Kaurenoic_acid (BioDeep_00000229914)

Main id: BioDeep_00000003807

 

PANOMIX_OTCML-2023 Antitumor activity


代谢物信息卡片


(4R,4aS,6aS,9R,11aR,11bS)-4,11b-dimethyl-8-methylenetetradecahydro-6a,9-methanocyclohepta[a]naphthalene-4-carboxylic acid

化学式: C20H30O2 (302.2246)
中文名称: 异贝壳杉烯酸, 贝壳杉烯酸
谱图信息: 最多检出来源 () 0%

分子结构信息

SMILES: C1C[C@]([C@@H]2[C@@](C1)([C@H]1[C@@]3(CC2)C[C@@H](CC1)C(=C)C3)C)(C(=O)O)C
InChI: InChI=1S/C20H30O2/c1-13-11-20-10-7-15-18(2,16(20)6-5-14(13)12-20)8-4-9-19(15,3)17(21)22/h14-16H,1,4-12H2,2-3H3,(H,21,22)/t14-,15+,16+,18-,19-,20-/m1/s1

描述信息

Ent-kaur-16-en-19-oic acid is an ent-kaurane diterpenoid that is ent-kauran-19-oic acid in which a double bond is present at position 16(17); exhibits anticancer and anti-HIV 1 activity. It has a role as an anti-HIV-1 agent, an antineoplastic agent and a plant metabolite. It is a conjugate acid of an ent-kaur-16-en-19-oate.
Kaurenoic acid is a natural product found in Xylopia aromatica, Xylopia emarginata, and other organisms with data available.
An ent-kaurane diterpenoid that is ent-kauran-19-oic acid in which a double bond is present at position 16(17); exhibits anticancer and anti-HIV 1 activity.
Kaurenoic acid is a diterpene from Sphagneticola trilobata, inhibits Inflammatory Pain by the inhibition of cytokine production and activation of the NO–cyclic GMP–PKG–ATP-sensitive potassium channel signaling pathway[1].
Kaurenoic acid is a diterpene from Sphagneticola trilobata, inhibits Inflammatory Pain by the inhibition of cytokine production and activation of the NO–cyclic GMP–PKG–ATP-sensitive potassium channel signaling pathway[1].

同义名列表

24 个代谢物同义名

(4R,4aS,6aS,9R,11aR,11bS)-4,11b-dimethyl-8-methylenetetradecahydro-6a,9-methanocyclohepta[a]naphthalene-4-carboxylic acid; (4R,4aS,6aS,9S,11aR,11bS)-4,11b-dimethyl-8-methylenetetradecahydro-6a,9-methanocyclohepta[a]naphthalene-4-carboxylic acid; (1S,9S,5R,13R)-5,9-dimethyl-14-methylenetetracyclo[11.2.1.0<1,10>.0<4,9>]hexadecane-5-carboxylic acid; (5beta,8alpha,9beta,10alpha,13alpha)-kaur-16-en-18-oic acid; (8alpha,9beta,10alpha,13alpha)-kaur-16-en-18-oic acid; Kaurenoic acid, >=95\\% (LC/MS-ELSD); Kaur-16-en-18-oic acid, (4alpha)-; ent-Kaur-16(17)-en-19-oic acid; 3beta-hydroxy-kaurenoic acid; NIKHGUQULKYIGE-OTCXFQBHSA-N; ent-Kaur-16-en-19-oic acid; (-)-Kaur-16-en-19-oic acid; ent-kaur-16-en-18-oic acid; ent-Kaur-16-en-19-Oate; kaur-16-en-18-oic acid; Ent-kaurenoic acid; Kauren-19-oic acid; Kaurenoic acid; Kaurenic acid; kaurenoicacid; Cunabic acid; kaurenoate; NE4; Kaur-16-en-18-oic acid



数据库引用编号

18 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(0)

BioCyc(0)

PlantCyc(0)

代谢反应

228 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(0)

