Amylotriose (BioDeep_00001868448)

Main id: BioDeep_00000001626

 

PANOMIX_OTCML-2023


代谢物信息卡片


Amylotriose

化学式: C18H32O16 (504.169)
中文名称: 麦芽三糖
谱图信息: 最多检出来源 () 0%

分子结构信息

SMILES: C(C1C(C(C(C(O1)OC2C(OC(C(C2O)O)OC3C(OC(C(C3O)O)O)CO)CO)O)O)O)O
InChI: InChI=1S/C18H32O16/c19-1-4-7(22)8(23)12(27)17(31-4)34-15-6(3-21)32-18(13(28)10(15)25)33-14-5(2-20)30-16(29)11(26)9(14)24/h4-29H,1-3H2/t4-,5-,6-,7-,8+,9-,10-,11-,12-,13-,14-,15-,16?,17-,18-/m1/s1

描述信息

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COVID-19
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SARS
Maltotriose, the second most abundant sugar present in brewing, is an inducer of the maltose regulon of Escherichia coli. Maltotriose can induce beta-galactosidase synthesis[1][2].
Maltotriose, the second most abundant sugar present in brewing, is an inducer of the maltose regulon of Escherichia coli. Maltotriose can induce beta-galactosidase synthesis[1][2].

同义名列表

3 个代谢物同义名

Amylotriose; Maltotriose; Maltotriose



数据库引用编号

13 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(0)

BioCyc(3)

PlantCyc(1)

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)

5 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 5 AGL, AOX1, GYG1, JUP, TFDP3
Peripheral membrane protein 2 GBA1, JUP
Endoplasmic reticulum membrane 1 SFTPD
Nucleus 4 AGL, GYG1, JUP, TFDP3
cytosol 6 AGL, AGXT, AOX1, GYG1, JUP, LIPE
trans-Golgi network 1 GBA1
nucleoplasm 1 ATP2B1
Cell membrane 5 ATP2B1, JUP, LIPE, MGAM, SLC1A2
Multi-pass membrane protein 3 ATP2B1, MAL2, SLC1A2
Synapse 1 ATP2B1
cell junction 1 JUP
cell surface 1 SLC1A2
glutamatergic synapse 3 ATP2B1, MAL2, SLC1A2
Golgi apparatus 2 GBA1, TAS1R3
Golgi membrane 1 INS
lysosomal membrane 1 GBA1
presynaptic membrane 2 ATP2B1, SLC1A2
Cytoplasm, cytosol 1 LIPE
Lysosome 2 GBA1, SFTPD
plasma membrane 7 ATP2B1, IGHE, JUP, MGAM, SLC1A2, TAS1R2, TAS1R3
synaptic vesicle membrane 2 ATP2B1, MAL2
Membrane 9 ATP2B1, GYG1, JUP, LIPE, MAL2, MGAM, SLC1A2, TAS1R2, TAS1R3
apical plasma membrane 2 MAL2, MGAM
axon 1 CCK
basolateral plasma membrane 1 ATP2B1
caveola 1 LIPE
extracellular exosome 8 AMY2A, AOX1, ATP2B1, GBA1, JUP, LYZ, MAL2, MGAM
Lysosome membrane 1 GBA1
Lumenal side 1 GBA1
endoplasmic reticulum 1 GBA1
extracellular space 6 AMY2A, CCK, IGHE, INS, LYZ, SFTPD
