldehyde-formyl-d
TA269SD04T
Benzaldehyde-alpha-d1
DTXSID8039241
CHEBI:17169
AI3-09931
MFCD00003299
8013-76-1
Benzaldehyde, methyl-
CHEMBL15972
DTXCID90134
NSC7917
EC 202-860-4
Phenylmethanal benzenecarboxaldehyde
Benzaldehyde (NF)
NCGC00091819-01
NCGC00091819-02
BENZALDEHYDE (II)
BENZALDEHYDE [II]
BENZALDEHYDE (MART.)
BENZALDEHYDE [MART.]
benzaldehyd
Benzaldhyde
BENZALDEHYDE (USP IMPURITY)
BENZALDEHYDE [USP IMPURITY]
BDBM50139371
CAS-100-52-7
FENTANYL IMPURITY E (EP IMPURITY)
FENTANYL IMPURITY E [EP IMPURITY]
TRIBENOSIDE IMPURITY C (EP IMPURITY)
TRIBENOSIDE IMPURITY C [EP IMPURITY]
BENZYL ALCOHOL IMPURITY A (EP IMPURITY)
BENZYL ALCOHOL IMPURITY A [EP IMPURITY]
FENTANYL CITRATE IMPURITY E (EP IMPURITY)
FENTANYL CITRATE IMPURITY E [EP IMPURITY]
AMFETAMINE SULFATE IMPURITY D (EP IMPURITY)
AMFETAMINE SULFATE IMPURITY D [EP IMPURITY]
UN1990
BENZALKONIUM CHLORIDE IMPURITY B (EP IMPURITY)
BENZALKONIUM CHLORIDE IMPURITY B [EP IMPURITY]
GLYCOPYRRONIUM BROMIDE IMPURITY F (EP IMPURITY)
GLYCOPYRRONIUM BROMIDE IMPURITY F [EP IMPURITY]
HYDROUS BENZOYL PEROXIDE IMPURITY A (EP IMPURITY)
HYDROUS BENZOYL PEROXIDE IMPURITY A [EP IMPURITY]
benzaidehyde
benzaldehvde
benzaldehye
benzaldeyde
BENZOYLL PEROXIDE HYDROUS IMPURITY A (EP IMPURITY)
BENZOYLL PEROXIDE HYDROUS IMPURITY A [EP IMPURITY]
C7H6O
phenyl-methanone
Benzene methylal
Aromatic aldehyde
Benzoylwasserstoff
(phenyl)methanone
benzenecarbaldehyde
Benzaldehyde,(S)
PhCHO
Benzene carcaboxaldehyde
2vj1
WLN: VHR
BENZALDEHYDE [MI]
SCHEMBL573
BENZALDEHYDE [FCC]
BENZALDEHYDE [FHFI]
BENZALDEHYDE [HSDB]
BENZALDEHYDE [INCI]
BENZALDEHYDE [VANDF]
ghl.PD_Mitscher_leg0.170
BENZALDEHYDE [USP-RS]
Benzaldehyde, AR, >=99%
Benzaldehyde, LR, >=99%
BIDD:ER0249
BDBM60953
Benzaldehyde, analytical standard
Ald3-H_000012
Benzaldehyde, >=98%, FG, FCC
Ald3.1-H_000160
Ald3.1-H_000479
Ald3.1-H_000798
Tox21_113069
Tox21_113244
Tox21_200634
s5574
STL194067
Benzaldehyde, for synthesis, 95.0%
AKOS000119172
Benzaldehyde [UN1990] [Class 9]
CCG-266041
MCULE-7744113682
NA 1989
Benzaldehyde, purum, >=98.0% (GC)
Benzaldehyde, ReagentPlus(R), >=99%
NCGC00091819-03
NCGC00258188-01
PS-11959
Benzaldehyde, natural, >=98%, FCC, FG
DB-023673
B2379
Benzaldehyde, SAJ special grade, >=98.0%
NS00008510
Benzaldehyde, Vetec(TM) reagent grade, 98%
Benzaldehyde 1000 microg/mL in Dichloromethane
Benzaldehyde 2000 microg/mL in Dichloromethane
Benzaldehyde, puriss. p.a., >=99.0% (GC)
C00193
C00261
D02314
A800226
Q372524
SR-01000944375
Benzaldehyde, purified by redistillation, >=99.5%
SR-01000944375-1
F1294-0144
Flavor and Extract Manufacturers' Association No. 2127
InChI=1/C7H6O/c8-6-7-4-2-1-3-5-7/h1-6
Benzaldehyde, European Pharmacopoeia (EP) Reference Standard
Benzaldehyde, United States Pharmacopeia (USP) Reference Standard
Benzaldehyde, Pharmaceutical Secondary Standard; Certified Reference Material
Microorganism:

Yes

IUPAC namebenzaldehyde
SMILESC1=CC=C(C=C1)C=O
InchiInChI=1S/C7H6O/c8-6-7-4-2-1-3-5-7/h1-6H
FormulaC7H6O
PubChem ID240
Molweight106.12
LogP1.5
Atoms8
Bonds1
H-bond Acceptor1
H-bond Donor0
Chemical Classificationbenzenoids aldehydes aromatic compounds aromatic aldehydes benzaldehydes
CHEBI-ID17169
Supernatural-IDSN0135798

