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capric acid

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keemiline ühend

Välised allikad

ZVG number
493011
HCIS ID
5688
MeSH descriptor ID
C031071[1]
Encyclopædia Britannica Online ID
science/capric-acid

teema nimetus kujul: capric acid

NSC number
5025
ChEMBL ID
CHEMBL107498[2]
Nikkaji ID
J2.575E
Human Metabolome Database ID
HMDB0000511[3][4]
JSTOR topic ID
decanoates
AICS Chemical ID (BEING DELETED)
4234
ECHA Substance Infocard ID
100.005.798[5]
PDB structure ID
3STT[6]
4WM8[7]
1GXS[8]
3STY[9]
3STU[10]
1E7E[11]
4GHW[12]
1T5M[13]
1T5N[14]
1P8J[15]
1XT7[16]
1F91[17]
1QQS[18]
1W66[19]
3U9Q[20]
1WBE[21]
3DFK[22]
4TJZ[23]
4MFQ[24]
4MFP[25]
5IBO[26]
1FK0[27]
3NQ3[28]
2FVF[29]
4RW3[30]
2VDB[31]
4YFA[32]
1TF0[33]
1TFJ[34]
NMRShiftDB structure ID
10008813[4]
CAMEO Chemicals ID
17804
Encyclopedia of China (Third Edition) ID
190162
Probes And Drugs ID
PD006780
LIPID MAPS ID
LMFA01010010
Freebase
/m/075pwf[35]
Reaxys registry number
1754556[36]
PubChem CID
2969[37][4]
135373094[4]
UniChem compound ID
400617[38]
PDB ligand ID
DKA
SPLASH
splash10-00di-0900000000-771e7907916bf05e6b10
splash10-00di-0900000000-f1e000384728ee06f802
splash10-00di-1900000000-d5dbc60c65c1a7d34e2f
splash10-004i-9000000000-83e77de04461ded1c4bc
splash10-004i-9000000000-f3190b828218d04d3cc7
splash10-00di-0900000000-53ea38eb25eaea66d22a
splash10-0a4i-0900000000-3eb3455ff5fbfa8a3a2c
splash10-00di-0900000000-8c6cdf0491f51ba6ef26
splash10-00di-0900000000-6ec01ce9b8fdc68d94a9
splash10-00di-0900000000-3afa642872e4450f0c49
splash10-016r-1910000000-1cc1026f6f325d994ab4
splash10-005a-9600000000-f2a54ed1a56ee9b7af77
splash10-014i-0000000910-e82208ed71b4a3735258
splash10-00di-0900000000-0a7f944302bce161f7e5
splash10-00b9-1900000000-b68efbceecf3433a9995
splash10-074l-9100000000-bf788cb34c09c6af56bf
splash10-017i-2920000000-7f6721f01b80a790d544
PesticideInfo chemical ID
PRI1861
OpenAlex ID
C2776950135[39]

teema nimetus kujul: Decanoic acid

C2909411929[39]

teema nimetus kujul: Capric Acid

Vietherb metabolite ID
226
InChIKey
GHVNFZFCNZKVNT-UHFFFAOYSA-N[37][40]
Cannabis Database ID
005775[41]
DrugBank ID
DB03600[4]
ChEBI ID
30813[2][42]

mapping relation type: täpne vaste

DSSTox substance ID
DTXSID9021554[43][4]
CosIng number
74803[44]
J-GLOBAL ID
200907048829064980
UNII
4G9EDB6V73[45][4]
CAS Registry Number
334-48-5[45][46]
SureChEMBL ID
SCHEMBL20553507[3][4]
SCHEMBL2682[3][4]
Guide to Pharmacology Ligand ID
5532[47]
Store norske leksikon ID
kaprinsyre
RTECS number
HD9100000
Gmelin number
69184
Microsoft Academic ID
2776950135
DSSTOX compound identifier
DTXCID201554
KNApSAcK ID
C00001213[36][3][4]
JECFA number
105[48]
FL number
08.011[49]
ChemSpider ID
2863[50]
JECFA database ID
3886
EC number
206-376-4[45]
KEGG ID
C01571
GND
4307052-8
MassBank accession ID
BS003869
BS003870
BS003871
MSBNK-Fac_Eng_Univ_Tokyo-JP009200
MSBNK-Metabolon-MT000104
MSBNK-Keio_Univ-KO000629
MSBNK-Keio_Univ-KO000630
MSBNK-Keio_Univ-KO000631
MSBNK-Keio_Univ-KO000632
MSBNK-Keio_Univ-KO000633
InChI
InChI=1S/C10H20O2/c1-2-3-4-5-6-7-8-9-10(11)12/h2-9H2,1H3,(H,11,12)[37]
RxNorm ID
22380[45]
HSDB ID
2751[51]