lysosomal lumen 2 GBA1, GYG1
perinuclear region of cytoplasm 1 MAL2
adherens junction 1 JUP
intercalated disc 1 JUP
intracellular membrane-bounded organelle 2 AGXT, ATP2B1
Single-pass type I membrane protein 1 IGHE
Secreted 3 CCK, INS, MGAM
extracellular region 10 AGL, AMY2A, CCK, GYG1, IGHE, INS, JUP, LYZ, MGAM, SFTPD
cytoplasmic side of plasma membrane 1 JUP
Single-pass membrane protein 1 MGAM
hippocampal mossy fiber to CA3 synapse 1 MAL2
transcription regulator complex 1 TFDP3
Cytoplasmic vesicle, secretory vesicle, synaptic vesicle membrane 1 ATP2B1
multivesicular body 1 SFTPD
Z disc 1 JUP
cell-cell junction 1 JUP
vesicle 1 SLC1A2
Membrane raft 2 MAL2, SLC1A2
Cytoplasm, cytoskeleton 1 JUP
focal adhesion 1 JUP
axolemma 1 SLC1A2
Cell junction, adherens junction 1 JUP
zonula adherens 1 JUP
Peroxisome 1 AGXT
collagen trimer 1 SFTPD
sarcoplasmic reticulum 1 AGL
peroxisomal matrix 1 AGXT
intermediate filament 1 JUP
lateral plasma membrane 1 ATP2B1
receptor complex 1 TAS1R2
chromatin 1 TFDP3
IgE immunoglobulin complex 1 IGHE
cell projection 1 ATP2B1
cytoskeleton 1 JUP
Basolateral cell membrane 1 ATP2B1
[Isoform 2]: Cell membrane 1 IGHE
endosome lumen 1 INS
Lipid droplet 1 LIPE
Membrane, caveola 1 LIPE
Cornified envelope 1 JUP
tertiary granule membrane 1 MGAM
Presynaptic cell membrane 1 ATP2B1
cell body 1 SLC1A2
ficolin-1-rich granule lumen 3 AGL, GYG1, JUP
secretory granule lumen 3 AGL, GYG1, INS
Golgi lumen 1 INS
endoplasmic reticulum lumen 1 INS
specific granule lumen 2 JUP, LYZ
tertiary granule lumen 1 LYZ
endocytic vesicle 1 SFTPD
transport vesicle 1 INS
azurophil granule lumen 1 LYZ
Endoplasmic reticulum-Golgi intermediate compartment membrane 1 INS
immunological synapse 1 ATP2B1
clathrin-coated endocytic vesicle 1 SFTPD
protein-DNA complex 1 JUP
ficolin-1-rich granule membrane 1 MGAM
Cell junction, desmosome 1 JUP
desmosome 1 JUP
catenin complex 1 JUP
[Isoform 3]: Cell membrane 1 IGHE
astrocyte projection 1 SLC1A2
[Isoform 1]: Secreted 1 IGHE
IgE B cell receptor complex 1 IGHE
immunoglobulin complex, circulating 1 IGHE
inclusion body 1 AGL
neuron projection terminus 1 SLC1A2
photoreceptor ribbon synapse 1 ATP2B1
gamma-catenin-TCF7L2 complex 1 JUP
isoamylase complex 1 AGL
membrane protein complex 1 SLC1A2
sweet taste receptor complex 2 TAS1R2, TAS1R3


