Indolebutyrate (BioDeep_00000001354)
Secondary id: BioDeep_00000395794, BioDeep_00000405509
human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite BioNovoGene_Lab2019
代谢物信息卡片
化学式: C12H13NO2 (203.0946238)
中文名称: 3-吲哚丁酸, 吲哚丁酸, 吲哚丁酸(IBA)
谱图信息:
最多检出来源 Homo sapiens(blood) 21.97%
Last reviewed on 2024-09-13.
Cite this Page
Indolebutyrate. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/indolebutyrate (retrieved
2024-12-04) (BioDeep RN: BioDeep_00000001354). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: C1=CC=C2C(=C1)C(=CN2)CCCC(=O)O
InChI: InChI=1S/C12H13NO2/c14-12(15)7-3-4-9-8-13-11-6-2-1-5-10(9)11/h1-2,5-6,8,13H,3-4,7H2,(H,14,15)
描述信息
3-Indolebutyric acid is an indolic tryptophan metabolite occasionally found in human urine. (PMID:7130309). 3-Indolebutyric acid is a plasma and urinary tryptophan-related metabolite related to metabolic and skin diseases. (PMID:15206797). Plasma levels of tryptophan metabolites in the umbilical vein and artery are significantly higher than those in the maternal vein. (PMID:1506727). 3-Indolebutyric acid has been shown to accelerated glucose uptake in the rat diaphragm. (PMID:6025019). 3-Indolebutyric acid is also a microbial netabolite, urinary indole-3-butyrate is produced by Clostridia sp. (PMID:6630445).
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX506; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4086; ORIGINAL_PRECURSOR_SCAN_NO 4084
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8560; ORIGINAL_PRECURSOR_SCAN_NO 8559
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4046; ORIGINAL_PRECURSOR_SCAN_NO 4043
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4063; ORIGINAL_PRECURSOR_SCAN_NO 4060
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4038; ORIGINAL_PRECURSOR_SCAN_NO 4035
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8533; ORIGINAL_PRECURSOR_SCAN_NO 8532
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8524; ORIGINAL_PRECURSOR_SCAN_NO 8522
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8573; ORIGINAL_PRECURSOR_SCAN_NO 8570
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8581; ORIGINAL_PRECURSOR_SCAN_NO 8579
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4035; ORIGINAL_PRECURSOR_SCAN_NO 4032
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 8600; ORIGINAL_PRECURSOR_SCAN_NO 8599
CONFIDENCE standard compound; INTERNAL_ID 927; DATASET 20200303_ENTACT_RP_MIX508; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4061; ORIGINAL_PRECURSOR_SCAN_NO 4058
Indole-3-butyric acid (IBA) is a plant hormone in the auxin family and is an ingredient in many commercial plant rooting horticultural products. Indole-3-butyric acid is found in common pea, potato, and corn.
KEIO_ID I025
Indole-3-butyric acid (3-indolebutyric acid; IBA) is a plant growth auxin and a good rooting agent. It can promote herbs and woody ornamental plant rooting and used for improving fruit rate.
同义名列表
70 个代谢物同义名
indolebutyric acid, monopotassium salt; indolebutyric acid, monoammonium salt; [3-(3-Indolyl)propyl]carboxylic acid; indolebutyric acid, monosodium salt; 4-(1H-Indol-3-yl)-butyric acid; 4-(1H-Indol-3-yl)butanoic acid; gamma-(Indol-3-Yl)butyric acid; 4-(1H-Indol-3-yl)butyric acid; gamma-(Indole-3)-butyric acid; 4-(3-1H-Indolyl)butyric acid; 3-Indolyl-gamma-butyric acid; γ-(Indol-3-yl)butyric acid; 4-(Indol-3-yl)butyric acid; 4-(1H-indol-3-yl)Butanoate; 4-(3-Indolyl)butanoic acid; 4-(1H-Indol-3-yl)-butyrate; 4-(indolyl)- butyric acid; 4-(3-Indolyl)butyric acid; 4-(3-Indole)-butyric acid; γ-(Indole-3)-butyric acid; 1H-indole-3-butanoic acid; beta-Indolylbutyric acid; 4-indol-3-ylbutyric acid; 4-(3-1H-Indolyl)butyrate; 3-Indolyl-gamma-butyrate; 3-Indolyl-g-butyric acid; 3-Indolyl-γ-butyric acid; 1H-Indole-3-butyric acid; 4-Indol-3-ylbutyric-acid; 4-(Indol-3-yl)butanoate; beta-Indolebutyric acid; Indolyl-3-butyric acid; Indole-3-Butrylic acid; 4-(Indol-3-yl)butyrate; Indole-3-butanoic acid; Indole-3 Butyric acid; 3-Indolylbutyric acid; Indole-3-butyric acid; 4-(indolyl)- butyrate; Indole 3-butyric acid; β-Indolylbutyric acid; 3-Indole butyric acid; 4-(3-Indole)-butyrate; 4-(3-Indolyl)butyrate; 1H-Indole-3-butanoate; 4-indol-3-ylbutyrate; 3-Indolyl-g-butyrate; 3-Indolyl-γ-butyrate; b-Indolebutyric acid; 3-indolebutyric acid; 1H-Indole-3-butyrate; β-Indolebutyric acid; beta-Indolebutyrate; Indole-3-butanoate; indolebutyric acid; Indole-3-Butrylate; Indolyl-3-butyrate; Indole-3 Butyrate; Indole-3-butyrate; Indole 3-butyrate; 3-Indole butyrate; b-Indolebutyrate; 3-Indolebutyrate; 3-Iodolebutyrate; Indolebutyrate; beta-IBA; Seradix; β-IBA; IBA; Indolebutyric acid
数据库引用编号
44 个数据库交叉引用编号
- ChEBI: CHEBI:33070
- KEGG: C11284
- PubChem: 8617
- HMDB: HMDB0002096
- Metlin: METLIN6485
- DrugBank: DB02740
- ChEMBL: CHEMBL582878
- Wikipedia: Indole-3-butyric_acid
- MetaCyc: CPD-10507
- KNApSAcK: C00000116
- foodb: FDB001404
- chemspider: 8298
- CAS: 133-32-4
- MoNA: KO001217
- MoNA: KO003211
- MoNA: LU092703
- MoNA: KO003210
- MoNA: LU092756
- MoNA: LU092705
- MoNA: LU092752
- MoNA: KO003209
- MoNA: LU092701
- MoNA: LU092754
- MoNA: KO001216
- MoNA: LU092753
- MoNA: KO003208
- MoNA: LU092702
- MoNA: KO001219
- MoNA: KO001218
- MoNA: KO001220
- MoNA: KO003207
- MoNA: LU092706
- MoNA: LU092751
- MoNA: LU092704
- MoNA: LU092755
- PMhub: MS000000382
- PubChem: 13461
- PDB-CCD: 3IB
- NIKKAJI: J2.525I
- RefMet: 3-Indolebutyric acid
- RefMet: Indolebutyric acid
- medchemexpress: HY-N0186
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-863
- KNApSAcK: 33070
分类词条
相关代谢途径
Reactome(0)
BioCyc(0)
PlantCyc(0)
代谢反应
0 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
6 个相关的物种来源信息
- 9606 - Homo sapiens: -
- 4097 - Nicotiana tabacum:
- 3888 - Pisum sativum: 10.1007/BF00395041
- 33090 - Plants: -
- 4020 - Tropaeolum majus: 10.1034/J.1399-3054.2002.1150220.X
- 4577 - Zea mays:
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。
文献列表
- Mostafa F El-Banna, Nardin B B Farag, Hekmat Y Massoud, Mahmoud M Kasem. Exogenous IBA stimulated adventitious root formation of Zanthoxylum beecheyanum K. Koch stem cutting: Histo-physiological and phytohormonal investigation.
Plant physiology and biochemistry : PPB.
2023 Apr; 197(?):107639. doi:
10.1016/j.plaphy.2023.107639
. [PMID: 36989985] - Humberto Estrella-Maldonado, Arianna Chan-León, Gabriela Fuentes, Amaranta Girón-Ramírez, Yves Desjardins, Jorge M Santamaría. The interaction between exogenous IBA with sucrose, light and ventilation alters the expression of ARFs and Aux/IAA genes in Carica papaya plantlets.
Plant molecular biology.
2022 Sep; 110(1-2):107-130. doi:
10.1007/s11103-022-01289-2
. [PMID: 35725838] - K V Ajayan, K Saranya, C C Harilal. Indole-3-butyric acid mediated growth and biochemical enhancement in three Selenastracean green microalgae under limited supply of nitrogen source.
Journal of biotechnology.
2022 Jun; 351(?):60-73. doi:
10.1016/j.jbiotec.2022.04.010
. [PMID: 35500703] - M M Khandaker, A Saidi, N A Badaluddin, N Yusoff, A Majrashi, M M Alenazi, M Saifuddin, Md A Alam, K S Mohd. Effects of Indole-3-Butyric Acid (IBA) and rooting media on rooting and survival of air layered wax apple (Syzygium samarangense) CV Jambu Madu.
Brazilian journal of biology = Revista brasleira de biologia.
2022; 82(?):e256277. doi:
10.1590/1519-6984.256277
. [PMID: 35352789] - Huan Zhao, Yutao Wang, Shuai Zhao, Ying Fu, Lei Zhu. HOMEOBOX PROTEIN 24 mediates the conversion of indole-3-butyric acid to indole-3-acetic acid to promote root hair elongation.
The New phytologist.
2021 12; 232(5):2057-2070. doi:
10.1111/nph.17719
. [PMID: 34480752] - Yun Jiao, Rangjin Xie, Hongjin Zhang. Identification of potential pathways associated with indole-3-butyric acid in citrus bud germination via transcriptomic analysis.
Functional & integrative genomics.
2021 Nov; 21(5-6):619-631. doi:
10.1007/s10142-021-00802-y
. [PMID: 34476672] - Jyoti Devi, Ekjot Kaur, Mohit Kumar Swarnkar, Vishal Acharya, Shashi Bhushan. De novo transcriptome analysis provides insights into formation of in vitro adventitious root from leaf explants of Arnebia euchroma.
BMC plant biology.
2021 Sep; 21(1):414. doi:
10.1186/s12870-021-03172-6
. [PMID: 34503445] - Xu Li, Fei Shen, Xiaozhao Xu, Qingbo Zheng, Yi Wang, Ting Wu, Wei Li, Changpeng Qiu, Xuefeng Xu, Zhenhai Han, Xinzhong Zhang. An HD-ZIP transcription factor, MxHB13, integrates auxin-regulated and juvenility-determined control of adventitious rooting in Malus xiaojinensis.
The Plant journal : for cell and molecular biology.
2021 09; 107(6):1663-1680. doi:
10.1111/tpj.15406
. [PMID: 34218490] - Mark J Henderson, Kathleen A Trychta, Shyh-Ming Yang, Susanne Bäck, Adam Yasgar, Emily S Wires, Carina Danchik, Xiaokang Yan, Hideaki Yano, Lei Shi, Kuo-Jen Wu, Amy Q Wang, Dingyin Tao, Gergely Zahoránszky-Kőhalmi, Xin Hu, Xin Xu, David Maloney, Alexey V Zakharov, Ganesha Rai, Fumihiko Urano, Mikko Airavaara, Oksana Gavrilova, Ajit Jadhav, Yun Wang, Anton Simeonov, Brandon K Harvey. A target-agnostic screen identifies approved drugs to stabilize the endoplasmic reticulum-resident proteome.
Cell reports.
2021 04; 35(4):109040. doi:
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. [PMID: 33910017] - Shunsuke Watanabe, Naoki Takahashi, Yuri Kanno, Hiromi Suzuki, Yuki Aoi, Noriko Takeda-Kamiya, Kiminori Toyooka, Hiroyuki Kasahara, Ken-Ichiro Hayashi, Masaaki Umeda, Mitsunori Seo. The Arabidopsis NRT1/PTR FAMILY protein NPF7.3/NRT1.5 is an indole-3-butyric acid transporter involved in root gravitropism.
Proceedings of the National Academy of Sciences of the United States of America.
2020 12; 117(49):31500-31509. doi:
10.1073/pnas.2013305117
. [PMID: 33219124] - Alelegne Yeshamebel Adugna, Tileye Feyissa, Fikresilasie Samuel Tasew. Optimization of growth regulators on in vitro propagation of Moringa stenopetala from shoot explants.
BMC biotechnology.
2020 11; 20(1):60. doi:
10.1186/s12896-020-00651-w
. [PMID: 33198744] - Sissi Miguel, Cindy Michel, Flore Biteau, Alain Hehn, Frédéric Bourgaud. In vitro plant regeneration and Agrobacterium-mediated genetic transformation of a carnivorous plant, Nepenthes mirabilis.
Scientific reports.
2020 10; 10(1):17482. doi:
10.1038/s41598-020-74108-7
. [PMID: 33060701] - Loriana Demecsová, Veronika Zelinová, Ľubica Liptáková, Katarína Valentovičová, Ladislav Tamás. Indole-3-butyric acid priming reduced cadmium toxicity in barley root tip via NO generation and enhanced glutathione peroxidase activity.
Planta.
2020 Sep; 252(3):46. doi:
10.1007/s00425-020-03451-w
. [PMID: 32885283] - Shunkai Hu, Mi Zhang, Yiqing Yang, Wei Xuan, Zhongwei Zou, Emmanuel Arkorful, Yi Chen, Qingping Ma, Anburaj Jeyaraj, Xuan Chen, Xinghui Li. A novel insight into nitrogen and auxin signaling in lateral root formation in tea plant [Camellia sinensis (L.) O. Kuntze].
BMC plant biology.
2020 May; 20(1):232. doi:
10.1186/s12870-020-02448-7
. [PMID: 32448156] - Haishan An, Jiaying Zhang, Fangjie Xu, Shuang Jiang, Xueying Zhang. Transcriptomic profiling and discovery of key genes involved in adventitious root formation from green cuttings of highbush blueberry (Vaccinium corymbosum L.).
BMC plant biology.
2020 Apr; 20(1):182. doi:
10.1186/s12870-020-02398-0
. [PMID: 32334538] - Yupeng Fan, Xiaoman Yu, Huihui Guo, Junmei Wei, Haixia Guo, Li Zhang, Fanchang Zeng. Dynamic Transcriptome Analysis Reveals Uncharacterized Complex Regulatory Pathway Underlying Dose IBA-Induced Embryogenic Redifferentiation in Cotton.
International journal of molecular sciences.
2020 Jan; 21(2):. doi:
10.3390/ijms21020426
. [PMID: 31936561] - Athanasios Tsafouros, Peter A Roussos. The possible bottleneck effect of polyamines' catabolic enzymes in efficient adventitious rooting of two stone fruit rootstocks.
Journal of plant physiology.
2020 Jan; 244(?):152999. doi:
10.1016/j.jplph.2019.152999
. [PMID: 31805419] - Tobie D Lee, Olivia W Lee, Kyle R Brimacombe, Lu Chen, Rajarshi Guha, Sabrina Lusvarghi, Bethilehem G Tebase, Carleen Klumpp-Thomas, Robert W Robey, Suresh V Ambudkar, Min Shen, Michael M Gottesman, Matthew D Hall. A High-Throughput Screen of a Library of Therapeutics Identifies Cytotoxic Substrates of P-glycoprotein.
Molecular pharmacology.
2019 11; 96(5):629-640. doi:
10.1124/mol.119.115964
. [PMID: 31515284] - Ayşe Karakeçili, Serdar Korpayev, Hatice Dumanoğlu, Shabnam Alizadeh. Synthesis of indole-3-acetic acid and indole-3-butyric acid loaded zinc oxide nanoparticles: Effects on rhizogenesis.
Journal of biotechnology.
2019 Sep; 303(?):8-15. doi:
10.1016/j.jbiotec.2019.07.004
. [PMID: 31301312] - Marta Michniewicz, Cheng-Hsun Ho, Tara A Enders, Eric Floro, Suresh Damodaran, Lauren K Gunther, Samantha K Powers, Elizabeth M Frick, Christopher N Topp, Wolf B Frommer, Lucia C Strader. TRANSPORTER OF IBA1 Links Auxin and Cytokinin to Influence Root Architecture.
Developmental cell.
2019 09; 50(5):599-609.e4. doi:
10.1016/j.devcel.2019.06.010
. [PMID: 31327740] - Kristína Šípošová, Karin Kollárová, Desana Lišková, Zuzana Vivodová. The effects of IBA on the composition of maize root cell walls.
Journal of plant physiology.
2019 Aug; 239(?):10-17. doi:
10.1016/j.jplph.2019.04.004
. [PMID: 31177026] - Aseesh Pandey, Tarun Belwal, Sushma Tamta, I D Bhatt, R S Rawal. Phenolic compounds, antioxidant capacity and antimutagenic activity in different growth stages of in vitro raised plants of Origanum vulgare L.
Molecular biology reports.
2019 Apr; 46(2):2231-2241. doi:
10.1007/s11033-019-04678-x
. [PMID: 30756335] - Luis Buendia, Fabienne Maillet, Devin O'Connor, Quitterie van de-Kerkhove, Saida Danoun, Clare Gough, Benoit Lefebvre, Sandra Bensmihen. Lipo-chitooligosaccharides promote lateral root formation and modify auxin homeostasis in Brachypodium distachyon.
The New phytologist.
2019 03; 221(4):2190-2202. doi:
10.1111/nph.15551
. [PMID: 30347445] - Luis Buendia, Camille Ribeyre, Sandra Bensmihen, Benoit Lefebvre. Brachypodium distachyon tar2lhypo mutant shows reduced root developmental response to symbiotic signal but increased arbuscular mycorrhiza.
Plant signaling & behavior.
2019; 14(10):e1651608. doi:
10.1080/15592324.2019.1651608
. [PMID: 31392918] - Bharathiraja Chinnapandi, Patricia Bucki, Nathalia Fitoussi, Michael Kolomiets, Eli Borrego, Sigal Braun Miyara. Tomato SlWRKY3 acts as a positive regulator for resistance against the root-knot nematode Meloidogyne javanica by activating lipids and hormone-mediated defense-signaling pathways.
Plant signaling & behavior.
2019; 14(6):1601951. doi:
10.1080/15592324.2019.1601951
. [PMID: 31010365] - Shi-Weng Li, Xiao-Ying Zeng, Yan Leng, Lin Feng, Xiao-Hu Kang. Indole-3-butyric acid mediates antioxidative defense systems to promote adventitious rooting in mung bean seedlings under cadmium and drought stresses.
Ecotoxicology and environmental safety.
2018 10; 161(?):332-341. doi:
10.1016/j.ecoenv.2018.06.003
. [PMID: 29890434] - Xiaomei Xu, Xiaofen Wang, Menghan Liu, Ting Tan, Yiqun Wan. ZIF-8@SiO2 core-shell microsphere extraction coupled with liquid chromatography and triple quadrupole tandem mass spectrometry for the quantitative analysis of four plant growth regulators in navel oranges.
Journal of separation science.
2018 Sep; 41(18):3561-3568. doi:
10.1002/jssc.201800286
. [PMID: 30055075] - Hongqiang Dong, Mingcheng Guo, You Liang, Chen Fan, Guanglong Ding, Wenbing Zhang, Gang Tang, Jiale Yang, Dandan Kong, Yongsong Cao. Preparation and characterization of indole-3-butyric acid nanospheres for improving its stability and utilization.
Materials science & engineering. C, Materials for biological applications.
2018 Aug; 89(?):175-181. doi:
10.1016/j.msec.2018.04.004
. [PMID: 29752087] - Ke Li, Yongqi Liang, Libo Xing, Jiangping Mao, Zhen Liu, Feng Dong, Yuan Meng, Mingyu Han, Caiping Zhao, Lu Bao, Dong Zhang. Transcriptome Analysis Reveals Multiple Hormones, Wounding and Sugar Signaling Pathways Mediate Adventitious Root Formation in Apple Rootstock.
International journal of molecular sciences.
2018 Jul; 19(8):. doi:
10.3390/ijms19082201
. [PMID: 30060517] - Juliany M França, Lucimara R Venial, Eloá B Costa, Edilson R Schmildt, Omar Schmildt, Paula M Bernardes, Sandro D Tatagiba, José C Lopes, Marcia F S Ferreira, Rodrigo S Alexandre. Morphophysiology, Phenotypic and Molecular Diversity of Auxin-induced Passiflora mucronata Lam. (Passifloraceae).
Anais da Academia Brasileira de Ciencias.
2018 Apr; 90(2):1799-1814. doi:
10.1590/0001-3765201820160898
. [PMID: 29668796] - Ashley M Sherp, Corey S Westfall, Sophie Alvarez, Joseph M Jez. Arabidopsis thaliana GH3.15 acyl acid amido synthetase has a highly specific substrate preference for the auxin precursor indole-3-butyric acid.
The Journal of biological chemistry.
2018 03; 293(12):4277-4288. doi:
10.1074/jbc.ra118.002006
. [PMID: 29462792] - Zhi Ran, Cheng Chen, Fabo Chen, Ming'an Liao, Lijin Lin, Xiulan Lv, Qunxian Deng, Xun Wang, Jin Wang, Yi Tang, Huaxiong Li. Effects of indole-3-butytric acid on lead and zinc accumulations in Pseudostellaria maximowicziana.
Environmental monitoring and assessment.
2018 Mar; 190(4):212. doi:
10.1007/s10661-018-6607-5
. [PMID: 29536192] - Chao Lei, Sheng Fan, Ke Li, Yuan Meng, Jiangping Mao, Mingyu Han, Caiping Zhao, Lu Bao, Dong Zhang. iTRAQ-Based Proteomic Analysis Reveals Potential Regulation Networks of IBA-Induced Adventitious Root Formation in Apple.
International journal of molecular sciences.
2018 Feb; 19(3):. doi:
10.3390/ijms19030667
. [PMID: 29495482] - Isabel Velada, Dariusz Grzebelus, Diana Lousa, Cláudio M Soares, Elisete Santos Macedo, Augusto Peixe, Birgit Arnholdt-Schmitt, Hélia G Cardoso. AOX1-Subfamily Gene Members in Olea europaea cv. 'Galega Vulgar'-Gene Characterization and Expression of Transcripts during IBA-Induced in Vitro Adventitious Rooting.
International journal of molecular sciences.
2018 Feb; 19(2):. doi:
10.3390/ijms19020597
. [PMID: 29462998] - Elizabeth M Frick, Lucia C Strader. Roles for IBA-derived auxin in plant development.
Journal of experimental botany.
2018 01; 69(2):169-177. doi:
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Journal of experimental botany.
2017 10; 68(17):4851-4867. doi:
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Analytical chemistry.
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Plant physiology.
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BMC plant biology.
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Brazilian journal of biology = Revista brasleira de biologia.
2017 Jul; 77(3):580-584. doi:
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Natural product research.
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Plant molecular biology.
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BMC genomics.
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Journal of experimental botany.
2016 12; 67(22):6445-6458. doi:
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Plant physiology.
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Journal of the science of food and agriculture.
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Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.
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BMC genomics.
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Drug discoveries & therapeutics.
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Methods in molecular biology (Clifton, N.J.).
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International journal of nanomedicine.
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Plant molecular biology.
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Journal of natural medicines.
2016 Jan; 70(1):115-9. doi:
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International journal of phytoremediation.
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Phytochemistry.
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Indian journal of experimental biology.
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Plant physiology.
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Phytotherapy research : PTR.
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Current biology : CB.
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Annals of botany.
2015 Mar; 115(4):617-28. doi:
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International journal of phytoremediation.
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PloS one.
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Gene.
2014 Dec; 553(2):140-50. doi:
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Phytochemistry.
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Journal of chromatographic science.
2014 Oct; 52(9):1145-9. doi:
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The New phytologist.
2014 Jul; 203(2):469-482. doi:
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World journal of microbiology & biotechnology.
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Acta biologica Hungarica.
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TSitologiia i genetika.
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BioMed research international.
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PloS one.
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PloS one.
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Pakistan journal of biological sciences : PJBS.
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Indian journal of experimental biology.
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Annals of botany.
2013 Nov; 112(7):1395-407. doi:
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The New phytologist.
2013 Oct; 200(2):473-482. doi:
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Journal of Zhejiang University. Science. B.
2013 Sep; 14(9):774-84. doi:
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Journal of Zhejiang University. Science. B.
2013 Jul; 14(7):621-31. doi:
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Gene.
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Methods in molecular biology (Clifton, N.J.).
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GM crops & food.
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Sub-cellular biochemistry.
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Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica.
2012 Dec; 37(24):3768-72. doi:
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Indian journal of experimental biology.
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Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica.
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The Plant journal : for cell and molecular biology.
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Journal of nanobiotechnology.
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Analytical chemistry.
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Nature chemical biology.
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Plant methods.
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Natural product communications.
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Plant physiology and biochemistry : PPB.
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BMC plant biology.
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Journal of environmental biology.
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Electrophoresis.
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Applied biochemistry and biotechnology.
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