üksikjuht nähtusest

type of chemical entity

mille alamklass

medium-chain fatty acid
straight chain fatty acids

keemiline struktuur

mass/kaal

172,146 aatommassiühik[37]

conjugate base

decanoate

chemical formula

C₁₀H₂₀O₂[37]

canonical SMILES

CCCCCCCCCC(=O)O[37]

sulamistemperatuur

31 Celsiuse skaala[52]
31,99 Celsiuse skaala[53]

keemistemperatuur

268,75 Celsiuse skaala[53]

rõhk: 101,325 kilopascal

safety classification and labelling

NFPA 704: Standard System for the Identification of the Hazards of Materials for Emergency Response

NFPA Health: 2

NFPA Special: väärtus puudub

NFPA Fire: 1

NFPA Instability: 0

found in taxon

Artemisia xerophytica[54]
Rhododendron mucronulatum[55]
harilik portulak[56]
Agave decipiens[57]
Serenoa repens[58][59][60][61]
Syagrus romanzoffiana[58]
kandiline naistepuna[62]
Hypericum olympicum[62]
snap bean[63]
kolmeastlaline glediitsia[63]
harilik võilill[64]
harilik tatar[64]
aasristik[64]
Philadelphia fleabane[65]
Daphne odora[66]
Lepidium meyenii[67]
Dipteryx lacunifera[68]
Leea guineense[69]
Erucaria microcarpa[70]
harilik kirikakar[71]
harilik puuvillapõõsas[72][73]
Helichrysum stoechas[74]
Saussurea involucrata[75]
Harilik guajaavipuu[76]
Plumeria rubra[77]
aedkoriander[78]
Freesia hybrida[79]
roog-aruhein[80]
Tordylium apulum[81]
Etlingera elatior[82]
Sideritis hispida[83]
Alpinia latilabris[84]
harilik sinerõigas[85]
Geum heterocarpum[86]
Mandragora autumnalis[87]
suurelehine pärn[88]
Senecio adenotrichius[89]
Põld-lambalääts[90]
Baikali tihashein[91]
Harilik vihmauss[92]
Red-lined Carrion Beetle[93]
Porphyra tenera[94]
Lindera neesiana[95]
mets-kassinaeris[96]
Karella-kibekurk[97]
Narthecium ossifragum[98]
Ruellia tuberosa[99][100]
Xerula longipes[101]
Lagritsa-magusjuur[102]
pikalehine münt[103]
harilik pune[104]
Clinopodium odorum[105]
Anthemis aciphylla[106]
Houttuynia cordata[107][108]
roosilõhnaline kuldjuur[109]
Saxifraga stolonifera[110]
Pycnandra acuminata[111]
Hypericum ericoides[112]
Hypericum perfoliatum[112]
liht-naistepuna[112]
Hypericum tomentosum[112]
Attalea colenda[113]
Canarium album[114]
Tephritidae[115]
valge moosesepõõsas[116]
Eryngium foetidum[117]
Maasikas[118][119]
Duhaldea cappa[120]
Solanum pennellii[121]
lõhnav pelargoon[122]
Lõikheinalised[123]
Sideritis taurica[124]
Chlamydomonas reinhardtii[125]
Attalea speciosa[126]
Streptomyces filamentosus[127]
Lonicera japonica[128]
Mägiarnika[129]
Citropsis articulata[130]
Cyperus conglomeratus[131]
ahtalehine hõbepuu[132]
Oecophylla smaragdina[133][134]
Kiirjas mänd[135]
Salvadora oleoides[136]
Salvadora persica[136]
Ziziphora pedicellata[137]
Võhumõõk[138]
Hansenia forbesii[139]
Homo sapiens[140][141]
Aiouea montana[142]
Granaatõun[143]
Leea guineensis[69]
Litsea involucrata[144]
Delphinium staphisagria[145]
Salvia triloba[146]
Sideritis curvidens[147]
kollane karikakar[148]
varbuss[149]
Cistus creticus[150]
india mangopuu[151][152][153]
Magus kirsipuu[154][155]
Teekummel[156]
teekummel[156]
Harilik papaia[157][158]
harilik nisu[159]
Vääristubakas[160]
Safrankrookus[161]
Tetrapanax papyrifer[162]
Magnolia obovata[163]
Chrozophora verbascifolia[164]
Melaleuca quinquenervia[165]
valgeõieline pojeng[166]
Sideritis syriaca[124]
Salvia fruticosa[146]
Staphisagria macrosperma[145]
harjas-ebakõrges[101]
Rohemünt[103][167]
Litsea glutinosa[144]
Chrozophora tinctoria[164]
Chrozophora obliqua[164]
Harilik alraun[87]
Persicaria minor[168]
Cyperus erectus[169]
Neolitsea cassia[144]
Neolitsea zeylanica[144]
Harilik kesalill[170]
Soolekepike[171]
Persicaria hydropiperoides[168]
Clinopodium gilliesii[105]
Rhododendron sichotense[55]
punane aruhein[80]
Chrozophora plicata[164]
Neolitsea foliosa[144]
Chamaenerion dodonaei[64]
Epilobium dodonaei[64]
Neolitsea umbrosa[144]