文献列表

  • Eun Yeong Jang, Ki-Bae Hong, Yeok Boo Chang, Jungcheul Shin, Eun Young Jung, Kyungae Jo, Hyung Joo Suh. In Vitro Prebiotic Effects of Malto-Oligosaccharides Containing Water-Soluble Dietary Fiber. Molecules (Basel, Switzerland). 2020 Nov; 25(21):. doi: 10.3390/molecules25215201. [PMID: 33182247]
  • Virve Vidgren, Brian Gibson. Trans-regulation and localization of orthologous maltose transporters in the interspecies lager yeast hybrid. FEMS yeast research. 2018 09; 18(6):. doi: 10.1093/femsyr/foy065. [PMID: 29931058]
  • Nicolas Sauvageot, Abdelhamid Mokhtari, Philippe Joyet, Aurélie Budin-Verneuil, Víctor S Blancato, Guillermo D Repizo, Céline Henry, Andreas Pikis, John Thompson, Christian Magni, Axel Hartke, Josef Deutscher. Enterococcus faecalis Uses a Phosphotransferase System Permease and a Host Colonization-Related ABC Transporter for Maltodextrin Uptake. Journal of bacteriology. 2017 05; 199(9):. doi: 10.1128/jb.00878-16. [PMID: 28242718]
  • Jing Li, Wenxu Zhou, Perigio Francisco, Russell Wong, Dongke Zhang, Steven M Smith. Inhibition of Arabidopsis chloroplast β-amylase BAM3 by maltotriose suggests a mechanism for the control of transitory leaf starch mobilisation. PloS one. 2017; 12(2):e0172504. doi: 10.1371/journal.pone.0172504. [PMID: 28225829]
  • Yallappa Rajashekar, Thimmappa Shivanandappa. Mode of Action of the Natural Insecticide, Decaleside Involves Sodium Pump Inhibition. PloS one. 2017; 12(1):e0170836. doi: 10.1371/journal.pone.0170836. [PMID: 28125742]
  • Daniela Gutsch, Dietmar Appelhans, Sabrina Höbel, Brigitte Voit, Achim Aigner. Biocompatibility and efficacy of oligomaltose-grafted poly(ethylene imine)s (OM-PEIs) for in vivo gene delivery. Molecular pharmaceutics. 2013 Dec; 10(12):4666-75. doi: 10.1021/mp400479g. [PMID: 24175860]
  • Marina Camara Mattos Martins, Mahdi Hejazi, Joerg Fettke, Martin Steup, Regina Feil, Ursula Krause, Stéphanie Arrivault, Daniel Vosloh, Carlos María Figueroa, Alexander Ivakov, Umesh Prasad Yadav, Maria Piques, Daniela Metzner, Mark Stitt, John Edward Lunn. Feedback inhibition of starch degradation in Arabidopsis leaves mediated by trehalose 6-phosphate. Plant physiology. 2013 Nov; 163(3):1142-63. doi: 10.1104/pp.113.226787. [PMID: 24043444]
  • Lin Liu, Nicola L B Pohl. Synthesis of a series of maltotriose phosphates with an evaluation of the utility of a fluorous phosphate protecting group. Carbohydrate research. 2013 Mar; 369(?):14-24. doi: 10.1016/j.carres.2012.12.015. [PMID: 23376679]
  • Barbara Ziemba, Inessa Halets, Dzmitry Shcharbin, Dietmar Appelhans, Brigitte Voit, Ireneusz Pieszynski, Maria Bryszewska, Barbara Klajnert. Influence of fourth generation poly(propyleneimine) dendrimers on blood cells. Journal of biomedical materials research. Part A. 2012 Nov; 100(11):2870-80. doi: 10.1002/jbm.a.34222. [PMID: 22623362]
  • Joanna Drzewińska, Dietmar Appelhans, Brigitte Voit, Maria Bryszewska, Barbara Klajnert. Poly(propylene imine) dendrimers modified with maltose or maltotriose protect phosphorothioate oligodeoxynucleotides against nuclease activity. Biochemical and biophysical research communications. 2012 Oct; 427(1):197-201. doi: 10.1016/j.bbrc.2012.09.043. [PMID: 22995301]
  • Hidetaka Akita, Tomoya Masuda, Takashi Nishio, Kenichi Niikura, Kuniharu Ijiro, Hideyoshi Harashima. Improving in vivo hepatic transfection activity by controlling intracellular trafficking: the function of GALA and maltotriose. Molecular pharmaceutics. 2011 Aug; 8(4):1436-42. doi: 10.1021/mp200189s. [PMID: 21598999]
  • Jong-Hyun Kim, Michihiro Sunako, Hisayo Ono, Yoshikatsu Murooka, Eiichiro Fukusaki, Mitsuo Yamashita. Characterization of gene encoding amylopullulanase from plant-originated lactic acid bacterium, Lactobacillus plantarum L137. Journal of bioscience and bioengineering. 2008 Nov; 106(5):449-59. doi: 10.1263/jbb.106.449. [PMID: 19111640]
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  • Sergio L Alves, Ricardo A Herberts, Claudia Hollatz, Debora Trichez, Luiz C Miletti, Pedro S de Araujo, Boris U Stambuk. Molecular analysis of maltotriose active transport and fermentation by Saccharomyces cerevisiae reveals a determinant role for the AGT1 permease. Applied and environmental microbiology. 2008 Mar; 74(5):1494-501. doi: 10.1128/aem.02570-07. [PMID: 18203856]
  • Noriyuki Doukyu, Wataru Yamagishi, Hirokazu Kuwahara, Hiroyasu Ogino, Noritake Furuki. Purification and characterization of a maltooligosaccharide-forming amylase that improves product selectivity in water-miscible organic solvents, from dimethylsulfoxide-tolerant Brachybacterium sp. strain LB25. Extremophiles : life under extreme conditions. 2007 Nov; 11(6):781-8. doi: 10.1007/s00792-007-0096-8. [PMID: 17619813]
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