mVOC Specific Details

Boiling Point
DegreeReference
178.7 °C peer reviewed
Volatilization
The Henry's Law constant for benzaldehyde is 2.67X10-5 atm-cu m/mole(1). This Henry's Law constant indicates that benzaldehyde is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 1.5 days (SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 14 days(SRC). Benzaldehyde's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). Benzaldehyde is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 1.27 mm Hg at 25 deg C(3).
Literature: (1) Betterton EA, Hoffmann MR; Environ Sci Technol 22: 1415-8 (1988) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Ambrose D et al; J Chem Therm 7: 1143-57 (1975)
Soil Adsorption
Using a structure estimation method based on molecular connectivity indices(1), the Koc of benzaldehyde can be estimated to be 11(SRC). According to a classification scheme(2), this estimated Koc value suggests that benzaldehyde is expected to have very high mobility in soil.
Literature: (1) US EPA; Estimation Program Interface (EPI) Suite. Ver. 4.1. Nov, 2012. Available from, as of May 30, 2016: http://www2.epa.gov/tsca-screening-tools/ (2) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
1.27 mm Hg at 25 deg CAmbrose D et al; J Chem Therm 7: 1143-57 (1975)
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaEscherichia ColiNANAAhmed et al. 2023
ProkaryotaEscherichia ColiNANAHewett et al. 2020
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaStreptococcus PneumoniaeNANAMellors et al. 2018
ProkaryotaStaphylococcus AureusNANAFilipiak et al. 2012
EukaryotaAgaricus EssetteiNARapior et al. 2002
EukaryotaCandida AlbicansNAKarami et al. 2017
ProkaryotaEscherichia ColiNAKarami et al. 2017
ProkaryotaStaphylococcus AureusNAKarami et al. 2017
ProkaryotaBacillus SubtilisNAGao et al. 2018
EukaryotaFusarium CulmorumNASchmidt et al. 2018
EukaryotaHypoxylon InvadensNADickschat et al. 2018
EukaryotaFusarium Acuminatumroots of two species of the Brassicaceae family Microthlaspi perfoliatum and Microthlaspi erraticumSchenkel et al. 2018
EukaryotaFusarium Oxysporumroots of two species of the Brassicaceae family Microthlaspi perfoliatum and Microthlaspi erraticumSchenkel et al. 2018
EukaryotaPolyporus TuberasterNAKawabe et al. 1994
ProkaryotaBacillus Subtilisantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Fluorescensantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaBacillus Amyloliquefacienscommercial strainHeenan-Daly et al. 2021
ProkaryotaBacillus Toyonensisstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaSerratia Myotisisolate from Irish potato soilsHeenan-Daly et al. 2021
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaPaenibacillus Polymyxaantifungal effects against Rhizopus stoloniferisolated from an ancient tree Cryptomeria fortune and deposited in China General Microbiological Culture Collection Center (CGMCC No. 15733)Wu et al. 2020
ProkaryotaStenotrophomonas Maltophiliaantifungal activity against Colletotrichum nymphaeaeisolated from the healthy strawberry leaf in Kamyaran, Kurdistan provinceAlijani et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 101NACalvo et al. 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaErwinia Amylovoraenhances Arabidopsis thaliana shoot and root growthbacterial collection of the LabParmagnani et al. 2023
ProkaryotaLactobacillus Plantarumn/aNASchulz and Dickschat 2007
ProkaryotaPseudomonas Fluorescensn/aNAFernando et al. 2005
ProkaryotaPseudomonas Corrugatan/aNAFernando et al. 2005
ProkaryotaPseudomonas Chlororaphisn/aNAFernando et al. 2005
ProkaryotaPseudomonas Aurantiacan/aNAFernando et al. 2005
ProkaryotaBacillus Sp.Inhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaStenotrophomonas MaltophiliaInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaAlcaligenes FaecalisInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaArthrobacter NitroguajacolicusInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaLysobacter GummosusInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaSporosarcina GinsengisoliInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaBacillus SimplexReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus SubtilisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus WeihenstephanensisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaMicrobacterium OxydansReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStreptomyces LateritiusReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaSerratia MarcescensReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/aNADickschat et al. 2005_3
ProkaryotaOctadecabacter Sp.n/aNADickschat et al. 2005_3
ProkaryotaStigmatella Aurantiacan/aNADickschat et al. 2005_5
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
EukaryotaFusarium Graminearumn/aNABusko et al. 2014
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Excavatumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Panniferumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Melanosporumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaBjerkandera Adustan/aNALapadatescu et al. 2000
ProkaryotaBacillus Subtilisn/aNALee et al. 2012
EukaryotaAscocoryne Sarcoidesn/aNAMallette et al.  2012
EukaryotaTrichoderma Viriden/aNAWheatley et al. 1997
ProkaryotaBurkholderia Sp.bacterial interationsrhizosphere and bulk soil of Carex arenariaTyc et al. 2017
ProkaryotaPaenibacillus Sp.bacterial interationsrhizosphere and bulk soil of Carex arenariaTyc et al. 2017
ProkaryotaBacillus AmyloliquefaciensAgriculture University of Nanjing, ChinaTahir et al. 2017
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection Robacker and Bartelt 1997
ProkaryotaKlebsiella PneumoniaeAmerican Type Culture Collection Robacker and Bartelt 1997
EukaryotaPleurotus OstreatusNABeltran-Garcia et al. 1997
EukaryotaFomes FomentariusNAFäldt et al. 1999
EukaryotaPenicillium Sp.NATakeuchi et al. 2012
EukaryotaFusarium Sp.NATakeuchi et al. 2012
EukaryotaBotrytis Sp.NAKikuchi et al. 1983
EukaryotaAspergillus Sp.NATakeuchi et al. 2012
ProkaryotaThermomonospora FuscanasoilWilkins 1996
ProkaryotaPseudomonas Fluorescenspromotes volatile oil accumulation, activating plant defensefrom geo-authentic Atractylodes lanceaZhou et al. 2016
ProkaryotaPseudomonas Veroniinarhizosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Syringaenaphyllosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Jesseniinaphyllosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaLactobacillus HelveticusnayoghurtPogačić et al. 2016
ProkaryotaPedobacter Sp.narhizosphere of Marram grass in sandy dune soils, NetherlandsGarbeva et al. 2014
ProkaryotaChryseobacterium Sp.nanaTyc et al. 2015
ProkaryotaTsukamurella Sp.nanaTyc et al. 2015
ProkaryotaJanthinobacterium Sp.nanaTyc et al. 2015
EukaryotaPiptoporus BetulinusnaSachsenwald near HamburgRösecke et al. 2000
EukaryotaFomitopsis PinicolanaGermanyRösecke et al. 2000
EukaryotaTrametes Suaveolensnanear Zachersmühle, Göppingen, southern GermanyRösecke et al. 2000
EukaryotaPleurotus EryngiinanaUsami et al. 2014
EukaryotaPleurotus CystidiosusnanaUsami et al. 2014
ProkaryotaStreptococcus PneumoniaeclinicPreti et al. 2009
ProkaryotaHaemophilus InfluenzaeclinicPreti et al. 2009
ProkaryotaBranhamella CatarrhalisclinicPreti et al. 2009
EukaryotaBjerkandera AdustaNASpinnler at al. 1994
EukaryotaTuber MelanosporumNoneT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
EukaryotaTuber IndicumNoneT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaMetschnikowia PulcherrimaNANALjunggren et al. 2019
EukaryotaMetschnikowia FructicolaNANALjunggren et al. 2019
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaCryptococcus WieringaeNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaPichia KluyveriNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaPichia AnomalaNANAMozūraitis et al. 2022
EukaryotaMetschnikowia PulcherrimaNANAMozūraitis et al. 2022
ProkaryotaStaphylococcus EquorumNANAToral et al. 2021
ProkaryotaBacillus AtrophaeusNANAToral et al. 2021
ProkaryotaPeribacillus Sp.NANAToral et al. 2021
ProkaryotaPseudomonas SegetisNANAToral et al. 2021
ProkaryotaBacillus VelezensisNANAToral et al. 2021
ProkaryotaPsychrobacillus VulpisNANAToral et al. 2021
EukaryotaWickerhamomyces AnomalusNANAShi et al. 2022
ProkaryotaBacillus SubtilisNANALee et al. 2023
EukaryotaSaccharomyces EubayanusNANAUrbina et al. 2020
EukaryotaMeyerozyma GuilliermondiiNANAZhao et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
EukaryotaWickerhamomyces AnomalusNANAZhao et al. 2022
Meyerozyma GuilliermondiiXiong et al. 2023
Lentinula EdodesGeng et al. 2024
Lactiplantibacillus PlantarumChen et al. 2023
Bacillus ThuringiensisKoilybayeva et al. 2023
Bacillus AcidiproducensKoilybayeva et al. 2023
Bacillus CereusKoilybayeva et al. 2023
Bacillus SafensisKoilybayeva et al. 2023
Lactobacillus PlantarumMa et al. 2023
Citrobacter FreundiiTallon et al. 2023
Enterobacter AgglomeransTallon et al. 2023
Enterobacter CloacaeTallon et al. 2023
Klebsiella OxytocaTallon et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Staphylococcus AureusWang et al. 2023
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEscherichia ColiNBTD/GC-MSno
ProkaryotaEscherichia ColiLBSPME/GC-MSno
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaStreptococcus PneumoniaeModified Lacks MediaSPME/GCxGC-MSno
ProkaryotaStaphylococcus Aureustryptic soy brothTD/GC-MSno
EukaryotaAgaricus Essetteihydro-destillation, solvent extraction, GC-MSno
EukaryotaCandida AlbicansMueller Hinton broth (MB), tryptic soy broth (TSB)SPME, DVB/CAR/PDMS, GC-MSno
ProkaryotaEscherichia ColiMueller Hinton broth (MB), tryptic soy broth (TSB)SPME, DVB/CAR/PDMS, GC-MSno
ProkaryotaStaphylococcus AureusMueller Hinton broth (MB), tryptic soy broth (TSB)SPME, DVB/CAR/PDMS, GC-MSno
ProkaryotaBacillus SubtilisLuria-Bertani (LB) agarHS / SPME / GC-MSno
EukaryotaFusarium CulmorumKing`s B agarUPLC-MSno
EukaryotaHypoxylon InvadensYMG mediumCSLA-GCMSyes
EukaryotaFusarium AcuminatumMalt extractSPME, GC-MSyes
EukaryotaFusarium OxysporumMalt extractSPME, GC-MSyes
EukaryotaPolyporus TuberasterPGYGC-MSno
ProkaryotaBacillus SubtilisLB agarGC-MSno
ProkaryotaPseudomonas FluorescensLB agarGC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSyes
ProkaryotaBacillus AmyloliquefaciensTSB mediaSPME/GC-MSno
ProkaryotaBacillus ToyonensisTSB media, MR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaSerratia MyotisTSB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaPaenibacillus PolymyxaLB agar and M49 (minimal) mediaSPME/GC-MSyes
ProkaryotaStenotrophomonas MaltophiliaNA mediaGC-MSno
ProkaryotaBacillus VelezensisMOLP mediaSPME/GC-MSyes
ProkaryotaStaphylococcus EpidermidisMHB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaErwinia AmylovoraSBSE/GC-MSno
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPseudomonas Fluorescensn/an/ano
ProkaryotaPseudomonas Corrugatan/an/ano
ProkaryotaPseudomonas Chlororaphisn/an/ano
ProkaryotaPseudomonas Aurantiacan/an/ano
ProkaryotaBacillus Sp.n/an/ano
ProkaryotaStenotrophomonas Maltophilian/an/ano
ProkaryotaAlcaligenes Faecalisn/an/ano
ProkaryotaArthrobacter Nitroguajacolicusn/an/ano
ProkaryotaLysobacter Gummosusn/an/ano
ProkaryotaSporosarcina Ginsengisolin/an/ano
ProkaryotaBacillus Simplexn/an/ano
ProkaryotaBacillus Subtilisn/an/ano
ProkaryotaBacillus Weihenstephanensisn/an/ano
ProkaryotaMicrobacterium Oxydansn/an/ano
ProkaryotaStreptomyces Lateritiusn/an/ano
ProkaryotaSerratia Marcescensn/an/ano
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/an/ano
ProkaryotaOctadecabacter Sp.n/an/ano
ProkaryotaStigmatella Aurantiacan/an/ano
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
EukaryotaFusarium Graminearumyeast extract sucrose agarSPME/GC-MSno
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Excavatumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Panniferumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Melanosporumn/an/ano
EukaryotaBjerkandera AdustaMinimal media plus glucose and L-phenylalanineExtraction with dichloromethane or with ethyl acetate, concentration under N2 stream /GC-MS.no
ProkaryotaBacillus SubtilisTryptic soy agarSPME coupled with GC-MSno
EukaryotaAscocoryne SarcoidesMinimal mediumPTR-MS and SPME GC-MSno
EukaryotaTrichoderma VirideMalt extractGC/MSno
ProkaryotaBurkholderia Sp.TSBAGC-Q-TOFno
ProkaryotaPaenibacillus Sp.TSBAGC-Q-TOFno
ProkaryotaBacillus AmyloliquefaciensLBSPME-GC-MSno
ProkaryotaCitrobacter Freundiitryptic soy broth SPME, GC-MSyes
ProkaryotaKlebsiella Pneumoniaetryptic soy broth SPME, GC-MSyes
EukaryotaPleurotus Ostreatusno
EukaryotaFomes Fomentariusno
EukaryotaPenicillium Sp.no
EukaryotaFusarium Sp.no
EukaryotaBotrytis Sp.no
EukaryotaAspergillus Sp.no
ProkaryotaThermomonospora FuscaNutrient agar CM3GC/MSno
ProkaryotaPseudomonas FluorescensMS rooting agarGC/MS + comparison to NISTno
ProkaryotaPseudomonas VeroniiLB mediumGC/MSyes
ProkaryotaPseudomonas SyringaeLB mediumGC/MSyes
ProkaryotaPseudomonas JesseniiLB mediumGC/MSyes
ProkaryotaLactobacillus Helveticuscurd-based broth mediumGC/MSyes
ProkaryotaPedobacter Sp.sand containing artificial root exudatesGC/MSno
ProkaryotaChryseobacterium Sp.Tryptic soy broth agarGC/MS-Q-TOFno
ProkaryotaTsukamurella Sp.Tryptic soy broth agarGC/MS-Q-TOFno
ProkaryotaJanthinobacterium Sp.Tryptic soy broth agarGC/MS-Q-TOFno
EukaryotaPiptoporus BetulinusnaGC/MSno
EukaryotaFomitopsis PinicolanaGC/MSno
EukaryotaTrametes SuaveolensnaGC/MSno
EukaryotaPleurotus EryngiinaGC/MS, GC-O, AEDAno
EukaryotaPleurotus CystidiosusnaGC/MS, GC-O, AEDAno
ProkaryotaStreptococcus PneumoniaeBlood agar/chocolate blood agaHS-SPME/GC-MS no
ProkaryotaHaemophilus InfluenzaeBlood agar/chocolate blood agaHS-SPME/GC-MS no
ProkaryotaBranhamella CatarrhalisBlood agar/chocolate blood agaHS-SPME/GC-MS no
EukaryotaBjerkandera Adustano
EukaryotaTuber MelanosporumNoneNoneyes
EukaryotaTuber IndicumNoneNoneyes
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaMetschnikowia Pulcherrimaliquid YPD mediumGC-MSno
EukaryotaMetschnikowia Fructicolaliquid YPD mediumGC-MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaCryptococcus WieringaeYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KluyveriYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia AnomalaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaMetschnikowia PulcherrimaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaStaphylococcus EquorumMOLPHS-SPME-GC/MSno
ProkaryotaStaphylococcus EquorumSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaBacillus AtrophaeusMOLPHS-SPME-GC/MSno
ProkaryotaBacillus AtrophaeusSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaBacillus Atrophaeustryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.MOLPHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.Schaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.tryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaPseudomonas SegetisMOLPHS-SPME-GC/MSno
ProkaryotaBacillus VelezensisMOLPHS-SPME-GC/MSno
ProkaryotaBacillus VelezensisSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaPsychrobacillus VulpisMOLPHS-SPME-GC/MSno
ProkaryotaPsychrobacillus VulpisSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
EukaryotaWickerhamomyces Anomalusmedium consisted of glucose (20 g/l), peptone (5 g/l), agar (20 g/l) and amoxicillin (1 g/l)SPME with GC-MSno
EukaryotaWickerhamomyces Anomalussolid-state fermentation starter culture DaquSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptone soy broth (TSB)HPLCno
EukaryotaSaccharomyces Eubayanusbeer wortHS-SPME-GC-MSno
EukaryotaMeyerozyma Guilliermondiisynthetic grape juiceHS-SPMEno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
EukaryotaWickerhamomyces Anomalussynthetic grape juiceHS-SPMEno
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Lentinula EdodesJiuqu (traditional wheat Qu)GC-IMSno
Lactiplantibacillus Plantarumfermentation of ginkgo kernel juiceGC-IMSno
Bacillus Thuringiensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Acidiproducensbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Cereusbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Lactobacillus Plantarumtuna cooking liquidHS-SPME-GC/MSno
Citrobacter Freundiitryptone soya broth (TSB) mediaTenax/GC/MSno
Enterobacter Agglomeranstryptone soya broth (TSB) mediaTenax/GC/MSno
Enterobacter Cloacaetryptone soya broth (TSB) mediaTenax/GC/MSno
Klebsiella Oxytocatryptone soya broth (TSB) mediaTenax/GC/MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno
Staphylococcus Aureusraw Shiyang chickenHS-GC-IMS/HS-SPME-GC-MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