physically interacts with

G protein-coupled receptor 84[172]

subjektil on roll: Agonist

subjektil on roll

Antifungal[173]

koosseisu osa

hapnik
süsinik

Commonsi kategooria

Capric acid

Viited

  1. Medical Subject Headings, 14. märts 2018, C031071
  2. 2,0 2,1 ChEMBL, 17. november 2016, inglise keel, DECANOIC ACID, CHEMBL107498
  3. 3,0 3,1 3,2 3,3 inferred from InChIKey
  4. 4,00 4,01 4,02 4,03 4,04 4,05 4,06 4,07 4,08 4,09 GHVNFZFCNZKVNT-UHFFFAOYSA-N, InChIKey
  5. ECHA Substance Infocard database, 27. detsember 2018, 100.005.798, Decanoic acid, CAS no.: 334-48-5
  6. Protein Data Bank, 19. oktoober 2016, inglise keel, 3STT, 3STT
  7. Protein Data Bank, 19. oktoober 2016, inglise keel, 4WM8, 4WM8
  8. Protein Data Bank, 19. oktoober 2016, inglise keel, 1GXS, 1GXS
  9. Protein Data Bank, 19. oktoober 2016, inglise keel, 3STY, 3STY
  10. Protein Data Bank, 19. oktoober 2016, inglise keel, 3STU, 3STU
  11. Protein Data Bank, 19. oktoober 2016, inglise keel, 1E7E, 1E7E
  12. Protein Data Bank, 19. oktoober 2016, inglise keel, 4GHW, 4GHW
  13. Protein Data Bank, 19. oktoober 2016, inglise keel, 1T5M, 1T5M
  14. Protein Data Bank, 19. oktoober 2016, inglise keel, 1T5N, 1T5N
  15. Protein Data Bank, 19. oktoober 2016, inglise keel, 1P8J, 1P8J
  16. Protein Data Bank, 19. oktoober 2016, inglise keel, 1XT7, 1XT7
  17. Protein Data Bank, 19. oktoober 2016, inglise keel, 1F91, 1F91
  18. Protein Data Bank, 19. oktoober 2016, inglise keel, 1QQS, 1QQS
  19. Protein Data Bank, 19. oktoober 2016, inglise keel, 1W66, 1W66
  20. Protein Data Bank, 19. oktoober 2016, inglise keel, 3U9Q, 3U9Q
  21. Protein Data Bank, 19. oktoober 2016, inglise keel, 1WBE, 1WBE
  22. Protein Data Bank, 19. oktoober 2016, inglise keel, 3DFK, 3DFK
  23. Protein Data Bank, 19. oktoober 2016, inglise keel, 4TJZ, 4TJZ
  24. Protein Data Bank, 19. oktoober 2016, inglise keel, 4MFQ, 4MFQ
  25. Protein Data Bank, 19. oktoober 2016, inglise keel, 4MFP, 4MFP
  26. Protein Data Bank, 19. oktoober 2016, inglise keel, 5IBO, 5IBO
  27. Protein Data Bank, 19. oktoober 2016, inglise keel, 1FK0, 1FK0
  28. Protein Data Bank, 19. oktoober 2016, inglise keel, 3NQ3, 3NQ3
  29. Protein Data Bank, 19. oktoober 2016, inglise keel, 2FVF, 2FVF
  30. Protein Data Bank, 19. oktoober 2016, inglise keel, 4RW3, 4RW3
  31. Protein Data Bank, 19. oktoober 2016, inglise keel, 2VDB, 2VDB
  32. Protein Data Bank, 19. oktoober 2016, inglise keel, 4YFA, 4YFA
  33. Protein Data Bank, 19. oktoober 2016, inglise keel, 1TF0, 1TF0
  34. Protein Data Bank, 19. oktoober 2016, inglise keel, 1TFJ, 1TFJ
  35. Freebase Data Dumps, 28. oktoober 2013
  36. 36,0 36,1 ChEBI, 19. oktoober 2016, inglise keel, decanoic acid, 30813
  37. 37,0 37,1 37,2 37,3 37,4 37,5 PubChem, 17. november 2016, inglise keel, 2969, Decanoic acid
  38. UniChem
  39. 39,0 39,1 OpenAlex, 26. jaanuar 2022, https://docs.openalex.org/download-snapshot/snapshot-data-format
  40. ChEBI release 2020-09-01
  41. Cannabis Database
  42. International Chemical Identifier, InChI=1S/C10H20O2/c1-2-3-4-5-6-7-8-9-10(11)12/h2-9H2,1H3,(H,11,12)