WikiPathways(0)

Plant Reactome(228)

INOH(0)

PlantCyc(0)

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

1 个相关的物种来源信息

在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:

  • PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
  • NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
  • Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
  • Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。

点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。

亚细胞结构定位 关联基因列表
Cytoplasm 11 AIMP2, BCL2, CASP3, NFE2L2, NQO1, PTGS2, RBFOX3, RELA, STAT6, TP53, TYR
Peripheral membrane protein 1 PTGS2
Endoplasmic reticulum membrane 3 BCL2, HMOX1, PTGS2
Nucleus 11 AIMP2, BCL2, CASP3, HMOX1, MPO, NFE2L2, NQO1, RBFOX3, RELA, STAT6, TP53
cytosol 9 AIMP2, BCL2, CASP3, HMOX1, NFE2L2, NQO1, RELA, STAT6, TP53
dendrite 1 NQO1
centrosome 2 NFE2L2, TP53
nucleoplasm 7 CASP3, HMOX1, MPO, NFE2L2, RELA, STAT6, TP53
RNA polymerase II transcription regulator complex 2 NFE2L2, STAT6
Cell membrane 1 TNF
Cytoplasmic side 1 HMOX1
Multi-pass membrane protein 1 KCNA3
Synapse 1 NQO1
cell surface 1 TNF
glutamatergic synapse 3 CASP3, KCNA3, RELA
Golgi apparatus 1 NFE2L2
neuronal cell body 3 CASP3, NQO1, TNF
presynaptic membrane 1 KCNA3
Cytoplasm, cytosol 3 AIMP2, NFE2L2, NQO1
Lysosome 2 MPO, TYR
plasma membrane 3 KCNA3, NFE2L2, TNF
Membrane 6 AIMP2, BCL2, HMOX1, KCNA3, NQO1, TP53
axon 1 KCNA3
caveola 1 PTGS2
extracellular exosome 2 MMP9, MPO
endoplasmic reticulum 4 BCL2, HMOX1, PTGS2, TP53
extracellular space 8 CCL2, CXCL8, HMOX1, IL10, IL6, MMP9, MPO, TNF
perinuclear region of cytoplasm 3 HMOX1, KCNA3, TYR
mitochondrion 2 BCL2, TP53
protein-containing complex 3 BCL2, PTGS2, TP53
intracellular membrane-bounded organelle 2 MPO, TYR
Microsome membrane 1 PTGS2
postsynaptic density 1 CASP3
Single-pass type I membrane protein 1 TYR
Secreted 4 CCL2, CXCL8, IL10, IL6
extracellular region 7 CCL2, CXCL8, IL10, IL6, MMP9, MPO, TNF
Mitochondrion outer membrane 1 BCL2
Single-pass membrane protein 1 BCL2
mitochondrial outer membrane 2 BCL2, HMOX1
Mitochondrion matrix 1 TP53
mitochondrial matrix 1 TP53
transcription regulator complex 2 RELA, TP53
Cytoplasm, cytoskeleton, microtubule organizing center, centrosome 1 TP53
Nucleus membrane 1 BCL2
Bcl-2 family protein complex 1 BCL2
nuclear membrane 1 BCL2
external side of plasma membrane 1 TNF
Secreted, extracellular space, extracellular matrix 1 MMP9
perikaryon 1 RBFOX3
nucleolus 1 TP53
Melanosome membrane 1 TYR
Golgi-associated vesicle 1 TYR
recycling endosome 1 TNF
Single-pass type II membrane protein 1 TNF
postsynaptic membrane 1 KCNA3
Membrane raft 2 KCNA3, TNF
pore complex 1 BCL2
Cytoplasm, cytoskeleton 1 TP53
Nucleus, PML body 1 TP53
PML body 1 TP53
collagen-containing extracellular matrix 1 MMP9
secretory granule 1 MPO
Nucleus inner membrane 1 PTGS2
Nucleus outer membrane 1 PTGS2
nuclear inner membrane 1 PTGS2
nuclear outer membrane 1 PTGS2
neuron projection 1 PTGS2
chromatin 4 NFE2L2, RELA, STAT6, TP53
mediator complex 1 NFE2L2
phagocytic cup 1 TNF
[Isoform 2]: Cell membrane 1 KCNA3
site of double-strand break 1 TP53
Melanosome 1 TYR
germ cell nucleus 1 TP53
replication fork 1 TP53
myelin sheath 1 BCL2
azurophil granule 1 MPO
voltage-gated potassium channel complex 1 KCNA3
ficolin-1-rich granule lumen 1 MMP9
endoplasmic reticulum lumen 2 IL6, PTGS2
nuclear matrix 1 TP53
transcription repressor complex 1 TP53
tertiary granule lumen 1 MMP9
azurophil granule lumen 1 MPO
Single-pass type IV membrane protein 1 HMOX1
calyx of Held 1 KCNA3
phagocytic vesicle lumen 1 MPO
[Isoform 1]: Nucleus 1 TP53
protein-DNA complex 1 NFE2L2
death-inducing signaling complex 1 CASP3
[Isoform 1]: Cell membrane 1 KCNA3
aminoacyl-tRNA synthetase multienzyme complex 1 AIMP2
[Tumor necrosis factor, soluble form]: Secreted 1 TNF
interleukin-6 receptor complex 1 IL6
BAD-BCL-2 complex 1 BCL2
NF-kappaB p50/p65 complex 1 RELA
[Isoform 3]: Cytoplasm, perinuclear region 1 KCNA3
NF-kappaB complex 1 RELA
[C-domain 2]: Secreted 1 TNF
[Tumor necrosis factor, membrane form]: Membrane 1 TNF
[C-domain 1]: Secreted 1 TNF


