Guanosine triphosphate (BioDeep_00000001617)

 

Secondary id: BioDeep_00001868319

natural product human metabolite Endogenous blood metabolite BioNovoGene_Lab2019


代谢物信息卡片


({[({[(2R,3S,4R,5R)-5-(2-amino-6-oxo-6,9-dihydro-1H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)phosphonic acid

化学式: C10H16N5O14P3 (522.9907)
中文名称: 鸟苷三磷酸, 鸟苷-5'-三磷酸, 5'-三磷酸鸟苷三钠三磷酸鸟苷三钠 钠盐 水合物
谱图信息: 最多检出来源 Homo sapiens(blood) 32.09%

Reviewed

Last reviewed on 2024-07-24.

Cite this Page

Guanosine triphosphate. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China. https://query.biodeep.cn/s/guanosine_triphosphate (retrieved 2024-12-22) (BioDeep RN: BioDeep_00000001617). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

分子结构信息

SMILES: C1=NC2=C(N1C3C(C(C(O3)COP(=O)(O)OP(=O)(O)OP(=O)(O)O)O)O)N=C(NC2=O)N
InChI: InChI=1/C10H16N5O14P3/c11-10-13-7-4(8(18)14-10)12-2-15(7)9-6(17)5(16)3(27-9)1-26-31(22,23)29-32(24,25)28-30(19,20)21/h2-3,5-6,9,16-17H,1H2,(H,22,23)(H,24,25)(H2,19,20,21)(H3,11,13,14,18)/t3-,5-,6-,9-/m1/s1/f/h13,19-20,22,24H,11H2

描述信息

Guanosine-5-triphosphate (GTP) is a purine nucleoside triphosphate. It is one of the building blocks needed for the synthesis of RNA during the transcription process. Its structure is similar to that of the guanosine nucleoside, the only difference being that nucleotides like GTP have phosphates on their ribose sugar. GTP has the guanine nucleobase attached to the 1 carbon of the ribose and it has the triphosphate moiety attached to riboses 5 carbon. GTP is essential to signal transduction, in particular with G-proteins, in second-messenger mechanisms where it is converted to guanosine diphosphate (GDP) through the action of GTPases. Guanosine triphosphate, also known as 5-GTP or H4GTP, belongs to the class of organic compounds known as purine ribonucleoside triphosphates. These are purine ribonucleotides with a triphosphate group linked to the ribose moiety. Thus, a GTP-bound tubulin serves as a cap at the tip of microtubule to protect from depolymerization; and, once the GTP is hydrolyzed, the microtubule begins to depolymerize and shrink rapidly. Guanosine triphosphate exists in all living species, ranging from bacteria to humans. In humans, guanosine triphosphate is involved in intracellular signalling through adenosine receptor A2B and adenosine. Guanosine-5-triphosphate (GTP) is a purine nucleoside triphosphate. Outside of the human body, guanosine triphosphate has been detected, but not quantified in several different foods, such as mandarin orange (clementine, tangerine), coconuts, new zealand spinachs, sweet marjorams, and pepper (capsicum). Cyclic guanosine triphosphate (cGTP) helps cyclic adenosine monophosphate (cAMP) activate cyclic nucleotide-gated ion channels in the olfactory system. It also has the role of a source of energy or an activator of substrates in metabolic reactions, like that of ATP, but more specific. It is used as a source of energy for protein synthesis and gluconeogenesis. For instance, a GTP molecule is generated by one of the enzymes in the citric acid cycle. GTP is also used as an energy source for the translocation of the ribosome towards the 3 end of the mRNA. During microtubule polymerization, each heterodimer formed by an alpha and a beta tubulin molecule carries two GTP molecules, and the GTP is hydrolyzed to GDP when the tubulin dimers are added to the plus end of the growing microtubule. The importing of these proteins plays an important role in several pathways regulated within the mitochondria organelle, such as converting oxaloacetate to phosphoenolpyruvate (PEP) in gluconeogenesis. GTP is involved in energy transfer within the cell.
Guanosine triphosphate (GTP) is a guanine nucleotide containing three phosphate groups esterified to the sugar moiety. GTP functions as a carrier of phosphates and pyrophosphates involved in channeling chemical energy into specific biosynthetic pathways. GTP activates the signal transducing G proteins which are involved in various cellular processes including proliferation, differentiation, and activation of several intracellular kinase cascades. Proliferation and apoptosis are regulated in part by the hydrolysis of GTP by small GTPases Ras and Rho. Another type of small GTPase, Rab, plays a role in the docking and fusion of vesicles and may also be involved in vesicle formation. In addition to its role in signal transduction, GTP also serves as an energy-rich precursor of mononucleotide units in the enzymatic biosynthesis of DNA and RNA. [HMDB]. Guanosine triphosphate is found in many foods, some of which are oat, star fruit, lingonberry, and linden.
COVID info from PDB, Protein Data Bank, WikiPathways
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同义名列表