  43. Mapping file of InChIStrings, InChIKeys and DTXSIDs for the EPA CompTox Dashboard
  44. CosIng database, 28. detsember 2019, 74803, CAPRIC ACID, CAS no.: 334-48-5
  45. 45,0 45,1 45,2 45,3 Global Substance Registration System, 17. november 2016, inglise keel, capric acid, 4G9EDB6V73
  46. CAS Common Chemistry, 10. aprill 2021, GHVNFZFCNZKVNT-UHFFFAOYSA-N, https://commonchemistry.cas.org/detail?cas_rn=334-48-5
  47. IUPHAR/BPS Guide to PHARMACOLOGY, 17. november 2016, inglise keel, 5532, decanoic acid
  48. Evaluations of the Joint FAO/WHO Expert Committee on Food Additives (JECFA), 13. mai 2021
  49. EFSA database, 23. jaanuar 2021, CAS no.: 334-48-5, 08.011
  50. ChemSpider, 17. november 2016, inglise keel, 2863, Decanoic acid
  51. Hazardous Substances Data Bank, 10. mai 2021, 28. oktoober 2019, DECANOIC ACID, 2751
  52. Jean-Claude Bradley Open Melting Point Dataset
  53. 53,0 53,1 Basic laboratory and industrial chemicals: A CRC quick reference handbook
  54. Chemical composition of the essential oils of mongolian wormwoods Artemisia xerophytica andA. xantaphora
  55. 55,0 55,1 Monocarboxylic acids of the essential oils ofRhododendron mucronulatum andRh. sichotense
  56. PHARMACOGNOSTICAL STUDY OF PORTULACA OLERACEA L. GROWING IN EGYPT PART I: BOTANICAL STUDY OF THE STEMS, LEAVES AND INVESTIGATION OF THE LIPID CONTENT
  57. Molluscicidal steroidal saponins and lipid content of Agave decipiens
  58. 58,0 58,1 Systematic Investigation on Quality Management of Saw Palmetto Products
  59. Simultaneous quantitation of lauric acid and ethyl laureate in Sabal serrulata by capillary gas chromatography and derivatisation with trimethyl sulphoniumhydroxide
  60. Supercritical extraction of herbs I: Saw Palmetto, St John's Wort, Kava Root, and Echinacea
  61. Testosterone 5α-reductase inhibition by free fatty acids from Sabal serrulata fruits
  62. 62,0 62,1 n-alkanes and fatty acids of Hypericum perforatum, Hypericum maculatum and Hypericum olympicum
  63. 63,0 63,1 The Fatty Acids ofPhaseolus coccineusandGleditsia triacanthos;(family Leguminosae)
  64. 64,0 64,1 64,2 64,3 64,4 Fatty acid composition of the lipids of pollen (pollen pellets) of some herbaceous plants. III
  65. The constituents of the essential oil from Erigeron philadelphicus.
  66. Volatile components of zinchoge flower (Daphne odora Thunb.).
  67. Effect of a lipidic extract from lepidium meyenii on sexual behavior in mice and rats.
  68. Fatty acids, sesqui- and diterpenoids from seeds of Dipteryx lacunifera
  69. 69,0 69,1 Volatile constituents from leaves and wood ofLeea guineensis G. Don (Leeaceae) from Cameroon
  70. Antimicrobial components of some cruciferae plants (Diplotaxis harra Forsk. and Erucaria microcarpa Boiss.)
  71. Acetylenes and terpenoids of Bellis perennis
  72. Survey of the volatile constituents of cotton lint and waste with regard to byssinosis
  73. Extracted fatty acids from Gossypium hirsutum stimulatory to the seed-rotting fungus, Pythium ultimum
  74. Chemical and antibacterial studies of two Helichrysum species of Greek origin
  75. Components of the Essential Oil of Saussurea involucrata (Kar. et Kir.) ex Maxim