文献列表

  • Kézia Cristine Barbosa Ferreira, Ana Beatriz Caribé Dos Santos Valle, Ana Cristina Moura Gualberto, Davi Trombini Aleixo, Lívia Mara Silva, Milena Maciel Santos, Danilo de Souza Costa, Letícia Ludmilla Oliveira, Jacy Gameiro, Guilherme Diniz Tavares, Ademar Alves da Silva Filho, José Otávio do Amaral Corrêa, Frederico Pittella. Kaurenoic acid nanocarriers regulates cytokine production and inhibit breast cancer cell migration. Journal of controlled release : official journal of the Controlled Release Society. 2022 12; 352(?):712-725. doi: 10.1016/j.jconrel.2022.10.048. [PMID: 36374787]
  • Helena Quintero-Pertuz, Ruben Veas-Albornoz, Ileana Carrillo, Fabiola González-Herrera, Michel Lapier, Eduino Carbonó-Delahoz, Esther Del Olmo, Arturo San Feliciano, Ulrike Kemmerling, Claudio Olea-Azar, Carla Delporte, Juan D Maya. Trypanocidal effect of alcoholic extract of Castanedia santamartensis (Asteraceae) leaves is based on altered mitochondrial function. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie. 2022 Apr; 148(?):112761. doi: 10.1016/j.biopha.2022.112761. [PMID: 35240521]
  • Miwa Maeda, Mayu Suzuki, Hiroyuki Fuchino, Norika Tanaka, Takahiro Kobayashi, Ryosuke Isogai, Irmanida Batubara, Dyah Iswantini, Michiyo Matsuno, Nobuo Kawahara, Mamoru Koketsu, Akie Hamamoto, Hiroshi Takemori. Diversity of Adenostemma lavenia, multi-potential herbs, and its kaurenoic acid composition between Japan and Taiwan. Journal of natural medicines. 2022 Jan; 76(1):132-143. doi: 10.1007/s11418-021-01565-3. [PMID: 34510371]
  • Sergio M Borghi, Sandra S Mizokami, Thacyana T Carvalho, Fernanda S Rasquel-Oliveira, Camila R Ferraz, Victor Fattori, Thiago H Hayashida, Jean P S Peron, Doumit Camilios-Neto, Sergio R Ambrosio, Nilton S Arakawa, Rubia Casagrande, Waldiceu A Verri. The diterpene from Sphagneticola trilobata (L.) Pruski, kaurenoic acid, reduces lipopolysaccharide-induced peritonitis and pain in mice. Journal of ethnopharmacology. 2021 Jun; 273(?):113980. doi: 10.1016/j.jep.2021.113980. [PMID: 33652112]
  • Jingwen Xu, Zhe Wang, Lianlian Sun, Yi Wang, Yihai Wang, Xiangjiu He. (3α)-3-(tiglinoyloxy)-ent-kaur-16-en-19-oic acid, isolated from Wedelia trilobata L., exerts an anti-inflammatory effect via the modulation of NF-κB, MAPK and mTOR pathway and autophagy in LPS-stimulated macrophages. Toxicology in vitro : an international journal published in association with BIBRA. 2021 Jun; 73(?):105139. doi: 10.1016/j.tiv.2021.105139. [PMID: 33705895]