21 个代谢物同义名

({[({[(2R,3S,4R,5R)-5-(2-amino-6-oxo-6,9-dihydro-1H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)phosphonic acid; Guanosine mono(tetrahydrogen triphosphate) (ester); guanosine 5-(tetrahydrogen triphosphate); Guanosine-5-triphosphate disodium salt; Guanosine-5-triphosphate sodium salt; Guanosine 5-triphosphoric acid; GUANOSINE-5-triphosphoric acid; Guanosine triphosphoric acid; Guanosine triphosphate (GTP); Guanosine 5-triphosphorate; Guanosine 5-triphosphate; GUANOSINE-5-triphosphATE; Triphosphate, guanosine; guanosine triphos-phate; Guanosine triphosphate; H4GTP; 5-GTP; GTG; gtp; Guanosine-5'-tridiphosphate(GTP); GTP



数据库引用编号

31 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(13)

BioCyc(6)

PlantCyc(12)

代谢反应

3633 个相关的代谢反应过程信息。

Reactome(814)

BioCyc(18)

WikiPathways(3)

Plant Reactome(948)

INOH(54)

PlantCyc(1405)

COVID-19 Disease Map(1)

PathBank(390)

PharmGKB(0)

30 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 EIF2B1, EIF2S2, EIF5, GNAQ, GTPBP4, GUCY1A1, MTOR, MYLK, PLEK, SLC2A4RG, TNK1
Golgi apparatus, trans-Golgi network membrane 1 ARF6
Peripheral membrane protein 2 MTOR, TNK1
Endosome membrane 1 ARF6
Endoplasmic reticulum membrane 3 HSP90B1, MTOR, RHEB
Nucleus 5 GNAQ, GTPBP4, HSP90B1, MTOR, SLC2A4RG
cytosol 12 ARF1, ARF6, EIF2B1, EIF2S2, EIF5, GTPBP4, GUCY1A1, HSP90B1, MTOR, MYLK, PLEK, RHEB
dendrite 1 MTOR
phagocytic vesicle 1 MTOR
nucleoplasm 2 GTPBP4, MTOR
Cell membrane 5 ARF6, GNAQ, GPRC5A, ITGAM, RALA
Lipid-anchor 5 ARF1, ARF6, GNAQ, RALA, RHEB
Cytoplasmic side 3 ARF1, MTOR, RHEB
Cleavage furrow 3 ARF6, MYLK, RALA
lamellipodium 1 MYLK
ruffle membrane 1 PLEK
Early endosome membrane 1 ARF6
Multi-pass membrane protein 1 GPRC5A
Golgi apparatus membrane 3 ARF1, MTOR, RHEB
Synapse 5 EIF2S2, EIF5, GNAQ, MYLK, RHEB
cell cortex 1 ARF6
cell surface 2 ITGAM, RALA
glutamatergic synapse 2 ARF6, GUCY1A1
Golgi apparatus 2 ARF6, GNAQ
Golgi membrane 4 ARF1, INS, MTOR, RHEB
lysosomal membrane 4 EGF, GNAQ, MTOR, RHEB
postsynapse 1 ARF6
smooth endoplasmic reticulum 1 HSP90B1
Cytoplasm, cytosol 4 ARF6, EIF2B1, EIF2S2, RHEB
Lysosome 1 MTOR
Presynapse 1 ARF6
endosome 1 ARF6
plasma membrane 13 ARF1, ARF6, EGF, EIF2B1, EIF5, GNAQ, GPRC5A, ITGAM, MYLK, PLEK, RALA, RHEB, TNK1
Membrane 12 ARF6, EGF, EIF2B1, GNAQ, GTPBP4, HSP90B1, ITGAM, MTOR, PLEK, RALA, RHEB, TNK1
extracellular exosome 9 ARF1, ARF6, EGF, GNAQ, GPRC5A, HSP90B1, ITGAM, RALA, RHEB
Lysosome membrane 2 MTOR, RHEB
endoplasmic reticulum 1 HSP90B1