  76. Volatile constituents ofPsidium Guajava l. (guava) fruits
  77. Volatile components of plumeria flowers. Part 2.1 Plumeria rubra L. cv. ‘Irma Bryan’
  78. Volatile compounds and odor characteristics of carbon dioxide extracts of coriander (Coriandrum sativum L.) fruits
  79. The volatile constituents of freesia flower (Freesia hybrida Hort.).
  80. 80,0 80,1 Composition of essential oil of tall fescue
  81. Composition and Antibacterial Activity of the Essential Oil ofTordylium apulumL.
  82. The Essential Oil of Young Flower Shoots of Phaeomeria speciosa Koord.
  83. Essential Oil ofSideritis hispidaP. H. Davis, an Endemic Species from Turkey
  84. Volatile Constituents of the Seed and Fruit Skin Oils ofCatimbium latilabre(Ridl.) Holtt. from Vietnam
  85. Acid constituents from Isatis tinctoria
  86. Composition of the Root Oil ofOrthurus heterocarpus(Boiss.) Juz.
  87. 87,0 87,1 Composition of the Essential Oil and the Headspace Sample ofMandragora autumnalisBertol. Fruits
  88. The Composition of Essential Oils fromTiliaL. Species Growing in Turkey
  89. Comparative chemical composition of the resinous exudates from Senecio adenotrichius and S. viscosissimus
  90. Volatile constituents of fenugreek seeds
  91. Essential oil of Scutellaria baicalensis G.
  92. Occurrence of unusual fatty acids in the earthworm, Lumbricus terrestris.
  93. Defense mechanisms of arthropods. 83. .alpha.- and .beta.-Necrodol, novel terpenes from a carrion beetle (Necrodes surinamensis, Silphidae, Coleoptera)
  94. Volatile compounds and long-chain aldehydes formation in conchocelis-filaments of a red alga, Porphyra tenera
  95. Fatty Acid Composition of Zygophyllum fabago Seeds
  96. Some components of the seed oil ofMalva sylvestris
  97. Characteristics and Composition of Seeds and Oil of Wild Variety ofMomardica charantia L. from Gujarat, India
  98. (22R)-22-hydroxycholesteryl esters from Narthecium ossifragum
  99. Studies on Herbaceous Seed Oils III
  100. Studies on Herbaceous Seed Oils XI
  101. 101,0 101,1 Antibiotics from basidiomycetes. XVIII. Strobilurin C and oudemansin B, two new antifungal metabolites from Xerula species (Agaricales)
  102. Components of essential oil from the root of Glycyrrhiza glabra.
  103. 103,0 103,1 A Study of the Essential Oil ofMentha longifoliaGrowing in Yugoslavia
  104. Essential Oil Composition of FourOriganum vulgareSubspecies of Anatolian Origin
  105. 105,0 105,1 The Essential Oils ofSatureja odoraandS. parvifoliafrom Argentina
  106. The essential oil constituents and antimicrobial activity of Anthemis aciphylla BOISS. var. discoidea BOISS.
  107. Variation in chemical composition and antibacterial activities of essential oils from two species of Houttuynia THUNB
  108. Tentative fingerprint-efficacy study of Houttuynia cordata injection in quality control of traditional Chinese medicine
  109. Volatiles from rhizomes of Rhodiola rosea L.
  110. Isolation of norbergenin from Saxifraga stolonifera
  111. LC–MS and GC–MS metabolite profiling of nickel(II) complexes in the latex of the nickel-hyperaccumulating tree Sebertia acuminata and identification of methylated aldaric acid as a new nickel(II) ligand
  112. 112,0 112,1 112,2 112,3 Fatty acid composition and tocopherol content in four Tunisian Hypericum species: Hypericum perforatum, Hypericum tomentosum, Hypericum perfoliatum and Hypericum ericoides Ssp. Roberti
  113. Attalea colenda (Arecaceae), a potential lauric oil resource
  114. The Fatty Acid Composition of the Seed Oil of Canarium album Raeusch.
  115. Chemistry of fruit flies. Composition of the rectal gland secretion of (male) Dacus cucumis (cucumber fly) and Dacus halfordiae. Characterization of (Z,Z)-2,8-dimethyl-1,7-dioxaspiro[5.5]undecane
  116. Oil of the seeds of Dictamus angustifolius
  117. Composition of the Essential Oil ofEryngium foetidumL. from Vietnam
  118. Organic acids from fresh California strawberries
  119. Composition of Secondary Metabolites in Various Parts of 'Seolhyang' Strawberry Plants
  120. Chemical constituents from Inula cappa
  121. Acylsugars of the wild tomato Lycopersicon pennellii in relation to geographic distribution of the species
  122. Analysis of the acid fraction of reunion geranium oil (Pelargonium graveolens L'Her. ex Ait)
  123. Aromatic Plants of Tropical Central Africa. XXV. Volatile Components from Rhizomes ofScleria striatinuxDe Wild, from Cameroon
  124. 124,0 124,1 Phytochemical and pharmacological studies on Sideritis taurica Stephan ex Wild.
  125. The response of Chlamydomonas reinhardtii to nitrogen deprivation: a systems biology analysis
  126. Pyrolysis of tropical vegetable oils
  127. Genomics-Based Insights Into the Biosynthesis and Unusually High Accumulation of Free Fatty Acids by Streptomyces sp. NP10.
  128. Profiling and characterization of volatile components from non-fumigated and sulfur-fumigated Flos Lonicerae Japonicae using comprehensive two-dimensional gas chromatography time-of-flight mass spectrometry coupled with chemical group separation
  129. Studies on components of Arnica species. V. Content and content differences of volatile oil in various organs of Arnica species
  130. ChemInform Abstract: Acridone Alkaloids and Coumarins from the Stem Bark of Citropsis articulata (Rutaceae)
  131. ChemInform Abstract: Two Novel Flavans from Cyperus conglomeratus.
  132. Lipids of the leaves ofElaeagnus angustifolia II. Composition of the neutral lipids
  133. Volatile constitutents of the green ant Oecophylla smaragdina.
  134. Volatile Constitutents of the Green Ant Oecophylla smaragdina
  135. Constituent acids of Pinus radiata stem cutin
  136. 136,0 136,1 217. The seed fats of Salvadora oleoides and Salvadors Persica
  137. Lipids ofZiziphora pedicellata
  138. Some antifungal components of diseased Blue Ribbon iris bulbs
  139. Analysis of free fatty acids in Notopterygium forbesii Boiss by a novel HPLC method with fluorescence detection.
  140. Recon 2.2: from reconstruction to model of human metabolism
  141. A community-driven global reconstruction of human metabolism.
  142. Oxoaporphine Alkaloids from the Wood of Phoebe cinnamomifolia
  143. Diverse Phytochemicals and Bioactivities in the Ancient Fruit and Modern Functional Food Pomegranate (Punica granatum).
  144. 144,0 144,1 144,2 144,3 144,4 144,5 305. The seed and fruit-coat fats of Neolitsea involucrata
  145. 145,0 145,1 Composition and Biological Activity of the Fatty Seed Oil ofDelphinium Staphisagria— Note I
  146. 146,0 146,1 Constituents from Salvia triloba
  147. Essential oils of annual sideritis species growing in Turkey.
  148. Composition of the Oil from the Flowerheads ofAnthemis tinctoriaL. Cultivated in Slovak Republic
  149. Modeling Meets Metabolomics-The WormJam Consensus Model as Basis for Metabolic Studies in the Model Organism
  150. Morphological, chemical and genetic differentiation of two subspecies of Cistus creticus L. (C. creticus subsp. eriocephalus and C. creticus subsp. corsicus).
  151. Volatile components from mango (Mangifera indica L.) cultivars
  152. Maturity stage at harvest affects fruit ripening, quality and biosynthesis of aroma volatile compounds in ‘Kensington Pride’ mango
  153. Characteristic Aroma Components of the Volatile Oil of Yellow Keaw Mango Fruits Determined by Limited Odor Unit Method.
  154. Free and glycosidically bound aroma compounds in cherry (Prunus avium L.).
  155. Chemical characterisation and bioactive properties of Prunus avium L.: The widely studied fruits and the unexplored stems
  156. 156,0 156,1 Essential oil composition ofMatricaria recutita L. from the lower region of the Himalayas
  157. Volatile components of papaya (Carica papaya L., Maradol variety) fruit
  158. Volatile components of papaya (Carica papaya L., Solo variety)
  159. Identification and quantitation of lipophilic extractives from wheat straw
  160. Comparison of different extraction methods: steam distillation, simultaneous distillation and extraction and headspace co-distillation, used for the analysis of the volatile components in aged flue-cured tobacco leaves
  161. GC-MS-olfactometric characterization of the most aroma-active components in a representative aromatic extract from Iranian saffron (Crocus sativus L.).
  162. THE LIPID CONTENT AND MOLLUSCICIDAL SAPONINS OF TETRAPANAX PAPYRIFERUS KOCH.
  163. Composition of the Bark Oil of Magnolia obovata Thunb.
  164. 164,0 164,1 164,2 164,3 CHEMICAL AND BIOLOGICAL STUDIES OF CHROZOPHORA VERBASCIFOLIA
  165. Constituents of Melaleuca quinquenervia Cav. Grown in Egypt
  166. Characterization of fatty acids, triacylglycerols, phytosterols and tocopherols in peony seed oil from five different major areas in China
  167. Lipids ofMentha spicata
  168. 168,0 168,1 Analysis of the chemical composition of the essential oil of Polygonum minus Huds. using two-dimensional gas chromatography-time-of-flight mass spectrometry (GC-TOF MS)
  169. Composition of the essential oil from Kyllinga erecta S
  170. Composition of the essential oil of the flower heads of Matricaria perforata.
  171. A new Escherichia coli metabolic competency: growth on fatty acids by a novel anaerobic beta-oxidation pathway
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