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acide décanoïque

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composé chimique

Resous ekstèn

numéro ZVG
493011
HCIS ID
5688
identifiant Medical Subject Headings
C031071[1]
identifiant Encyclopædia Britannica
science/capric-acid

sous le nom: capric acid

numéro NSC
5025
identifiant ChEMBL
CHEMBL107498[2]
identifiant Nikkaji
J2.575E
identifiant Human Metabolome Database
HMDB0000511[3][4]
identifiant JSTOR d'un sujet
decanoates
identifiant d'InfoCard ECHA
100.005.798[5]
identifiant Protein Data Bank
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]
identifiant NMRShiftDB
10008813[4]
CAMEO Chemicals ID
17804
identifiant Encyclopédie de Chine (troisième édition)
190162
identifiant Probes And Drugs
PD006780
identifiant LIPID MAPS
LMFA01010010
idantifyan sou Freebase
/m/075pwf[35]
numéro Beilstein
1754556[36]
identifiant PubChem (CID)
2969[37][4]
135373094[4]
UniChem compound ID
400617[38]
identifiant Protein Data Bank d'un ligand
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
identifiant OpenAlex
C2776950135[39]

sous le nom: Decanoic acid

C2909411929[39]

sous le nom: Capric Acid

identifiant Vietherb d'un métabolite
226
InChIKey
GHVNFZFCNZKVNT-UHFFFAOYSA-N[37][40]
Cannabis Database ID
005775[41]
identifiant DrugBank
DB03600[4]
identifiant ChEBI
30813[2][42]

lien de concordance: équivalence exacte

identifiant DSSTOX
DTXSID9021554[43][4]
numéro CosIng
74803[44]
identifiant J-GLOBAL
200907048829064980
identifiant Unique Ingredient Identifier
4G9EDB6V73[45][4]
numéro CAS
334-48-5[45][46]
identifiant SureChEMBL
SCHEMBL20553507[3][4]
SCHEMBL2682[3][4]
identifiant International Union of Pharmacology
5532[47]
identifiant Store norske leksikon
kaprinsyre
numéro RTECS
HD9100000
numéro Gmelin
69184
identifiant Microsoft Academic
2776950135
identifiant DSSTOX d'un composé chimique
DTXCID201554
identifiant KNApSAcK
C00001213[36][3][4]
numéro JECFA
105[48]
numéro FL
08.011[49]
identifiant ChemSpider
2863[50]
JECFA database ID
3886
numéro CE
206-376-4[45]
identifiant KEGG
C01571
identifiant GND (DNB)
4307052-8
identifiant MassBank
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 CUI
22380[45]
identifiant Hazardous Substances Data Bank
2751[51]

se yon

type d'entité chimique

sou-klas

medium-chain fatty acid
straight chain fatty acids

structure chimique

masse

172,146 unité de masse atomique unifiée[37]

base conjuguée

decanoate

formule chimique

C₁₀H₂₀O₂[37]

SMILES canonique

CCCCCCCCCC(=O)O[37]

point de fusion

31 Degre Sèlsiyis[52]
31,99 Degre Sèlsiyis[53]

point d'ébullition

268,75 Degre Sèlsiyis[53]

