G85441OF

Summary
GlyTouCan ID
G85441OF
Subsumption Level
Linkage-defined saccharide
Monoisotopic Mass
666.22
GlyGen
PubChem Compound
PubChem Substance
3D Structures
GlycoShape
Sequence Descriptors
GlycoCT
RES
1b:o-dglc-HEX-0:0
2b:a-dglc-HEX-1:5
3b:a-dglc-HEX-1:5
4b:a-dglc-HEX-1:5
LIN
1:1o(4+1)2d
2:2o(4+1)3d
3:3o(4+1)4d
WURCS
WURCS=2.0/2,4,3/[o2122h][a2122h-1a_1-5]/1-2-2-2/a4-b1_b4-c1_c4-d1
Literature
Displaying entries 11 - 20 of 100 in total
PubMed ID Title First Author Publication Date Source
31385710 High-Resolution Imaging of Maltoporin LamB while Quantifying the Free-Energy Landscape and Asymmetry of Sugar Binding Mulvihill E 2019 Aug 06
  • PubChem
30488036 Modeling Meets Metabolomics—The WormJam Consensus Model as Basis for Metabolic Studies in the Model Organism Caenorhabditis elegans Witting M 2018 Nov 14
  • PubChem
29492773 Electron Transfer Dissociation and Collision-Induced Dissociation of Underivatized Metallated Oligosaccharides Schaller-Duke RM 2018 Feb 28
  • PubChem
28370477 Inducer exclusion in Firmicutes: insights into the regulation of a carbohydrate ATP binding cassette transporter from Lactobacillus casei BL23 by the signal transducing protein P‐Ser46‐HPr Homburg C 2017 Apr 18
  • PubChem
27067145 Inhibition of PDGF‐induced migration and TNF‐α‐induced ICAM‐1 expression by maltotetraose from bamboo stem extract (BSE) in mouse vascular smooth muscle cells Shin SY 2016 May 25
  • PubChem
27000839 Characterization of a type I pullulanase from Anoxybacillus sp. SK3-4 reveals an unusual substrate hydrolysis Kahar UM 2016 Mar 22
  • PubChem
27358602 Recon 2.2: from reconstruction to model of human metabolism Swainston N 2016 Jun 07
  • PubChem
24755402 Characterization of α-1,3-glucanase isozyme from Paenibacillus glycanilyticus FH11 in a new subgroup of family 87 α-1,3-glucanase Suyotha W 2014 Oct
  • PubChem
25040090 Utilization of a Maltotetraose‐Producing Amylase as a Whole Wheat Bread Improver: Dough Rheology and Baking Performance Bae W 2014 Jul 17
  • PubChem
24442968 Mucosal C‐terminal maltase‐glucoamylase hydrolyzes large size starch digestion products that may contribute to rapid postprandial glucose generation Lee BH 2014 Jan 20
  • PubChem

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Acknowledgements

Supported by JST NBDC Grant Number JPMJND2204

Partly supported by NIH Common Fund Grant #1U01GM125267-01


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Last updated: April 6, 2026