2-phenylacetaldehyde

Mass-Spectra

Compound Details

Synonymous names
phenylacetaldehyde
2-phenylacetaldehyde
122-78-1
Benzeneacetaldehyde
Hyacinthin
Phenylethanal
alpha-Tolualdehyde
2-Phenylethanal
Phenylacetic aldehyde
Oxophenylethane
alpha-Toluic aldehyde
Acetaldehyde, phenyl-
Benzylcarboxaldehyde
1-Oxo-2-phenylethane
Phenacetaldehyde
phenyl acetaldehyde
phenyl-Acetaldehyde
.alpha.-Tolualdehyde
Benzacetaldehyde
Phenylacetaldehyde (natural)
alpha-Phenylacetaldehyde
Benzenacetaldehyde
.alpha.-Toluic aldehyde
FEMA No. 2974
UNII-U8J5PLW9MR
NSC 406309
U8J5PLW9MR
EINECS 204-574-5
alpha-Tolyaldehyde
Acetaldehyde, phenyl- (8CI)
DTXSID3021483
CHEBI:16424
AI3-02175
NSC-406309
a-Tolyaldehyde
DTXCID501483
FEMA NO. 2874
CAS-122-78-1
benzeneethanal
a-Tolualdehyde
2-phenylethanone
a-toluic aldehyde
Phenylacetoaldehyde
benzene acetaldehyde
a-Phenylacetaldehyde
2-phenyl-acetaldehyde
bmse000427
NCIOpen2_003602
Phenylacetaldehyde, >=90%
SCHEMBL18972
PHENYLACETALDEHYDE [MI]
PHENYLACETALDEHYDE [FCC]
CHEMBL1233464
PHENYLACETALDEHYDE [FHFI]
STR00412
Tox21_201582
Tox21_302945
MFCD00006993
NSC406309
s9357
AKOS000119316
CCG-266073
CS-W011205
DB02178
HY-W010489
MCULE-3725701027
Phenylacetaldehyde, >=95%, FCC, FG
NCGC00249076-01
NCGC00256522-01
NCGC00259131-01
DB-041686
NS00013128
P0119
EN300-18996
C00601
D78329
10.14272/DTUQWGWMVIHBKE-UHFFFAOYSA-N.1
A804962
Q424998
doi:10.14272/DTUQWGWMVIHBKE-UHFFFAOYSA-N.1
Q-201558
F2190-0653
Z104472146
D60A2590-0A65-4BA8-A05B-D8423408535C
InChI=1/C8H8O/c9-7-6-8-4-2-1-3-5-8/h1-5,7H,6H
Microorganism:

Yes

IUPAC name2-phenylacetaldehyde
SMILESC1=CC=C(C=C1)CC=O
InchiInChI=1S/C8H8O/c9-7-6-8-4-2-1-3-5-8/h1-5,7H,6H2
FormulaC8H8O
PubChem ID998
Molweight120.15
LogP1.8
Atoms9
Bonds2
H-bond Acceptor1
H-bond Donor0
Chemical Classificationbenzenoids aldehydes aromatic compounds
CHEBI-ID16424
Supernatural-IDSN0075259

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaEscherichia ColiNANAKunze et al. 2013
ProkaryotaPseudomonas AeruginosaNANAKunze et al. 2013
EukaryotaCandida ParapsilosisNANAFitzgerald et al. 2022
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaStaphylococcus AureusNAKarami et al. 2017
ProkaryotaAcinetobacter RadioresistensNATimm et al. 2018
ProkaryotaStaphylococcus EpidermidisNATimm et al. 2018
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
EukaryotaTuber Magnatumcollected from natural truffle orchards in Istria (Croatia) during one truffle season (October 2018–January 2019)Niimi et al. 2021
EukaryotaTuber Magnatumcollected from natural truffle orchards in Baranya (Hungary) during one truffle season (October 2018–January 2019)Niimi et al. 2021
EukaryotaTuber Magnatumcollected from natural truffle orchards in Somogy (Hungary) during one truffle season (October 2018–January 2019)Niimi et al. 2021
EukaryotaTuber Magnatumcollected from natural truffle orchards in Abruzzo (Italy) during one truffle season (October 2018–January 2019)Niimi et al. 2021
EukaryotaTuber Magnatumcollected from natural truffle orchards in Kalubara (Serbia) during one truffle season (October 2018–January 2019)Niimi et al. 2021
EukaryotaTuber Magnatumcollected from natural truffle orchards in Srem (Serbia) during one truffle season (October 2018–January 2019)Niimi et al. 2021
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaBacillus Cereuspromote fungal hypocrellin A production in Shiraia sp. S9isolate and deposite at the China General Microbiological Culture Collection Center (CGMCC)Xu et al. 2022
EukaryotaBotrytis Sp.NAKikuchi et al. 1983
EukaryotaFusarium Sp.NATakeuchi et al. 2012
EukaryotaAspergillus Sp.NASeifert and King 1982
EukaryotaGanoderma ApplanatumNAZiegenbein et al. 2010
ProkaryotaBacillus SimplexReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus SubtilisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus WeihenstephanensisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaMicrobacterium OxydansReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStenotrophomonas MaltophiliaReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStreptomyces LateritiusReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaSerratia MarcescensReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStaphylococcus Xylosusn/aNASchulz and Dickschat 2007
ProkaryotaLactococcus Sp.n/aNASchulz and Dickschat 2007
ProkaryotaArthrobacter Globiformisn/aNASchulz and Dickschat 2007
ProkaryotaBacillus Sp.Inhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaStenotrophomonas MaltophiliaInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaAlcaligenes FaecalisInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaArthrobacter NitroguajacolicusInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaLysobacter GummosusInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
ProkaryotaSporosarcina GinsengisoliInhibition of Mycelium growth of Paecilomyces lilacinus and Pochonia chlamydosporia.NAZou et al. 2007
EukaryotaTuber Aestivumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaTuber Melanosporumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
EukaryotaGanoderma Lucidumnasaprophytic on deciduous treesCampos Ziegenbein et al. 2006
EukaryotaSpongiporus Leucomallellusnasaprophytic mostly on wet, old pinesCampos Ziegenbein et al. 2006
EukaryotaFomitopsis PinicolanaGermanyRösecke et al. 2000
EukaryotaTrametes Suaveolensnanear Zachersmühle, Göppingen, southern GermanyRösecke et al. 2000
EukaryotaPleurotus EryngiinanaUsami et al. 2014
EukaryotaTuber MelanosporumNoneT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
EukaryotaTuber IndicumNoneT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
ProkaryotaEnterobacter Sp.NANAAlmeida et al. 2022
Meyerozyma GuilliermondiiXiong et al. 2023
Enterobacter AgglomeransTallon et al. 2023
Enterobacter CloacaeTallon et al. 2023
Klebsiella OxytocaTallon et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Staphylococcus AureusWang et al. 2023
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEscherichia ColiLBMCC-IMSno
ProkaryotaPseudomonas AeruginosaLBMCC-IMSno
EukaryotaCandida ParapsilosisTSBSPME/GC-MSno
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaStaphylococcus AureusMueller Hinton broth (MB), tryptic soy broth (TSB)SPME, DVB/CAR/PDMS, GC-MSno
ProkaryotaAcinetobacter RadioresistensTSASPME, GC-MSno
ProkaryotaStaphylococcus EpidermidisMOPS glucose+EZSPME, GC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaTuber MagnatumGC-MS-Ono
ProkaryotaStaphylococcus EpidermidisBHI media, LB media, MHB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaBacillus CereusLB agarHS-SPME/GC-MSyes
EukaryotaBotrytis Sp.no
EukaryotaFusarium Sp.no
EukaryotaAspergillus Sp.no
EukaryotaGanoderma Applanatumno
ProkaryotaBacillus Simplexn/an/ano
ProkaryotaBacillus Subtilisn/an/ano
ProkaryotaBacillus Weihenstephanensisn/an/ano
ProkaryotaMicrobacterium Oxydansn/an/ano
ProkaryotaStenotrophomonas Maltophilian/an/ano
ProkaryotaStreptomyces Lateritiusn/an/ano
ProkaryotaSerratia Marcescensn/an/ano
ProkaryotaStaphylococcus Xylosusn/an/ano
ProkaryotaLactococcus Sp.n/an/ano
ProkaryotaArthrobacter Globiformisn/an/ano
ProkaryotaBacillus Sp.n/an/ano
ProkaryotaAlcaligenes Faecalisn/an/ano
ProkaryotaArthrobacter Nitroguajacolicusn/an/ano
ProkaryotaLysobacter Gummosusn/an/ano
ProkaryotaSporosarcina Ginsengisolin/an/ano
EukaryotaTuber Aestivumn/an/ano
EukaryotaTuber Melanosporumn/an/ano
ProkaryotaBurkholderia GraminisMS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
EukaryotaGanoderma LucidumnaGC/MSno
EukaryotaSpongiporus LeucomallellusnaGC/MSno
EukaryotaFomitopsis PinicolanaGC/MSno
EukaryotaTrametes SuaveolensnaGC/MSno
EukaryotaPleurotus EryngiinaGC/MS, GC-O, AEDAno
EukaryotaTuber MelanosporumNoneNoneyes
EukaryotaTuber IndicumNoneNoneyes
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
ProkaryotaEnterobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Enterobacter Agglomeranstryptone soya broth (TSB) mediaTenax/GC/MSno
Enterobacter Cloacaetryptone soya broth (TSB) mediaTenax/GC/MSno
Klebsiella Oxytocatryptone soya broth (TSB) mediaTenax/GC/MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno
Staphylococcus Aureusraw Shiyang chickenHS-GC-IMS/HS-SPME-GC-MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