  • Jingwen Xu, Lei Zhou, Lianlian Sun, Zhe Wang, Yi Wang, Yihai Wang, Xiangjiu He. 3α-Angeloyloxy-ent-kaur-16-en-19-oic Acid Isolated from Wedelia trilobata L. Alleviates Xylene-Induced Mouse Ear Edema and Inhibits NF-κB and MAPK Pathway in LPS-Stimulated Macrophages. Journal of natural products. 2020 12; 83(12):3726-3735. doi: 10.1021/acs.jnatprod.0c00990. [PMID: 33306388]
  • Deborah P Sessa, Ana C Mengarda, Paula E Simplicio, Guilherme M Antar, João Henrique G Lago, Josué de Moraes. 15β-Senecioyl-oxy-ent-kaur-16-en-19-oic Acid, a Diterpene Isolated from Baccharis lateralis, as Promising Oral Compound for the Treatment of Schistosomiasis. Journal of natural products. 2020 12; 83(12):3744-3750. doi: 10.1021/acs.jnatprod.0c01050. [PMID: 33236902]
  • Ju Sung Lee, Norman G Quilantang, Dae-Hyun Hahm, Ki Sung Kang, Sonia D Jacinto, Yu-Jin Choi, Sang Cheon Lee, Sanghyun Lee. Optimization of Extraction Conditions of Continentalic and Kaurenoic Acids from Aralia continentalis by HPLC/UV and Their Validation. Journal of chromatographic science. 2020 Jul; 58(7):672-677. doi: 10.1093/chromsci/bmaa019. [PMID: 32448886]
  • Rosa Mariana Montiel-Ruiz, Marcos Córdova-de la Cruz, Manasés González-Cortázar, Alejandro Zamilpa, Abraham Gómez-Rivera, Ricardo López-Rodríguez, Carlos Ernesto Lobato-García, Ever A Blé-González. Antinociceptive Effect of Hinokinin and Kaurenoic Acid Isolated from Aristolochia odoratissima L. Molecules (Basel, Switzerland). 2020 Mar; 25(6):. doi: 10.3390/molecules25061454. [PMID: 32213823]
  • Qun Peng, Jianyuan Chen, Hanying Duan, Chao Wang. Determination of Kaurenoic Acid in Acanthopanax trifoliatus by Ultra-High Performance Liquid Chromatography Coupled with Tandem Mass Spectrometry (UHPLC-MS/MS). Scientific reports. 2020 02; 10(1):3378. doi: 10.1038/s41598-020-60426-3. [PMID: 32099028]
  • Riwon Hong, Kyoung Soo Kim, Gwang Muk Choi, Mijung Yeom, Bombi Lee, Sanghyun Lee, Ki Sung Kang, Hyang Sook Lee, Hi-Joon Park, Dae-Hyun Hahm. Continentalic Acid Rather Than Kaurenoic Acid Is Responsible for the Anti-Arthritic Activity of Manchurian Spikenard In Vitro and In Vivo. International journal of molecular sciences. 2019 Nov; 20(21):. doi: 10.3390/ijms20215488. [PMID: 31690022]
  • Diéssica Padilha Dalenogare, Paula Ronsani Ferro, Samira Dal Toé De Prá, Flávia Karine Rigo, Caren Tatiane de David Antoniazzi, Amanda Spring de Almeida, Adriani Paganini Damiani, Giulia Strapazzon, Thanielly Thais de Oliveira Sardinha, Nathália Coral Galvani, Aline Augusti Boligon, Vanessa Moraes de Andrade, Evelyne da Silva Brum, Sara Marchesan Oliveira, Gabriela Trevisan. Antinociceptive activity of Copaifera officinalis Jacq. L oil and kaurenoic acid in mice. Inflammopharmacology. 2019 Aug; 27(4):829-844. doi: 10.1007/s10787-019-00588-3. [PMID: 31098702]