extracellular space 3 EGF, INS, ITGAM
perinuclear region of cytoplasm 2 GTPBP4, HSP90B1
Schaffer collateral - CA1 synapse 1 RALA
mitochondrion 1 RALA
protein-containing complex 2 ARF1, HSP90B1
intracellular membrane-bounded organelle 1 GPRC5A
Microsome membrane 1 MTOR
postsynaptic density 2 ARF1, RHEB
TORC1 complex 1 MTOR
TORC2 complex 1 MTOR
Single-pass type I membrane protein 1 ITGAM
Secreted 1 INS
extracellular region 4 EGF, HSP90B1, INS, PLEK
Mitochondrion outer membrane 1 MTOR
mitochondrial outer membrane 1 MTOR
photoreceptor outer segment 1 GNAQ
Nucleus membrane 1 GNAQ
nuclear membrane 2 GNAQ, GTPBP4
external side of plasma membrane 1 ITGAM
actin cytoskeleton 1 MYLK
nucleolus 2 GPRC5A, GTPBP4
midbody 2 ARF6, HSP90B1
vesicle 1 GPRC5A
Cell projection, lamellipodium 1 MYLK
Membrane raft 1 ITGAM
focal adhesion 4 ARF1, ARF6, HSP90B1, RALA
GABA-ergic synapse 1 GUCY1A1
Nucleus, PML body 1 MTOR
PML body 1 MTOR
collagen-containing extracellular matrix 1 HSP90B1
nuclear speck 1 SLC2A4RG
Cell projection, ruffle 1 ARF6
ruffle 1 ARF6
sarcomere 1 ARF1
receptor complex 1 GPRC5A
neuron projection 1 ARF1
cell leading edge 1 ARF1
Flemming body 2 ARF6, RALA
Nucleus, nucleolus 1 GTPBP4
spliceosomal complex 1 RHEB
nuclear envelope 1 MTOR
Recycling endosome membrane 1 ARF6
Endomembrane system 3 MTOR, RALA, RHEB
endosome lumen 1 INS
heterotrimeric G-protein complex 1 GNAQ
Cytoplasmic vesicle membrane 2 GPRC5A, RALA
specific granule membrane 1 ITGAM
tertiary granule membrane 1 ITGAM
Melanosome 1 HSP90B1
sperm plasma membrane 1 HSP90B1
Midbody, Midbody ring 2 ARF6, RALA
filopodium membrane 1 ARF6
stress fiber 1 MYLK
synaptic membrane 1 RALA
plasma membrane raft 1 ITGAM
secretory granule lumen 1 INS
Golgi lumen 1 INS
endoplasmic reticulum lumen 2 HSP90B1, INS
platelet alpha granule lumen 1 EGF
endocytic vesicle 1 ARF6
transport vesicle 1 INS
Endoplasmic reticulum-Golgi intermediate compartment membrane 1 INS
clathrin-coated endocytic vesicle membrane 1 EGF
Sarcoplasmic reticulum lumen 1 HSP90B1
Cytoplasm, cytoskeleton, stress fiber 1 MYLK
Synapse, synaptosome 1 ARF1
Cytoplasmic vesicle, phagosome 1 MTOR
guanylate cyclase complex, soluble 1 GUCY1A1
integrin complex 1 ITGAM
Cell projection, filopodium membrane 1 ARF6
endocytic vesicle lumen 1 HSP90B1
integrin alphaM-beta2 complex 1 ITGAM
eukaryotic translation initiation factor 2 complex 1 EIF2S2
endoplasmic reticulum chaperone complex 1 HSP90B1
eukaryotic translation initiation factor 2B complex 1 EIF2B1


文献列表

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  • Yanan Wang, Kun Liu, Meishan Lu, Jiachen Shi, Yong-Jiang Xu, Yuanfa Liu. Comparative evaluation of static and dynamic simulated digestion models. Journal of the science of food and agriculture. 2023 Sep; 103(12):5893-5903. doi: 10.1002/jsfa.12692. [PMID: 37144349]
  • Jahanvi Ganotra, Bhawana Sharma, Brijesh Biswal, Deepak Bhardwaj, Narendra Tuteja. Emerging role of small GTPases and their interactome in plants to combat abiotic and biotic stress. Protoplasma. 2023 Jul; 260(4):1007-1029. doi: 10.1007/s00709-022-01830-6. [PMID: 36525153]
  • Tian-Tian Jiang, Cong-Lan Ji, Li-Jun Yu, Meng-Ke Song, Yan Li, Qiang Liao, Tuo Wei, Opeyemi Joshua Olatunji, Jian Zuo, Jun Han. Resveratrol-induced SIRT1 activation inhibits glycolysis-fueled angiogenesis under rheumatoid arthritis conditions independent of HIF-1α. Inflammation research : official journal of the European Histamine Research Society ... [et al.]. 2023 Apr; ?(?):. doi: 10.1007/s00011-023-01728-w. [PMID: 37016140]
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  • Yingjie Guo, Huan Zhang, Chen Yan, Birong Shen, Yue Zhang, Xiangyang Guo, Sha Sun, Fan Yu, Jiayun Yan, Ronghe Liu, Qianping Zhang, Di Zhang, Haiyang Liu, Yang Liu, Yaoyao Zhang, Wenlei Li, Jiangyu Qin, He Lv, Zhaoxia Wang, Yun Yuan, Jie-Feng Yang, Ya-Ting Zhong, Song Gao, Bing Zhou, Lei Liu, Deling Kong, Xiaojiang Hao, Junjie Hu, Quan Chen. Small molecule agonist of mitochondrial fusion repairs mitochondrial dysfunction. Nature chemical biology. 2023 Jan; ?(?):. doi: 10.1038/s41589-022-01224-y. [PMID: 36635564]
  • Qian-Zhi Ni, Bing Zhu, Yan Ji, Qian-Wen Zheng, Xin Liang, Ning Ma, Hao Jiang, Feng-Kun Zhang, Yu-Rong Shang, Yi-Kang Wang, Sheng Xu, Er-Bin Zhang, Yan-Mei Yuan, Tian-Wei Chen, Fen-Fen Yin, Hui-Jun Cao, Jing-Yi Huang, Ji Xia, Xu-Fen Ding, Xiao-Song Qiu, Kai Ding, Chao Song, Wen-Tao Zhou, Meng Wu, Kang Wang, Rui Lui, Qiu Lin, Wei Chen, Zhi-Gang Li, Shu-Qun Cheng, Xiao-Fan Wang, Dong Xie, Jing-Jing Li. PPDPF Promotes the Development of Mutant KRAS-Driven Pancreatic Ductal Adenocarcinoma by Regulating the GEF Activity of SOS1. Advanced science (Weinheim, Baden-Wurttemberg, Germany). 2023 01; 10(2):e2202448. doi: 10.1002/advs.202202448. [PMID: 36453576]
  • H Y Bao, W Wang, H B Sun, J Z Chen. Binding modes of GDP, GTP and GNP to NRAS deciphered by using Gaussian accelerated molecular dynamics simulations. SAR and QSAR in environmental research. 2023 Jan; 34(1):65-89. doi: 10.1080/1062936x.2023.2165542. [PMID: 36762439]
  • Gianfranco Paccione, Miguel Á Robles-Ramos, Carlos Alfonso, Marta Sobrinos-Sanguino, William Margolin, Silvia Zorrilla, Begoña Monterroso, Germán Rivas. Lipid Surfaces and Glutamate Anions Enhance Formation of Dynamic Biomolecular Condensates Containing Bacterial Cell Division Protein FtsZ and Its DNA-Bound Regulator SlmA. Biochemistry. 2022 11; 61(22):2482-2489. doi: 10.1021/acs.biochem.2c00424. [PMID: 36315857]
  • Di Zhang, Bei Jing, Zhenni Chen, Xin Li, Huimei Shi, Yachun Zheng, Shiquan Chang, Guoping Zhao. Ferulic acid alleviates sciatica by inhibiting peripheral sensitization through the RhoA/p38MAPK signalling pathway. Phytomedicine : international journal of phytotherapy and phytopharmacology. 2022 Nov; 106(?):154420. doi: 10.1016/j.phymed.2022.154420. [PMID: 36115115]
  • Wei Liu, Chunxia G Cronin, Ziming Cao, Chengliang Wang, Jianbin Ruan, Sunitha Pulikkot, Alexxus Hall, Hao Sun, Alex Groisman, Yunfeng Chen, Anthony T Vella, Liang Hu, Bruce T Liang, Zhichao Fan. Nexinhib20 Inhibits Neutrophil Adhesion and β2 Integrin Activation by Antagonizing Rac-1-Guanosine 5'-Triphosphate Interaction. Journal of immunology (Baltimore, Md. : 1950). 2022 10; 209(8):1574-1585. doi: 10.4049/jimmunol.2101112. [PMID: 36165184]
  • Huiling Guo, Juan Wang, Su Ren, Lang-Fan Zheng, Yi-Xuan Zhuang, Dong-Lin Li, Hui-Hui Sun, Li-Ying Liu, Changchuan Xie, Ya-Ying Wu, Hong-Rui Wang, Xianming Deng, Peng Li, Tong-Jin Zhao. Targeting EGFR-dependent tumors by disrupting an ARF6-mediated sorting system. Nature communications. 2022 10; 13(1):6004. doi: 10.1038/s41467-022-33788-7. [PMID: 36224181]
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  • Kazuhiro Ito, Doshun Ito, Mina Goto, Sae Suzuki, Shinji Masuda, Koh Iba, Kensuke Kusumi. Regulation of ppGpp Synthesis and Its Impact on Chloroplast Biogenesis during Early Leaf Development in Rice. Plant & cell physiology. 2022 Jul; 63(7):919-931. doi: 10.1093/pcp/pcac053. [PMID: 35428891]
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  • Giang Pham, Dong-Min Shin, Yoon Kim, Soo-Hwan Kim. Ran-GTP/-GDP-dependent nuclear accumulation of NONEXPRESSOR OF PATHOGENESIS-RELATED GENES1 and TGACG-BINDING FACTOR2 controls salicylic acid-induced leaf senescence. Plant physiology. 2022 06; 189(3):1774-1793. doi: 10.1093/plphys/kiac164. [PMID: 35417014]
  • Bikram D Pant, Seonghee Lee, Hee-Kyung Lee, Nick Krom, Pooja Pant, YoonJeong Jang, Kirankumar S Mysore. Overexpression of Arabidopsis nucleolar GTP-binding 1 (NOG1) proteins confers drought tolerance in rice. Plant physiology. 2022 06; 189(2):988-1004. doi: 10.1093/plphys/kiac078. [PMID: 35260897]
  • Chen Ling, Xingyong Chen, Weihuang Lin, Zhaoyu Geng. Green tea powder inclusion promoted hatchability through increased yolk antioxidant activity. Poultry science. 2022 May; 101(5):101804. doi: 10.1016/j.psj.2022.101804. [PMID: 35325830]
  • Donghua Jin, Miao Jia, Yuxian Xie, Lihua Lin, Hong Qiu, Guoyuan Lu. Impact of klotho on the expression of SRGAP2a in podocytes in diabetic nephropathy. BMC nephrology. 2022 04; 23(1):151. doi: 10.1186/s12882-022-02765-z. [PMID: 35436879]
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