2-phenylpropan-2-ol

Mass-Spectra

Compound Details

Synonymous names
2-Phenyl-2-propanol
2-Phenylpropan-2-ol
617-94-7
Dimethylphenylcarbinol
1-Hydroxycumene
Dimethylphenylmethanol
2-PHENYLISOPROPANOL
alpha-Cumyl alcohol
alpha,alpha-Dimethylbenzyl alcohol
Phenyldimethylcarbinol
2-Propanol, 2-phenyl-
2-phenyl-propan-2-ol
Dimethyl phenyl carbinol
alpha,alpha-Dimethylbenzenemethanol
a,a-dimethylbenzyl alcohol
NSC 1261
Benzyl alcohol, alpha,alpha-dimethyl-
Benzenemethanol, alpha,alpha-dimethyl-
NSC 212537
.alpha.-Cumyl alcohol
Benzenemethanol, .alpha.,.alpha.-dimethyl-
MFCD00004456
.alpha.,.alpha.-Dimethylbenzyl alcohol
Benzyl alcohol, .alpha.,.alpha.-dimethyl-
JE030BGE05
DTXSID3027247
NSC-1261
NSC-212537
Benzyl alcohol,.alpha.-dimethyl-
Benzenemethanol,.alpha.-dimethyl-
2-phenylpropanol-2
HSDB 5718
EINECS 210-539-5
BRN 1905012
UNII-JE030BGE05
AI3-05532
dimethylphenyl carbinol
2-Phenylisopropyl alcohol
1-Methyl-1-phenylethanol
2-Hydroxy-2-phenylpropane
EC 210-539-5
4-06-00-03219 (Beilstein Handbook Reference)
SCHEMBL164244
2-Phenyl-2-propanol, 97%
DTXCID107247
CHEMBL3185495
alpha,alpha-dimethylbenzyl aldohol
NSC1261
(1-hydroxy-1-methylethyl)benzene
CHEBI:131607
2-PHENYLISOPROPANOL [HSDB]
AMY25731
STR08958
Tox21_200449
NSC212537
AKOS009158102
CS-W016526
HY-W015810
MCULE-1685813708
PB47644
PS-4036
.alpha.,.alpha.-Dimethylbenzenemethanol
NCGC00248623-01
NCGC00258003-01
CAS-617-94-7
SY021550
NS00010783
P0213
BENZENEMETHANOL, ALPHA, ALPHA, DIMETHYL
EN300-120905
P15346
A868634
W-105093
Q15726116
InChI=1/C9H12O/c1-9(2,10)8-6-4-3-5-7-8/h3-7,10H,1-2H
Microorganism:

Yes

IUPAC name2-phenylpropan-2-ol
SMILESCC(C)(C1=CC=CC=C1)O
InchiInChI=1S/C9H12O/c1-9(2,10)8-6-4-3-5-7-8/h3-7,10H,1-2H3
FormulaC9H12O
PubChem ID12053
Molweight136.19
LogP1.8
Atoms10
Bonds1
H-bond Acceptor1
H-bond Donor1
Chemical Classificationbenzenoids aromatic alcohols alcohols aromatic compounds
CHEBI-ID131607
Supernatural-IDSN0022302

mVOC Specific Details

Volatilization
The Henry's Law constant for 2-phenylisopropanol is estimated as 3.8X10-7 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This value indicates that 2-phenylisopropanol will be essentially nonvolatile from water surfaces(2,SRC). 2-Phenylisopropanol's vapor pressure, 0.047 mm Hg(3,SRC) indicates that volatilization from dry soil surfaces may occur. However, 2-phenylisopropanol's Henry's Law constant(1,SRC) indicates that volatilization from moist soil may not occur(SRC).
Literature: (1) Meylan WM, Howard PH; Environ Toxicol Chem 10: 1283-93 (1991) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Lyman WJ; p 31 in Environmental Exposure From Chemicals Vol I, Neely WB, Blau GE(eds), Boca Raton, FL: CRC Press (1985)
Solubility
INSOL IN WATER; SOL IN ETHANOL, ETHER, BENZENE
Literature: Lide, D.R. (ed.). CRC Handbook of Chemistry and Physics. 75th ed. Boca Raton, Fl: CRC Press Inc., 1994-1995., p. 3-52
Soil Adsorption
Using a structure estimation method based on molecular connectivity indexes(1), the Koc for 2-phenylisopropanol can be estimated to be about 36(SRC). The Koc of 2-phenylisopropanol can also be estimated to be approximately 274(SRC), using an estimated log Kow of 1.95(2,SRC) and a regression-derived equation(3,SRC). According to a recommended classification scheme(4), these estimated Koc values suggest that 2-phenylisopropanol has very high to medium mobility in soil(SRC).
Literature: (1) Meylan WM et al; Environ Sci Technol 28: 459-65 (1992) (2) Meylan WM, Howard PH; J Pharm Sci 84: 83-92 (1995) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington DC: Amer Chem Soc pp. 4-9 (1990) (4) Swann RL et al; Res Rev 85: 23 (1983)
Vapor Pressure
PressureReference
Vapor pressure = 0.52 mm Hg at 37.8 deg CYaws CL; Handbook of Vapor Pressure Vol 3 - C8 to C28 Compounds. Houston, TX: Gulf Publishing Co pg 127 (1994)
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaStaphylococcus AureusAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStreptomycetes Sp.n/aNASchulz and Dickschat 2007
ProkaryotaStreptomyces Sp.n/aNADickschat et al. 2005_2
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
ProkaryotaStenotrophomonas MaltophiliaclinicPreti et al. 2009
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaStaphylococcus AureusLB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStaphylococcus EpidermidisLB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStreptomycetes Sp.n/an/ano
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
ProkaryotaStenotrophomonas MaltophiliaBlood agar/chocolate blood agaHS-SPME/GC-MS no


(1S,4S)-1,6-dimethyl-4-propan-2-yl-1,2,3,4-tetrahydronaphthalene

Mass-Spectra

Compound Details

Synonymous names
CALAMENENE
cis-Calamenene
483-77-2
72937-55-4
(+/-)-Cadina-1,3,5-triene
Calamenene, cis-(+/-)-
5C6W67N6XM
Naphthalene, 1,2,3,4-tetrahydro-1,6-dimethyl-4-(1-methylethyl)-, (1S-cis)-
R8O22WBF8L
UNII-5C6W67N6XM
(1S,4S)-1,6-dimethyl-4-propan-2-yl-1,2,3,4-tetrahydronaphthalene
(-)-Calamenene
Naphthalene, 1,2,3,4-tetrahydro-1,6-dimethyl-4-(1-methylethyl)-, (1R,4R)-rel-
(Z)-calamenene
1-S-cis-Calamenene
Cadina-1,3,5-triene
1S-CIS-CALAMENENE
UNII-R8O22WBF8L
CALAMENENE, (-)-
(1S,4S)-4-Isopropyl-1,6-dimethyl-1,2,3,4-tetrahydronaphthalene
(1S,4S)-1,6-dimethyl-4-(propan-2-yl)-1,2,3,4-tetrahydronaphthalene
CALAMENENE, CIS-(-)-
IT SHOULD BE NOTED THAT cis-calamenene is eluted late vs trans-calamenene
DTXSID40880702
CHEBI:218611
PGTJIOWQJWHTJJ-STQMWFEESA-N
DTXSID501042907
(-)-CADINA-1,3,5-TRIENE
NS00095902
Q63398612
(1S-cis)-1,6-Dimethyl-4-(1-methylethyl)-1,2,3,4-tetrahydronaphthalene
1,2,3,4-tetrahydro-1,6-dimethyl-4(1-methylethyl)-(1s-cis)-naphthalene
Rel-(1S,4S)-4-isopropyl-1,6-dimethyl-1,2,3,4-tetrahydronaphthalene
(1S,4S)-1,2,3,4-TETRAHYDRO-1,6-DIMETHYL-4-(1-METHYLETHYL)NAPHTHALENE
naphthalene, 1,2,3,4-tetrahydro-1,6-dimethyl-4- (1-methylethyl)-, (1S-cis)-
NAPHTHALENE, 1,6-DIMETHYL-4-(1-METHYLETHYL)-1,2,3,4-TETRAHYDRO-, (1S-Z)-
Microorganism:

Yes

IUPAC name(1S,4S)-1,6-dimethyl-4-propan-2-yl-1,2,3,4-tetrahydronaphthalene
SMILESCC1CCC(C2=C1C=CC(=C2)C)C(C)C
InchiInChI=1S/C15H22/c1-10(2)13-8-6-12(4)14-7-5-11(3)9-15(13)14/h5,7,9-10,12-13H,6,8H2,1-4H3/t12-,13-/m0/s1
FormulaC15H22
PubChem ID6429077
Molweight202.33
LogP5.1
Atoms15
Bonds1
H-bond Acceptor0
H-bond Donor0
Chemical Classificationaromatic compounds benzenoids terpenes
CHEBI-ID218611
Supernatural-IDSN0284979-04

mVOC Specific Details

Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaLactobacillus PlantarumNAYang et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaStreptomyces GriseusNARiu et al. 2022
EukaryotaLaccaria Bicolorn/aNAMueller et al. 2013
EukaryotaPaxillus Involutusn/aNAMueller et al. 2013
EukaryotaArmillaria Mellean/aNAMueller et al. 2013
EukaryotaPholiota Squarrosan/aNAMueller et al. 2013
EukaryotaStropharia Rugosoannulatan/aNAMueller et al. 2013
EukaryotaTrichoderma Viriden/aNAMueller et al. 2013
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/aNADickschat et al. 2005_3
ProkaryotaStreptomyces Caviscabiesn/aNASchulz and Dickschat 2007
ProkaryotaStreptomyces Sp.n/aNADickschat et al. 2005_2
EukaryotaPhoma Sp.n/aNAStrobel et al. 2011
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaLactobacillus Plantarumginkgo biloba kernel juicetriple quadrupole GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaStreptomyces GriseusTSA mediaSPME/GC-MSno
EukaryotaLaccaria BicolorMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPaxillus InvolutusMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaArmillaria MelleaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPholiota SquarrosaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaStropharia RugosoannulataMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaTrichoderma VirideMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/an/ano
ProkaryotaStreptomyces Caviscabiesn/an/ano
ProkaryotaStreptomyces Sp.n/an/ano
EukaryotaPhoma Sp.n/aSolid phase microextraction (SPME)no