  • M Mauro, R A De Grandis, M L Campos, A Bauermeister, R G Peccinini, F R Pavan, N P Lopes, N V De Moraes. Acid diterpenes from Copaiba oleoresin (Copaifera langsdorffii): Chemical and plasma stability and intestinal permeability using Caco-2 cells. Journal of ethnopharmacology. 2019 May; 235(?):183-189. doi: 10.1016/j.jep.2019.02.017. [PMID: 30763698]
  • Leandro Marcondes-Alves, Victor Fattori, Sergio M Borghi, Yuri Lourenco-Gonzalez, Allan J C Bussmann, Elisa Y Hirooka, Rubia Casagrande, Waldiceu A Verri, Nilton S Arakawa. Kaurenoic acid extracted from Sphagneticola trilobata reduces acetaminophen-induced hepatotoxicity through inhibition of oxidative stress and pro-inflammatory cytokine production in mice. Natural product research. 2019 Mar; 33(6):921-924. doi: 10.1080/14786419.2017.1416372. [PMID: 29262719]
  • Xiunan Jiang, Yiting Shen, Haixing Wang, Caihong Wang, Xiaoxia Ye, Zheng Xiang. Determination of kaurenoic acid in rat plasma using UPLC-MS/MS and its application to a pharmacokinetic study. Journal of pharmaceutical and biomedical analysis. 2019 Feb; 164(?):27-31. doi: 10.1016/j.jpba.2018.10.016. [PMID: 30339948]
  • Carlos Hg Martins, Fariza Abrão, Thaís S Moraes, Pollyanna F Oliveira, Denise C Tavares, Lizandra G Magalhães, Fábio C Galvão, Rodrigo Cs Veneziani, Sérgio R Ambrósio. Kaurenoic acid and its sodium salt derivative: antibacterial activity against Porphyromonas gingivalis and their mechanism of action. Future microbiology. 2018 11; 13(?):1585-1601. doi: 10.2217/fmb-2018-0140. [PMID: 30430852]
  • Li-Ping Dai, Ling-Xia Zhang, Ya-Lin Liu, Hong Wu, Rui-Xin Liu, Meng Zhao, Shuang-Shuang Tian, Xue Jiang, Sui-Qing Chen. Isolation and purification of diterpenoids from the aerial parts of Isodon excisoides target-guided by UPLC-LTQ-Orbitrap-MS. Natural product research. 2018 Oct; 32(20):2424-2430. doi: 10.1080/14786419.2017.1419225. [PMID: 29320879]
  • Dalyara Mendonça de Matos, Milainy Rocha Viana, Marcela Cristina de Oliveira Alvim, Lara Soares Aleixo de Carvalho, Laura Hora Rios Leite, Ademar Alves Da Silva Filho, Jorge Willian Leandro Nascimento. Pharmacokinetic profile and oral bioavailability of Kaurenoic acid from Copaifera spp. in rats. Fitoterapia. 2018 Jul; 128(?):142-147. doi: 10.1016/j.fitote.2018.05.013. [PMID: 29772297]
  • Chisato Noguchi, Sho Miyazaki, Hiroshi Kawaide, Osamu Gotoh, Yuzo Yoshida, Yuri Aoyama. Characterization of moss ent-kaurene oxidase (CYP701B1) using a highly purified preparation. Journal of biochemistry. 2018 Jan; 163(1):69-76. doi: 10.1093/jb/mvx063. [PMID: 29036583]
  • Rondinelle G Pereira, Antonio Cala, Mónica Fernández-Aparicio, José Mg Molinillo, Maria Ad Boaventura, Francisco A Macías. Gibberellic and kaurenoic hybrid strigolactone mimics for seed germination of parasitic weeds. Pest management science. 2017 Dec; 73(12):2529-2537. doi: 10.1002/ps.4650. [PMID: 28643859]
  • A D Rocha, H da S Vieira, J A Takahashi, M A D Boaventura. Synthesis of a new allelopathic agent from the biotransformation of ent-15α-hydroxy-16-kauren-19-oic acid with Fusarium proliferatum. Natural product research. 2017 Nov; 31(22):2647-2653. doi: 10.1080/14786419.2017.1290614. [PMID: 28278633]
  • Dora Lúcia Carrara Moreti, Luís Fernando Leandro, Thaís da Silva Moraes, Monique Rodrigues Moreira, Rodrigo Cassio Sola Veneziani, Sergio Ricardo Ambrosio, Brenda Paula Gomes, Carlos Henrique Gomes Martins. Mikania glomerata Sprengel extract and its major compound ent-kaurenoic acid display activity against bacteria present in endodontic infections. Anaerobe. 2017 10; 47(?):201-208. doi: 10.1016/j.anaerobe.2017.06.008. [PMID: 28627377]
  • Xin-Xin Xie, Ze-Jing Jiang, Zhi-Hong Cheng, Dao-Feng Chen. Preparative separation and quantitative determination of two kaurenoic acid isomers in root barks of Acanthopanax gracilistylus. Chinese journal of natural medicines. 2017 Aug; 15(8):625-630. doi: 10.1016/s1875-5364(17)30090-0. [PMID: 28939025]
  • Xin-Hua Ma, Zhi-Biao Wang, Lei Zhang, Wei Li, Cui-Min Deng, Tian-Hua Zhong, Guang-Yu Li, Wei-Ming Zheng, Yong-Hong Zhang. Diterpenoids from Wedelia prostrata and Their Derivatives and Cytotoxic Activities. Chemistry & biodiversity. 2017 May; 14(5):. doi: 10.1002/cbdv.201600423. [PMID: 28130826]
  • Mi Zhang, Chenxing Zhao, Weifeng Dai, Jing He, Shiyun Jiao, Baocai Li. Anti-inflammatory ent-kaurenoic acids and their glycosides from Gochnatia decora. Phytochemistry. 2017 May; 137(?):174-181. doi: 10.1016/j.phytochem.2017.02.021. [PMID: 28236453]
  • Suellen F Mota, Denilson F Oliveira, Vladimir C G Heleno, Ana Carolina F Soares, Jacob O Midiwo, Elaine A Souza. Methyl and p-Bromobenzyl Esters of Hydrogenated Kaurenoic Acid for Controlling Anthracnose in Common Bean Plants. Journal of agricultural and food chemistry. 2017 Mar; 65(8):1489-1495. doi: 10.1021/acs.jafc.6b05159. [PMID: 28161946]
  • Giovana Fucina, Lilian Wünsch Rocha, Gislaine Francieli da Silva, Silmara Mendes Hoepers, Fernanda Peres Ferreira, Thais Guaratini, Valdir Cechinel Filho, Ruth Meri Lucinda-Silva, Nara Lins Meira Quintão, Tania Mari Bellé Bresolin. Topical anti-inflammatory phytomedicine based on Sphagneticola trilobata dried extracts. Pharmaceutical biology. 2016 Nov; 54(11):2465-2474. doi: 10.3109/13880209.2016.1160249. [PMID: 27046333]
  • Tânia da Silveira Agostini-Costa, Ismael Silva Gomes, Maira Christina Marques Fonseca, Araci Molnar Alonso, Rita de Cassia Alves Pereira, Ilio Montanari Junior, Joseane Padilha da Silva, Ana Maria Soares Pereira, Dijalma Barbosa da Silva, Roberto Fontes Vieira, Ana Paula Artimonte Vaz. Effect of Accessions and Environment Conditions on Coumarin, O-Coumaric and Kaurenoic Acids Levels of Mikania laevigata. Planta medica. 2016 Nov; 82(16):1431-1437. doi: 10.1055/s-0042-108339. [PMID: 27336315]
  • Monique Rodrigues Moreira, Ariana Borges Souza, Sandra Soares, Thamires Chiquini Bianchi, Daniele de Souza Eugênio, Danieli Cristina Lemes, Carlos Henrique Gomes Martins, Thaís da Silva Moraes, Denise Crispim Tavares, Natália Helen Ferreira, Sergio Ricardo Ambrósio, Rodrigo Cassio Sola Veneziani. ent-Kaurenoic acid-rich extract from Mikania glomerata: In vitro activity against bacteria responsible for dental caries. Fitoterapia. 2016 Jul; 112(?):211-6. doi: 10.1016/j.fitote.2016.06.007. [PMID: 27316976]
  • Katrin Geisler, Niels Berg Jensen, Macaire M S Yuen, Lina Madilao, Jörg Bohlmann. Modularity of Conifer Diterpene Resin Acid Biosynthesis: P450 Enzymes of Different CYP720B Clades Use Alternative Substrates and Converge on the Same Products. Plant physiology. 2016 05; 171(1):152-64. doi: 10.1104/pp.16.00180. [PMID: 26936895]
  • Celia Bustos-Brito, Mariano Sánchez-Castellanos, Baldomero Esquivel, José S Calderón, Fernando Calzada, Lilian Yépez-Mulia, Pedro Joseph-Nathan, Gabriel Cuevas, Leovigildo Quijano. ent-Kaurene Glycosides from Ageratina cylindrica. Journal of natural products. 2015 Nov; 78(11):2580-7. doi: 10.1021/acs.jnatprod.5b00488. [PMID: 26517282]
  • Kyoung Jin Lee, Kwang Ho Song, Wonmin Choi, Yeong Shik Kim. A strategy for the separation of diterpenoid isomers from the root of Aralia continentalis by countercurrent chromatography: The distribution ratio as a substitute for the partition coefficient and a three-phase solvent system. Journal of chromatography. A. 2015 Aug; 1406(?):224-30. doi: 10.1016/j.chroma.2015.06.038. [PMID: 26138601]
  • Leonora Mendoza, Alejandra Ribera, Alejandra Saavedra, Evelyn Silva, Ramiro Araya-Maturana, Milena Cotoras. Action mechanism for 3β-hydroxykaurenoic acid and 4,4-dimethylanthracene-1,9,10(4H)-trione on Botrytis cinerea. Mycologia. 2015 Jul; 107(4):661-6. doi: 10.3852/14-162. [PMID: 25977212]
  • Sho Miyazaki, Masatoshi Nakajima, Hiroshi Kawaide. Hormonal diterpenoids derived from ent-kaurenoic acid are involved in the blue-light avoidance response of Physcomitrella patens. Plant signaling & behavior. 2015; 10(2):e989046. doi: 10.4161/15592324.2014.989046. [PMID: 25751581]
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