pression: 101,325 kilopascal

classification et étiquetage de sécurité

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

code NFPA spécial: aucune valeur

code NFPA santé: 2

code NFPA feu: 1

code NFPA réactivité: 0

trouvé dans le taxon

Artemisia xerophytica[54]
Rhododendron mucronulatum[55]
Koupye[56]
Agave decipiens[57]
Serenoa repens[58][59][60][61]
Syagrus romanzoffiana[58]
Millepertuis taché[62]
Hypericum olympicum[62]
Haricot d'Espagne[63]
Févier d'Amérique[63]
pissenlit[64]
Fagopyrum esculentum[64]
Trèfle des prés[64]
Erigeron philadelphicus[65]
Daphne odora[66]
Maca[67]
Dipteryx lacunifera[68]
Leea guineense[69]
Erucaria microcarpa[70]
pâquerette[71]
Gossypium hirsutum[72][73]
Helichrysum stoechas[74]
Saussurea involucrata[75]
Pye gwayav[76]
Plumeria rubra[77]
coriandre[78]
Freesia hybrida[79]
Festuca arundinacea[80]
Tordylium apulum[81]
Rose de porcelaine[82]
Sideritis hispida[83]
Alpinia latilabris[84]
Pastel des teinturiers[85]
Geum heterocarpum[86]
Mandragora autumnalis[87]
tilleul à grandes feuilles[88]
Senecio adenotrichius[89]
Fenugrec[90]
Scutellaria baicalensis[91]
Lumbricus terrestris[92]
Necrodes surinamensis[93]
Porphyra tenera[94]
Lindera neesiana[95]
Grande mauve[96]
Asosi[97]
Narthécie des marais[98]
Ruellia tuberosa[99][100]
Xerula longipes[101]
réglisse[102]
Menthe sylvestre[103]
Origanum vulgare[104]
Clinopodium odorum[105]
Anthemis aciphylla[106]
Plante caméléon[107][108]
Rhodiola rosea[109]
Saxifrage stolonifère[110]
Pycnandra acuminata[111]
Hypericum ericoides[112]
Hypericum perfoliatum[112]
Millepertuis perforé[112]
Hypericum tomentosum[112]
Attalea colenda[113]
Canarium album[114]
Tephritidae[115]
Dictamnus albus[116]
Koulan[117]
Frèz[118][119]
Duhaldea cappa[120]
Solanum pennellii[121]
Pélargonium à forte odeur[122]
Cyperaceae[123]
Sideritis taurica[124]
Chlamydomonas reinhardtii[125]
Attalea speciosa[126]
Streptomyces filamentosus[127]
Lonicera japonica[128]
Arnica des montagnes[129]
Citropsis articulata[130]
Cyperus conglomeratus[131]
Elaeagnus angustifolia[132]
Oecophylla smaragdina[133][134]
Pin de Monterey[135]
Salvadora oleiodes[136]
Salvadora persica[136]
Ziziphora pedicellata[137]
iris[138]
Hansenia forbesii[139]
Homo sapiens[140][141]
Aiouea montana[142]
Grenad[143]
Leea guineensis[69]
Litsea involucrata[144]
Staphisaigre[145]
Salvia triloba[146]
Sideritis curvidens[147]
Anthemis tinctoria[148]
Caenorhabditis elegans[149]
Cistus creticus[150]
Mangifera indica[151][152][153]
merisier[154][155]
Matricaria chamomilla[156]
Chamomilla recutita[156]
Papay[157][158]
Triticum aestivum[159]
Tabak[160]
Crocus sativus[161]
Tetrapanax papyrifer[162]
Magnolia obovata[163]
Chrozophora verbascifolia[164]
Niaouli[165]
Pivoine de Chine[166]
Sideritis syriaca[124]
Salvia fruticosa[146]
Staphisagria macrosperma[145]
Xerula pudens[101]
Mentha spicata[103][167]
Litsea glutinosa[144]
Chrozophora tinctoria[164]
Chrozophora obliqua[164]
mandragore[87]
Persicaria minor[168]
Cyperus erectus[169]
Neolitsea cassia[144]
Neolitsea zeylanica[144]
Tripleurospermum inodorum[170]
Escherichia coli[171]
Persicaria hydropiperoides[168]
Clinopodium gilliesii[105]
Rhododendron sichotense[55]
Festuca rubra[80]
Chrozophora plicata[164]
Neolitsea foliosa[144]
Chamaenerion dodonaei[64]
Épilobe à feuilles de romarin[64]
Neolitsea umbrosa[144]

interagit physiquement avec

G protein-coupled receptor 84[172]

rôle du sujet: agoniste

rôle du sujet

antimycosique[173]

comprend

Oksijèn
Kabòn

catégorie Commons

Capric acid

Referans

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  156. 156,0 et 156,1 Essential oil composition of Matricaria 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.
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  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 et 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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  173. Medical Subject Headings, 15 mas 2018, C031071
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