2-methylthiophene

Mass-Spectra

Compound Details

Synonymous names
2-METHYLTHIOPHENE
554-14-3
Thiophene, 2-methyl-
2-methyl thiophene
2-methyl-thiophene
2-Methylthiacyclopentadiene
7115JAP77A
MFCD00005451
25154-40-9
Thiophene, methyl-
alpha-Methylthiophene
CCRIS 2936
C5H6S
EINECS 209-063-0
BRN 0103734
UNII-7115JAP77A
a-Thiotolene
AI3-15911
2-thiotolene
2-methylthiophen
5-Methyl-2-thiophene
2-Methylthiophene, 98%
.ALPHA.-METHYLTHIOPHENE
DTXSID3060291
FEMA NO. 4928
CHEBI:141567
AMY23234
BCP27458
STR03626
2-Methylthiophene, analytical standard
AKOS000120897
CS-W011331
HY-W010615
MCULE-7297776024
AC-16543
PD158284
DB-052725
M0635
NS00022367
EN300-20445
A15646
F10310
Q-100634
Q15632818
F0001-1454
InChI=1/C5H6S/c1-5-3-2-4-6-5/h2-4H,1H
2-Methylthiophene, certified reference material, TraceCERT(R)
Microorganism:

Yes

IUPAC name2-methylthiophene
SMILESCC1=CC=CS1
InchiInChI=1S/C5H6S/c1-5-3-2-4-6-5/h2-4H,1H3
FormulaC5H6S
PubChem ID11126
Molweight98.17
LogP2.3
Atoms6
Bonds0
H-bond Acceptor1
H-bond Donor0
Chemical Classificationaromatic compounds sulfur compounds heterocyclic compounds
CHEBI-ID141567
Supernatural-IDSN0437388

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaClostridium Difficileoutbreak 2006 UKRees et al. 2016
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaClostridium Difficilebrain heart infusionGCxGC-TOF-MSyes


2,4-dimethylfuran

Mass-Spectra

Compound Details

Synonymous names
2,4-DIMETHYLFURAN
3710-43-8
Furan, 2,4-dimethyl-
2,4-dimethyl-furan
3,5-dimethylfuran
WWC3WDX33J
2,4-Dimethylfuran #
UNII-WWC3WDX33J
CHEBI:89526
DTXSID50190602
MFCD00511327
AKOS015905551
DB-355241
EN300-325734
F87949
Q27161722
Microorganism:

Yes

IUPAC name2,4-dimethylfuran
SMILESCC1=CC(=CO1)C
InchiInChI=1S/C6H8O/c1-5-3-6(2)7-4-5/h3-4H,1-2H3
FormulaC6H8O
PubChem ID19462
Molweight96.13
LogP1.8
Atoms7
Bonds0
H-bond Acceptor1
H-bond Donor0
Chemical Classificationaromatic compounds ethers heterocyclic compounds furan derivatives
CHEBI-ID89526
Supernatural-IDSN0000062

Species emitting the compound
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaLB-LennoxSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB brothSPME/GCxGC-MSno
EukaryotaCandida AlbicansSDATD/GC-MSno
EukaryotaCandida TropicalisSDATD/GC-MSno
EukaryotaCandida KruseiSDATD/GC-MSno
EukaryotaCandida GlabrataSDATD/GC-MSno
EukaryotaFusarium OxysporumLiquid onion extract medium (LOM)SPME, GC-MSno
EukaryotaFusarium ProliferatumLiquid onion extract medium (LOM)SPME, GC-MSno
ProkaryotaCollimonas Fungivoranssand supplemented with artificial root exudatesHeadspace trapping/GC-MSno
ProkaryotaCollimonas Pratensissand supplemented with artificial root exudatesHeadspace trapping/GC-MSno
EukaryotaFusarium Sp.no
EukaryotaPaecilomyces VariotiiMEAGC/MSno
EukaryotaFusarium Culmorumpotato dextrose agarGC/MS-Q-TOFno


Methyl Benzoate

Mass-Spectra

Compound Details

Synonymous names
METHYL BENZOATE
93-58-3
Methylbenzoate
Benzoic acid, methyl ester
benzoic acid methyl ester
Clorius
Methyl benzenecarboxylate
Essence of niobe
Oxidate le
FEMA No. 2683
Methyl benzoate (natural)
Methylester kyseliny benzoove
NSC 9394
CCRIS 5851
HSDB 5283
EINECS 202-259-7
UNII-6618K1VJ9T
DTXSID5025572
CHEBI:72775
AI3-00525
CLORIUS-
6618K1VJ9T
NSC-9394
MFCD00008421
Methyl ester of benzoic acid
DTXCID405572
EC 202-259-7
CAS-93-58-3
UN2938
Methylester kyseliny benzoove [Czech]
Benzoato de metilo
methyloxycarbonylbenzene
benzoic acid methylester
Methyl benzoate, 99%
Methyl-benzenecarboxylate
Benzoic acid-methyl ester
WLN: 1OVR
SCHEMBL7200
METHYL BENZOATE [MI]
MLS001050185
CHEMBL16435
METHYL BENZOATE [FCC]
METHYL BENZOATE [FHFI]
METHYL BENZOATE [HSDB]
METHYL BENZOATE [INCI]
SCHEMBL4790973
SCHEMBL10330498
NSC9394
Methyl benzoate, >=99% (GC)
Methyl benzoate, analytical standard
Tox21_201832
Tox21_303198
BBL010502
STK021498
AKOS000120640
Methyl benzoate, >=98%, FCC, FG
AT34734
MCULE-3681534655
UN 2938
Methyl benzoate, for synthesis, 98.0%
NCGC00091665-01
NCGC00091665-02
NCGC00256939-01
NCGC00259381-01
BP-31073
SMR001216584
VS-02533
B0074
NS00012849
EN300-15500
Methyl benzoate, natural, >=98%, FCC, FG
C20645
A844641
Q417328
J-522592
Methyl benzoate [UN2938] [Keep away from food]
Z19825577
F0001-2239
InChI=1/C8H8O2/c1-10-8(9)7-5-3-2-4-6-7/h2-6H,1H
Microorganism:

Yes

IUPAC namemethyl benzoate
SMILESCOC(=O)C1=CC=CC=C1
InchiInChI=1S/C8H8O2/c1-10-8(9)7-5-3-2-4-6-7/h2-6H,1H3
FormulaC8H8O2
PubChem ID7150
Molweight136.15
LogP2.1
Atoms10
Bonds2
H-bond Acceptor2
H-bond Donor0
Chemical Classificationaromatic compounds benzenoids esters
CHEBI-ID72775
Supernatural-IDSN0311624

mVOC Specific Details

Boiling Point
DegreeReference
199 °C peer reviewed
Volatilization
The Henry's Law constant for methyl benzoate is estimated as 3.24X10-5 atm-cu m/mole(SRC) derived from its vapor pressure, 0.38 mm Hg(1), and water solubility, 2.1X10+3 mg/L(2). This Henry's Law constant indicates that methyl benzoate is expected to volatilize from water surfaces(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 22 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 14 days(SRC). Methyl benzoate's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). Methyl benzoate is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 0.38 mm Hg(1).
Literature: (1) Daubert TE, Danner RP; Data Compilation Tables of Properties of Pure Compounds New York, NY: Amer Inst for Phys Prop Data (1989) (2) Riddick JA et al; Organic Solvents 4th ed. New York, NY: Wiley (1986) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
The adsorption of methyl benzoate was determined by a modified version of the OECD guideline 106, a batch equilibrium method, in three soils with different characteristics: an acid forest soil (Podzol), an agricultural soil (Alfisol), and a sediment. The respective Freundlich constants, Kf (1/n), for the three soils were 8.64 (0.81), 1.29 (0.85), and 1.51 (0.84)(1). Koc values for the Podzol, Alfisol and sediment were 178, 103, and 95, respectively(1). Methyl benzoate also has a reported log Koc value of 2.10 (Koc = 126)(2). Using a structure estimation method based on molecular connectivity indices(3), the Koc of methyl benzoate can be estimated to be 70(SRC). According to a classification scheme(3), methyl benzoate is expected to have moderate to high mobility in soil.
Literature: (1) Von Oepen B et al; Chemosphere 22: 285-304 (1991) (2) Schuurmann G et al; Environ Sci Technol 40: 7005-11 (2006) (3) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
0.38 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
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaMycobacterium TuberculosisNANANawrath et al. 2012
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaEnterobacter CloacaeNANAJünger et al. 2012
ProkaryotaStreptomyces Sp.antifungal activity against Colletotrichum gloeosporioides (growth and spore inhibition)coral reef of Old Providence and Santa Catalina Islands, Colombian, Caribbean SeaGómez et al. 2021
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaStaphylococcus Epidermidisstrains were provided by Prof. O'Gara at NUI GalwayFitzgerald et al. 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
EukaryotaSerendipita IndicaInstitute of Phytopathology, Justus-Liebig-Universität, Gießen, Germany; origin: isolates from sudangrass roots growing in soil-based trap systemsVenneman et al. 2020
EukaryotaSerendipita WilliamsiiInstitute of Phytopathology, Justus-Liebig-Universität, Gießen, Germany; origin: isolates from sudangrass roots growing in soil-based trap systemsVenneman et al. 2020
ProkaryotaStreptomyces Sp.n/aNASchulz and Dickschat 2007
ProkaryotaStigmatella Sp.n/aNASchulz and Dickschat 2007
EukaryotaPhellinus Sp.n/aNAStotzky and Schenck 1976
ProkaryotaStigmatella Aurantiacan/aNADickschat et al. 2005_5
ProkaryotaSalinispora Tropicanamarine sedimentGroenhagen et al. 2016
ProkaryotaPseudomonas Syringaenaphyllosphere of field-grown potato plantsHunziker et al. 2015
EukaryotaPhialophora FastigiatananaSunesson et al. 1995
EukaryotaCladosporium Sp.nanaNaznin et al. 2014
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaMetschnikowia HawaiiensisNANALjunggren et al. 2019
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaMycobacterium Tuberculosis7H11GC-MSno
ProkaryotaEscherichia ColiBHISPME/GC-MSno
ProkaryotaEscherichia ColiTSBSPME/GC-MSno
ProkaryotaEscherichia ColiLBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaEnterobacter CloacaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaStreptomyces Sp.ISP2 (International Streptomyces Project) mediaGS-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaStaphylococcus EpidermidisTSB mediaHS-SPME/GC-MSno
ProkaryotaStaphylococcus EpidermidisLB mediaHS-SPME/GC×GC-TOFMSno
EukaryotaSerendipita IndicaPD agarPTR-TOF-MSyes
EukaryotaSerendipita WilliamsiiPD agarPTR-TOF-MSyes
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaStigmatella Sp.n/an/ano
EukaryotaPhellinus Sp.n/an/ano
ProkaryotaStigmatella Aurantiacan/an/ano
ProkaryotaSalinispora Tropicaseawater-based A1GC/MSno
ProkaryotaPseudomonas SyringaeLB mediumGC/MSyes
EukaryotaPhialophora FastigiataDG18GC/MSno
EukaryotaCladosporium Sp.naSPME-GC/MSno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaMetschnikowia Hawaiiensisliquid YPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno


5-methyl-2,4-di(propan-2-yl)phenol

Compound Details

Synonymous names
2,4-Diisopropyl-5-methylphenol
40625-96-5
4,6-Diisopropyl-m-cresol
5-Methyl-2,4-diisopropylphenol
Phenol, 5-methyl-2,4-bis(1-methylethyl)-
5-methyl-2,4-di(propan-2-yl)phenol
m-Cresol, 4,6-diisopropyl-
319EQ0TMXT
Phenol, 5-methyl-2,4-diisopropyl
UNII-319EQ0TMXT
2,4,5-Trimethyl-Phenol
SCHEMBL1245089
DTXSID00335905
CHEBI:169631
2,4-Diisopropyl-5-methylphenol #
AKOS023093774
5-methyl-2,4-bis(propan-2-yl)phenol
2,4-bis(1-methylethyl)-5-methylphenol
5-Methyl-2,4-bis(1-methylethyl)phenol, 9CI
Q27256033
Microorganism:

Yes

IUPAC name5-methyl-2,4-di(propan-2-yl)phenol
SMILESCC1=CC(=C(C=C1C(C)C)C(C)C)O
InchiInChI=1S/C13H20O/c1-8(2)11-7-12(9(3)4)13(14)6-10(11)5/h6-9,14H,1-5H3
FormulaC13H20O
PubChem ID527839
Molweight192.3
LogP4.2
Atoms14
Bonds2
H-bond Acceptor1
H-bond Donor1
Chemical Classificationaromatic compounds phenols benzenoids
CHEBI-ID169631
Supernatural-IDSN0250501

mVOC Specific Details


Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


2-nonylphenol

Compound Details

Synonymous names
2-Nonylphenol
Phenol, nonyl-
25154-52-3
136-83-4
o-Nonylphenol
Nonyl phenol
Phenol, 2-nonyl-
n-Nonylphenol
24R8721A3S
2-n-nonylphenol
UNII-24R8721A3S
2-n-nonyl-phenol
EINECS 205-263-7
Ortho-n-nonyl-phenol
SCHEMBL15886
BIDD:ER0079
DTXSID9073125
AKOS015889917
AS-56574
NS00003975
Q27253871
Phenol, 2-nonyl-; Phenol, o-nonyl- (6CI,8CI); 2-Nonylphenol; o-Nonylphenol; 2-n-Nonylphenol
Microorganism:

Yes

IUPAC name2-nonylphenol
SMILESCCCCCCCCCC1=CC=CC=C1O
InchiInChI=1S/C15H24O/c1-2-3-4-5-6-7-8-11-14-12-9-10-13-15(14)16/h9-10,12-13,16H,2-8,11H2,1H3
FormulaC15H24O
PubChem ID67296
Molweight220.35
LogP6.2
Atoms16
Bonds8
H-bond Acceptor1
H-bond Donor1
Chemical Classificationaromatic compounds phenols benzenoids
Supernatural-IDSN0350451

mVOC Specific Details


Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


2-tert-butyl-4-methylphenol

Compound Details

Synonymous names
2-tert-Butyl-4-methylphenol
2409-55-4
2-tert-Butyl-p-cresol
2-(tert-butyl)-4-methylphenol
4-Methyl-2-tert-butylphenol
o-tert-Butyl-p-cresol
p-Cresol, 2-tert-butyl-
2-t-Butyl-p-cresol
4-Methyl-6-t-butylphenol
2-T-BUTYL-4-METHYLPHENOL
2-Terc.butyl-p-kresol
Phenol, 2-(1,1-dimethylethyl)-4-methyl-
4-Methyl-2-t-butylphenol
2-tert-Butyl-4-methyl-1-phenol
1-Hydroxy-2-tert-butyl-4-methylbenzene
2-tert-Butyl-4-methyl-phenol
4-Methyl-2-(1,1-dimethylethyl)phenol
Phenol, (1,1-dimethylethyl)-4-methyl-
NSC 60301
2-(1,1-Dimethylethyl)-4-methylphenol
MFCD00002381
Y9VVU7G7J4
25567-40-2
DTXSID2020212
NSC-60301
DTXCID00212
CAS-2409-55-4
CCRIS 4045
2-terc.Butyl-p-kresol [Czech]
HSDB 5875
EINECS 219-314-6
UNII-Y9VVU7G7J4
BRN 1817645
2-tert-Butyl-4-cresol
mono-tert-butyl-p-cresol
EC 219-314-6
TimTec1_002162
4-06-00-03397 (Beilstein Handbook Reference)
SCHEMBL270433
?2-tert-Butyl-4-methylphenol
2-tertiarybutyl-4-methylphenol
CHEMBL281976
T-BUTYL P-CRESOL [INCI]
HMS1540C06
NSC60301
Phenol,1-dimethylethyl)-4-methyl-
WLN: QR D1 BX1&1&1
EINECS 247-108-6
Tox21_201938
Tox21_303003
2-tert-Butyl-4-methylphenol, 99%
STK367442
AKOS000120238
CS-W016085
MCULE-2818863629
BUTYL-4-METHYLPHENOL, 2-TERT-
2-(1,1-Dimethylethyl)-4-methyl-phenol
NCGC00249138-01
NCGC00249138-02
NCGC00256616-01
NCGC00259487-01
2-T-BUTYL-4-METHYLPHENOL [HSDB]
LS-13987
DB-019858
B0910
NS00004882
EN300-20370
D84620
AB00443915-03
W-107351
BRD-K22403246-001-01-7
Q27294416
F0001-0824
Z104477904
InChI=1/C11H16O/c1-8-5-6-10(12)9(7-8)11(2,3)4/h5-7,12H,1-4H
Microorganism:

Yes

IUPAC name2-tert-butyl-4-methylphenol
SMILESCC1=CC(=C(C=C1)O)C(C)(C)C
InchiInChI=1S/C11H16O/c1-8-5-6-10(12)9(7-8)11(2,3)4/h5-7,12H,1-4H3
FormulaC11H16O
PubChem ID17004
Molweight164.24
LogP3.6
Atoms12
Bonds1
H-bond Acceptor1
H-bond Donor1
Chemical Classificationaromatic compounds phenols benzenoids

mVOC Specific Details

Boiling Point
DegreeReference
237 °C peer reviewed
Volatilization
The Henry's Law constant for 2-t-butyl-4-methylphenol is estimated as 1.5X10-6 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This value indicates that 2-t-butyl-4-methylphenol will volatilize from water surfaces(2,SRC). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec) is estimated as approximately 31 days(2,SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec) is estimated as approximately 227 days(2,SRC). 2-t-Butyl-4-methylphenol's Henry's Law constant(1,SRC) indicates that volatilization from moist soil may occur(SRC).
Soil Adsorption
Using a structure estimation method based on molecular connectivity indexes(1), the Koc for 2-t-butyl-4-methylphenol can be estimated to be about 3200(SRC). According to a recommended classification scheme(2), this estimated Koc value suggests that 2-t-butyl-4-methylphenol will be immobile in soil(SRC).
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


2,4-ditert-butylphenol

Mass-Spectra

Compound Details

Synonymous names
2,4-Di-tert-butylphenol
96-76-4
2,4-DI-T-BUTYLPHENOL
Antioxidant No. 33
1-Hydroxy-2,4-di-tert-butylbenzene
Prodox 146
Phenol, 2,4-bis(1,1-dimethylethyl)-
Phenol, 2,4-di-tert-butyl-
2,4-bis(tert-butyl)phenol
2,4-ditert-butylphenol
Prodox 146A-85X
2,4-Bis(1,1-dimethylethyl)phenol
2,4-tert-butylphenol
MFCD00008828
NSC 174502
2,4-Di-tert-butylphenol-d18
FOB94G6HZT
2,4-di-tert-butyl phenol
2,4-Di-tert-butyl-phenol
2,4-di~{tert}-butylphenol
CHEMBL29873
DTXSID2026602
2,4-Di-tert-butylhydroxybenzene
2,4-Bis(1,1'-dimethylethyl)phenol
2,4-bis(1,1-dimethylethyl)-phenol
NSC-174502
DTXCID606602
1246816-88-5
CAS-96-76-4
2,4-ditert-butyl-phenol
EINECS 202-532-0
UNII-FOB94G6HZT
Phenol, 2,4-di(1,1-dimethylethyl)-
BRN 1910383
2,4-DTBP
2,4-ditertbutylphenol
2,4-di-tertbutylphenol
2,4di-tert-butylphenol
,4-Di-tert-butylphenol
2,4-di-t-butyl-phenol
2,4-di-tert.butylphenol
2,4-di-tertbutyl phenol
2,4-ditert-butyl phenol
2,4-ditertiarybutylphenol
Phenol,4-di-tert-butyl-
AGIDOL 10
EC 202-532-0
?2,4-Di-tert-butylphenol
2,4-Di-tert.-butylphenol
2,4-ditertiary-butyl phenol
SCHEMBL109921
CHEBI:89188
HSDB 8453
2,4-Di-tert-butylphenol, 99%
BCP24012
Phenol,4-bis(1,1-dimethylethyl)-
Tox21_202320
Tox21_300114
BDBM50409544
NSC174502
Phenol,2,4-Bis(1,1-dimethylethyl)
1-Hydroxy-2, 4-di-tert-butylbenzene
AKOS003669719
CS-W015305
HY-W014589
MCULE-6010467095
NCGC00164059-01
NCGC00164059-02
NCGC00164059-03
NCGC00254167-01
NCGC00259869-01
AS-13983
PD158314
2,4-Ditert-butylphenol (ACD/Name 4.0)
WLN: 1X1&1&R BQ CX1&1&1
D0229
NS00010683
EN300-20927
E76999
A845633
Q-200191
Q26840829
2,4-Di-tert-butylphenol 100 microg/mL in Acetonitrile
F0001-2302
(2S)-N-[(1S)-2-[[(1S)-2-[[(1S)-2-[[(1S)-2-[[2-[[(1S)-1-[[(1S)-4-amino-1-[(2S)-2-[(2-amino-2-oxo-ethyl)carbamoyl]pyrrolidine-1-carbonyl]-4-oxo-butyl]carbamoyl]-3
InChI=1/C14H22O/c1-13(2,3)10-7-8-12(15)11(9-10)14(4,5)6/h7-9,15H,1-6H
UGW
Microorganism:

Yes

IUPAC name2,4-ditert-butylphenol
SMILESCC(C)(C)C1=CC(=C(C=C1)O)C(C)(C)C
InchiInChI=1S/C14H22O/c1-13(2,3)10-7-8-12(15)11(9-10)14(4,5)6/h7-9,15H,1-6H3
FormulaC14H22O
PubChem ID7311
Molweight206.32
LogP4.9
Atoms15
Bonds2
H-bond Acceptor1
H-bond Donor1
Chemical Classificationaromatic compounds phenols benzenoids
CHEBI-ID89188
Supernatural-IDSN0141882

mVOC Specific Details

Boiling Point
DegreeReference
263.5 °C peer reviewed
Volatilization
The Henry's Law constant for 2,4-di-tert-butylphenol is estimated as 3.7X10-5 atm-cu m/mole(SRC) derived from its vapor pressure, 4.77X10-3(1) and water solubilty, 35 mg/L(2). This Henry's Law constant indicates that 2,4-di-tert-butylphenol is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 1.6 days(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 16 days(SRC). 2,4-Di-tert-butylphenol's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). However, volatilization from water surfaces is expected to be attenuated by adsorption to suspended solids and sediment in the water column. The estimated volatilization half-life from a model pond is 120 months if adsorption is considered(4). 2,4-Di-tert-butylphenol is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure(1).
Soil Adsorption
Using a structure estimation method based on molecular connectivity indices(1), the Koc of 2,4-di-tert-butylphenol can be estimated to be 9000(SRC). According to a classification scheme(2), this estimated Koc value suggests that 2,4-di-tert-butylphenol is expected to be immobile in soil(SRC).
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaEscherichia ColiNANADixon et al. 2022
ProkaryotaBacillus Subtilisantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Fluorescensantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
EukaryotaMetschnikowia Reukaufiiinhibitory and promoting effects on the growth of different microorganismsisolate from Aconitum piepunense, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaDebaryomyces Hanseniiinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Blollopisinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaTausonia Pullulansinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaGoffeauzyma Gilvescensinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaRhodotorula Mucilaginosainhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystobasidium Laryngisinhibitory and promoting effects on the growth of different microorganismsisolate from Cerasticum arcticum, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
ProkaryotaShewanella Algaeinhibits mycelial growth of Aspergillus flavus and germination of Aspergillus flavus' conidiasea sediment in east China coastGong et al. 2015
EukaryotaTrichoderma Harzianumn/aNAZhang et al. 2014
ProkaryotaArthrobacter Agilisnarhizosphere of maize plantsVelázquez-Becerra et al. 2011
ProkaryotaSerratia Sp.NANAEtminani et al. 2022
ProkaryotaEnterobacter Sp.NANAEtminani et al. 2022
ProkaryotaPantoea Sp.NANAEtminani et al. 2022
ProkaryotaPseudomonas Sp.NANAEtminani et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2022
ProkaryotaBacillus SubtilisNANALee et al. 2023
Meyerozyma GuilliermondiiXiong et al. 2023
Lactiplantibacillus PlantarumChen et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaEscherichia ColiLBTD/GC-MSno
ProkaryotaBacillus SubtilisLB agarGC-MSno
ProkaryotaPseudomonas FluorescensLB agarGC-MSno
ProkaryotaPseudomonas Sp.DYGS media, ANGLE mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaMetschnikowia Reukaufiiartificial nectar mediaGC-MSno
EukaryotaDebaryomyces Hanseniiartificial nectar mediaGC-MSno
EukaryotaMrakia Blollopisartificial nectar mediaGC-MSno
EukaryotaTausonia Pullulansartificial nectar mediaGC-MSno
EukaryotaGoffeauzyma Gilvescensartificial nectar mediaGC-MSno
EukaryotaRhodotorula Mucilaginosaartificial nectar mediaGC-MSno
EukaryotaCystobasidium Laryngisartificial nectar mediaGC-MSno
ProkaryotaShewanella AlgaeNA mediumSPME-GC/MSyes
EukaryotaTrichoderma HarzianumMinimal mediaSPME/GC-MSno
ProkaryotaArthrobacter AgilisNA mediumSPME-GC/MSno
ProkaryotaSerratia Sp.nutrient agar (NA)GC–MSno
ProkaryotaEnterobacter Sp.nutrient agar (NA)GC–MSno
ProkaryotaPantoea Sp.nutrient agar (NA)GC–MSno
ProkaryotaPseudomonas Sp.nutrient agar (NA)GC–MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
EukaryotaSaccharomyces EubayanusYPD agar media (yeast extract 1%, peptone 2%, glucose 2% and agar 2%)HS‐SPME‐GC‐MSno
ProkaryotaBacillus SubtilisTryptone soy broth (TSB)HPLCno
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Lactiplantibacillus Plantarumfermentation of ginkgo kernel juiceGC-IMSno


Methyl 2-benzylprop-2-enoate

Compound Details

Synonymous names
methyl 2-benzylacrylate
3070-71-1
methyl 2-benzylprop-2-enoate
2-Benzyl Acrylic acid methyl ester
2-Benzylacrylic acid methyl ester
Benzenepropanoic acid, alpha-methylene-, methyl ester
MFCD07787445
2-(phenylmethyl)-2-propenoic acid methyl ester
Methyl 2-benzylarylate
methyl2-benzylacrylate
Benzenepropanoic acid, .alpha.-methylene-, methyl ester
Methyl a-Benzylacrylate
methyl-2-benzylacrylate
Methyl 2-benzyl acrylate
methyl alpha-benzylacrylate
Hydrocinnamic acid, .alpha.-methylene-, methyl ester
SCHEMBL1666500
DTXSID50341793
methyl 2-(phenylmethyl)propenoate
methyl alpha-methylenebenzenepropanoate
AKOS006284944
AS-10966
DA-20363
SY211650
CS-0158062
EN300-268328
A820573
J-018077
methyl 2-benzylprop-2-enoate;2-Benzylacrylic acid methyl ester, stabilized with 100ppm MEHQ
Microorganism:

Yes

IUPAC namemethyl 2-benzylprop-2-enoate
SMILESCOC(=O)C(=C)CC1=CC=CC=C1
InchiInChI=1S/C11H12O2/c1-9(11(12)13-2)8-10-6-4-3-5-7-10/h3-7H,1,8H2,2H3
FormulaC11H12O2
PubChem ID575761
Molweight176.21
LogP2.6
Atoms13
Bonds4
H-bond Acceptor2
H-bond Donor0
Chemical Classificationaromatic compounds esters benzenoids

mVOC Specific Details


Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


Octan-2-yl Benzoate

Compound Details

Synonymous names
2-Octyl benzoate
octan-2-yl benzoate
6938-51-8
2-Octanol, 2-benzoate
1-Methylheptyl benzoate #
benzoic acid octan-2-yl ester
SCHEMBL1142467
DTXSID10288059
WARXKCSTKHDFFE-UHFFFAOYSA-N
benzoic acid 1-methyl-heptyl ester
NSC53972
NSC67893
NSC-53972
NSC-67893
DS-013515
NS00010800
A840205
Microorganism:

Yes

IUPAC nameoctan-2-yl benzoate
SMILESCCCCCCC(C)OC(=O)C1=CC=CC=C1
InchiInChI=1S/C15H22O2/c1-3-4-5-7-10-13(2)17-15(16)14-11-8-6-9-12-14/h6,8-9,11-13H,3-5,7,10H2,1-2H3
FormulaC15H22O2
PubChem ID243800
Molweight234.33
LogP5.7
Atoms17
Bonds8
H-bond Acceptor2
H-bond Donor0
Chemical Classificationaromatic compounds esters benzenoids
Supernatural-IDSN0405194

mVOC Specific Details


Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Bacillus ThuringiensisKoilybayeva et al. 2023
Bacillus AcidiproducensKoilybayeva et al. 2023
Bacillus SafensisKoilybayeva et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
Bacillus Thuringiensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Acidiproducensbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno


1-phenylpropan-2-one

Mass-Spectra

Compound Details

Synonymous names
Phenylacetone
1-phenylpropan-2-one
1-Phenyl-2-propanone
103-79-7
Benzyl methyl ketone
Methyl benzyl ketone
Phenyl-2-propanone
1-Phenylacetone
2-Propanone, 1-phenyl-
3-Phenyl-2-propanone
Phenylmethyl methyl ketone
phenyl acetone
1-phenyl-propan-2-one
136675-26-8
phenylaceton
O7IZH10V9Y
CHEMBL3800510
NSC-9827
NSC 9827
Phenylacetone, 99%
EINECS 203-144-4
UNII-O7IZH10V9Y
(phenyl)acetone
AI3-02938
DEA No. 8501
methylbenzyl ketone
phenyl 2-propanone
1-phenyl propanedione
1-Phenylpropane-2-one
PHENYLACETONE [MI]
SCHEMBL43943
ghl.PD_Mitscher_leg0.660
DTXSID1059280
SCHEMBL13341529
CHEBI:52052
HSDB 8385
NSC9827
Phenylacetone, analytical standard
BCP22277
BDBM50167968
STL373560
AKOS004905656
MCULE-2102027204
NS00017966
A800807
Q418831
AMFETAMINE SULFATE IMPURITY B [EP IMPURITY]
InChI=1/C9H10O/c1-8(10)7-9-5-3-2-4-6-9/h2-6H,7H2,1H
Microorganism:

Yes

IUPAC name1-phenylpropan-2-one
SMILESCC(=O)CC1=CC=CC=C1
InchiInChI=1S/C9H10O/c1-8(10)7-9-5-3-2-4-6-9/h2-6H,7H2,1H3
FormulaC9H10O
PubChem ID7678
Molweight134.17
LogP1.4
Atoms10
Bonds2
H-bond Acceptor1
H-bond Donor0
Chemical Classificationaromatic compounds aromatic ketones ketones benzenoids
CHEBI-ID52052
Supernatural-IDSN0301338

mVOC Specific Details

Boiling Point
DegreeReference
214 °C peer reviewed
Volatilization
The Henry's Law constant for phenyl 2-propanone is estimated as 4.0X10-6 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This Henry's Law constant indicates that phenyl 2-propanone is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 7 days(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 80 days(SRC). Phenyl 2-propanone's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). Phenyl 2-propanone has an estimated vapor pressure of 0.16 mm Hg(SRC), determined from a fragment constant method(3) and exists as a liquid under environmental conditions; therefore, phenyl 2-propanone may volatilize from dry soil.
Soil Adsorption
The Koc of phenyl 2-propanone is estimated as 80(SRC), using a log Kow of 1.44(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that phenyl 2-propanone is expected to have high mobility in soil.
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaBacillus Sp.antifungal activity against Fusarium solaniRhizosphere soil of avocadoGuevara-Avendaño et al. 2019
ProkaryotaKlebsiella Pneumoniaeclinical isolate,bacteremic patientsRees et al. 2017
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStreptomyces Philanthiantifungal activity against Aspergillus parasiticus TISTR 3276 and Aspergillus flavus PSRDC-4NABoukaew and Prasertsan 2020
ProkaryotaCoraliitalea Coraliiisolate from the algal Chromera velia CCAP 1602/1Koteska et al. 2023
ProkaryotaLitoreibacter Sp.isolate from the algal Chromera velia CCAP 1602/1Koteska et al. 2023
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection Robacker and Bartelt 1997
ProkaryotaKlebsiella PneumoniaeAmerican Type Culture Collection Robacker and Bartelt 1997
EukaryotaPleurotus CystidiosusnanaUsami et al. 2014
ProkaryotaStreptomyces Sp.n/aNASchulz and Dickschat 2007
ProkaryotaKlebsiella Sp.n/aNASchulz and Dickschat 2007
ProkaryotaStreptomyces Sp.n/aNADickschat et al. 2005_2
ProkaryotaSerratia Plymuthican/aNAWeise et al. 2014
ProkaryotaSerratia Proteamaculansn/aNAWeise et al. 2014
ProkaryotaSerratia Marcescensn/aNAWeise et al. 2014
ProkaryotaSerratia Odoriferan/aNAWeise et al. 2014
ProkaryotaPseudochrobactrum SaccharolyticumNematicidal activitycow dungXU et al. 2015
ProkaryotaWautersiella FalseniiNematicidal activitycow dungXU et al. 2015
ProkaryotaArthrobacter NicotianaeNematicidal activitycow dungXU et al. 2015
ProkaryotaAchromobacter XylosoxidansNematicidal activitycow dungXU et al. 2015
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaBacillus Sp.LB agarSPME-GC-MSno
ProkaryotaKlebsiella PneumoniaeBHI, LB, MHB, TSBSPME / GCxGC-TOFMSno
ProkaryotaPseudomonas Sp.LB media, DYGS mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaStaphylococcus EpidermidisBHI mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStreptomyces Philanthisterile wheat seedsGC-MSno
ProkaryotaCoraliitalea Coraliimarine broth agarOSSA/GC-MSno
ProkaryotaLitoreibacter Sp.marine broth agarOSSA/GC-MSno
ProkaryotaCitrobacter Freundiitryptic soy broth SPME, GC-MSyes
ProkaryotaKlebsiella Pneumoniaetryptic soy broth SPME, GC-MSyes
EukaryotaPleurotus CystidiosusnaGC/MS, GC-O, AEDAno
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaKlebsiella Sp.n/an/ano
ProkaryotaSerratia PlymuthicaNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia ProteamaculansNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia MarcescensNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia OdoriferaNBIIHeadspace trapping/ GC-MSno
ProkaryotaPseudochrobactrum SaccharolyticumLB liquidSPME-GC/MSno
ProkaryotaWautersiella FalseniiLB liquidSPME-GC/MSno
ProkaryotaArthrobacter NicotianaeLB liquidSPME-GC/MSno
ProkaryotaAchromobacter XylosoxidansLB liquidSPME-GC/MSno


Undecan-5-ylbenzene

Compound Details

Synonymous names
5-Phenylundecane
4537-15-9
Benzene, (1-butylheptyl)-
undecan-5-ylbenzene
Benzene,(1-butylheptyl)-
Undecane, 5-phenyl-
(1-Butylheptyl)-benzene
(1-BUTYLHEPTYL)BENZENE
alpha-butylheptylbenzene
(Undecan-5-yl)benzene
(1-Butylheptyl)benzene #
CHEBI:77513
DTXSID40874984
RRPCXIBGXYGQNC-UHFFFAOYSA-N
NS00095862
Q27147092
Undecane, 5-phenyl- (7CI,8CI); (1-Butylheptyl)benzene; 5-Phenylundecane
Microorganism:

Yes

IUPAC nameundecan-5-ylbenzene
SMILESCCCCCCC(CCCC)C1=CC=CC=C1
InchiInChI=1S/C17H28/c1-3-5-7-9-13-16(12-6-4-2)17-14-10-8-11-15-17/h8,10-11,14-16H,3-7,9,12-13H2,1-2H3
FormulaC17H28
PubChem ID20661
Molweight232.4
LogP7.4
Atoms17
Bonds9
H-bond Acceptor0
H-bond Donor0
Chemical Classificationaromatic compounds alkylbenzenes benzenoids
CHEBI-ID77513

mVOC Specific Details

Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


Dodecan-3-ylbenzene

Compound Details

Synonymous names
dodecan-3-ylbenzene
Benzene, (1-ethyldecyl)-
2400-00-2
3-PHENYLDODECANE
Dodecane, 3-phenyl-
(1-Ethyldecyl)benzene
EINECS 219-272-9
(Dodecan-3-yl)benzene
(1-Ethyldecyl)benzene #
1-(dodecan-3-yl)benzene
1-ETHYLDECYLBENZENE
DTXSID40862922
MFCD00093854
AKOS028108393
NS00048647
Y10572
A929146
Microorganism:

Yes

IUPAC namedodecan-3-ylbenzene
SMILESCCCCCCCCCC(CC)C1=CC=CC=C1
InchiInChI=1S/C18H30/c1-3-5-6-7-8-9-11-14-17(4-2)18-15-12-10-13-16-18/h10,12-13,15-17H,3-9,11,14H2,1-2H3
FormulaC18H30
PubChem ID16979
Molweight246.4
LogP7.9
Atoms18
Bonds10
H-bond Acceptor0
H-bond Donor0
Chemical Classificationaromatic compounds alkylbenzenes benzenoids
Supernatural-IDSN0285044

mVOC Specific Details

Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno


Propylbenzene

Compound Details

Synonymous names
Propylbenzene
N-PROPYLBENZENE
103-65-1
1-Phenylpropane
Phenylpropane
Isocumene
Benzene, propyl-
1-Propylbenzene
n-Propyl benzene
Propylbenzene, n-
propyl benzene
Propyl-benzene
NSC 16941
HSDB 5353
UNII-0WR86ZHG2Z
EINECS 203-132-9
0WR86ZHG2Z
DTXSID3042219
CHEBI:42630
AI3-23862
NSC-16941
CHEMBL286062
DTXCID1022219
Propylbenzene, analytical standard
UN2364
Propylbenzene (all isomers)
benzene, propyl
3H0
Benzene, n-propyl-
PRPH
Propylbenzene, 98%
BENZENE,PROPYL
PROPYLBENZENE [MI]
PHENYLPROPANE [INCI]
WLN: 3R
N-PROPYLBENZENE [HSDB]
Propylbenzene, >=99.0% (GC)
NSC16941
Tox21_300567
BDBM50167945
MFCD00009377
AKOS000120950
MCULE-1436126757
UN 2364
NCGC00248093-01
NCGC00254532-01
CAS-103-65-1
n-Propylbenzene 100 microg/mL in Methanol
NS00006753
P0523
S0656
EN300-20607
n-Propyl benzene [UN2364] [Flammable liquid]
A800778
Q288806
J-001016
J-523764
Z104479154
InChI=1/C9H12/c1-2-6-9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H
Microorganism:

Yes

IUPAC namepropylbenzene
SMILESCCCC1=CC=CC=C1
InchiInChI=1S/C9H12/c1-2-6-9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H3
FormulaC9H12
PubChem ID7668
Molweight120.19
LogP3.7
Atoms9
Bonds2
H-bond Acceptor0
H-bond Donor0
Chemical Classificationaromatic compounds alkylbenzenes benzenoids
CHEBI-ID42630
Supernatural-IDSN0262461

mVOC Specific Details

Boiling Point
DegreeReference
159.2 °C peer reviewed
Volatilization
The Henry's Law constant for n-propylbenzene is 1.05X10-2 atm-cu m/mole(1). This Henry's Law constant indicates that n-propylbenzene is expected to volatilize rapidly from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 1 hour(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 4 days(SRC). Results of mesocosm studies simulating the Narragansett Bay indicate that volatilization is the major removal process from seawater(3); volatilization half-lives of 1.3-19 days were estimated for summer, spring and winter seasons(5). n-Propylbenzene's Henry's Law constant(1) indicates that volatilization from moist soil surfaces may occur(SRC). The potential for volatilization of n-propylbenzene from dry soil surfaces may exist(SRC) based upon it's vapor pressure of 3.42 mm Hg(4).
Soil Adsorption
A Koc of 725 was measured for n-propylbenzene using a surface sediment collected from the Tamar estuary(1). A similar Koc of 676 was measured in a humic acid column via HPLC(2). Adsorption percentages ranging from 0.16 to 5.58% were measured in soil column studies using three different soil types and a sludge sample(3). Using a structure estimation method based on molecular connectivity indices(4), the Koc for n-propylbenzene can be estimated to be 955(SRC). According to a classification scheme(5), these estimated and measured Koc values suggest that n-propylbenzene is expected to have low mobility in soil.
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
Meyerozyma GuilliermondiiXiong et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno