N-Acetylglucosamine (BioDeep_00000405919)
Main id: BioDeep_00000002137
natural product PANOMIX_OTCML-2023 BioNovoGene_Lab2019
代谢物信息卡片
化学式: C8H15NO6 (221.089933)
中文名称: N-乙酰氨基葡萄糖, N-乙酰-D-氨基葡萄糖, N-乙酰基-D-葡糖胺, N-乙酰基-D-葡糖胺, N-乙酰基-D-葡糖胺
谱图信息:
最多检出来源 () 0%
分子结构信息
SMILES: CC(=O)NC(C=O)C(C(C(CO)O)O)O
InChI: InChI=1S/C8H15NO6/c1-4(12)9-5(2-10)7(14)8(15)6(13)3-11/h2,5-8,11,13-15H,3H2,1H3,(H,9,12)
描述信息
COVID info from COVID-19 Disease Map
Corona-virus
Coronavirus
SARS-CoV-2
COVID-19
SARS-CoV
COVID19
SARS2
SARS
N-Acetyl-D-Glucosamine (N-Acetyl-2-amino-2-deoxy-D-glucose) is a monosaccharide derivative of glucose.
同义名列表
数据库引用编号
25 个数据库交叉引用编号
- ChEBI: CHEBI:59640
- ChEBI: CHEBI:17411
- PubChem: 1738118
- PubChem: 343911
- DrugBank: DB00141
- ChEMBL: CHEMBL4303483
- MeSH: Acetylglucosamine
- CAS: 134451-94-8
- CAS: 27555-50-6
- CAS: 376645-66-8
- CAS: 98632-70-3
- CAS: 50985-77-8
- CAS: 7512-17-6
- MoNA: CCMSLIB00005464330
- MoNA: CCMSLIB00005464413
- MoNA: CCMSLIB00005464414
- MoNA: MoNA024340
- MoNA: MoNA024338
- MoNA: FiehnHILIC002844
- MoNA: FiehnHILIC002132
- MoNA: FiehnHILIC001351
- MoNA: FiehnHILIC000554
- RefMet: N-Acetylglucosamine
- medchemexpress: HY-A0132
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-28
分类词条
相关代谢途径
Reactome(4)
BioCyc(0)
PlantCyc(0)
代谢反应
88 个相关的代谢反应过程信息。
Reactome(87)
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)5 + H2O ⟶ GlcNAc (Man)3 + Man
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Carbohydrate metabolism:
L-gulonate + NAD ⟶ 3-dehydro-L-gulonate + H+ + NADH
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)5 + H2O ⟶ GlcNAc (Man)3 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
ATP + PROP-CoA + carbon dioxide ⟶ ADP + MEMA-CoA + Pi
- Carbohydrate metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
L-gulonate + NAD ⟶ 3-dehydro-L-gulonate + H+ + NADH
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)5 + H2O ⟶ GlcNAc (Man)3 + Man
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)5 + H2O ⟶ GlcNAc (Man)3 + Man
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
ATP + PROP-CoA + carbon dioxide ⟶ ADP + MEMA-CoA + Pi
- Carbohydrate metabolism:
ATP + PYR + carbon dioxide ⟶ ADP + OAA + Pi
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Carbohydrate metabolism:
D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
- Lysosomal oligosaccharide catabolism:
GlcNAc (Man)9 + H2O ⟶ GlcNAc (Man)5 + Man
- Glycosaminoglycan metabolism:
H2O + linker chain(2) ⟶ D-xylose + Gal
- Hyaluronan metabolism:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O ⟶ CH3COO-
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
HA:HAR:HYAL2 + SLC9A1:p-CHP:Ca2+ ⟶ HA:HAR:HYAL2:SLC9A1:pCHP:Ca2+
- Hyaluronan uptake and degradation:
HA:HAR:HYAL2 + SLC9A1:p-CHP:Ca2+ ⟶ HA:HAR:HYAL2:SLC9A1:pCHP:Ca2+
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O ⟶ CH3COO-
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + linker chain(2) ⟶ D-xylose + Gal
- Hyaluronan metabolism:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
GlcA- 1,3-GlcNAc + H2O ⟶ GlcA + GlcNAc
- Hyaluronan uptake and degradation:
GlcA- 1,3-GlcNAc + H2O ⟶ GlcA + GlcNAc
- Glycosaminoglycan metabolism:
H2O ⟶ CH3COO-
- Hyaluronan metabolism:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA-β1,3-GlcNAc + GlcNAc
- Glycosaminoglycan metabolism:
H2O + Heparan(3)-PGs ⟶ CH3COO- + Heparan(4)-PGs
- Hyaluronan metabolism:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
- Hyaluronan uptake and degradation:
H2O ⟶ GlcA- 1,3-GlcNAc + GlcNAc
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(0)
COVID-19 Disease Map(1)
- @COVID-19 Disease
Map["name"]:
2-Methyl-3-acetoacetyl-CoA + Coenzyme A ⟶ Acetyl-CoA + Propanoyl-CoA
PathBank(0)
PharmGKB(0)
1 个相关的物种来源信息
- 569774 - 金线莲: -
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
- Meng Zhang, Wanhui Zhou, Yu Cao, Lele Kou, Chunwei Liu, Xiaoshuang Li, Boxi Zhang, Wenjin Guo, Bin Xu, Shize Li. O-GlcNAcylation regulates long-chain fatty acid metabolism by inhibiting ACOX1 ubiquitination-dependent degradation.
International journal of biological macromolecules.
2024 May; 266(Pt 2):131151. doi:
10.1016/j.ijbiomac.2024.131151
. [PMID: 38547945] - Lulu Chen, Mengxue Hu, Luojun Chen, Yihan Peng, Cai Zhang, Xin Wang, Xiangpan Li, Yi Yao, Qibin Song, Jing Li, Huadong Pei. Targeting O-GlcNAcylation in cancer therapeutic resistance: The sugar Saga continues.
Cancer letters.
2024 Apr; 588(?):216742. doi:
10.1016/j.canlet.2024.216742
. [PMID: 38401884] - Ruben Shrestha, Sumudu Karunadasa, TaraBryn S Grismer, Andres V Reyes, Shou-Ling Xu. SECRET AGENT O-GlcNAcylates Hundreds of Proteins Involved in Diverse Cellular Processes in Arabidopsis.
Molecular & cellular proteomics : MCP.
2024 Apr; 23(4):100732. doi:
10.1016/j.mcpro.2024.100732
. [PMID: 38336175] - Sang-Mo Kang, Arjun Adhikari, Eun-Hae Kwon, Ho-Jun Gam, Jin Ryeol Jeon, Ji-In Woo, In-Jung Lee. Influence of N-Acetylglucosamine and Melatonin Interaction in Modeling the Photosynthetic Component and Metabolomics of Cucumber under Salinity Stress.
International journal of molecular sciences.
2024 Feb; 25(5):. doi:
10.3390/ijms25052844
. [PMID: 38474090] - Zachary M Nelson, Garry D Leonard, Charlie Fehl. Tools for investigating O-GlcNAc in signaling and other fundamental biological pathways.
The Journal of biological chemistry.
2023 Dec; 300(2):105615. doi:
10.1016/j.jbc.2023.105615
. [PMID: 38159850] - Jia-Xuan Zhang, Xiao-le Liu, Li Wang, Zhen Fang. Two-stage process production of microbial lipid by co-fermentation of glucose and N-acetylglucosamine from food wastes with Cryptococcus curvatus.
Bioresource technology.
2023 Nov; 387(?):129685. doi:
10.1016/j.biortech.2023.129685
. [PMID: 37595808] - Xianfeng Hu, Jian Wang, Yubo Zhang, Rongyu Li, Ming Li. Molecular mechanism of Osthole against chitin synthesis of Ustilaginoidea virens based on combined transcriptome and metabolome analyses.
Pesticide biochemistry and physiology.
2023 Nov; 196(?):105612. doi:
10.1016/j.pestbp.2023.105612
. [PMID: 37945229] - Yihao Liu, Zhen Qin, Chunling Wang, Zhengqiang Jiang. N-acetyl-d-glucosamine-based oligosaccharides from chitin: Enzymatic production, characterization and biological activities.
Carbohydrate polymers.
2023 Sep; 315(?):121019. doi:
10.1016/j.carbpol.2023.121019
. [PMID: 37230627] - Yusen Zhou, Tian Zhang, Xiaocui Wang, Wenqiang Wu, Jingjing Xing, Zuliang Li, Xin Qiao, Chunrui Zhang, Xiaohang Wang, Guangshun Wang, Wenhui Li, Shenglong Bai, Zhi Li, Yuanzhen Suo, Jiajia Wang, Yanli Niu, Junli Zhang, Chen Lan, Zhubing Hu, Baozhu Li, Xuebin Zhang, Wei Wang, David W Galbraith, Yuhang Chen, Siyi Guo, Chun-Peng Song. A maize epimerase modulates cell wall synthesis and glycosylation during stomatal morphogenesis.
Nature communications.
2023 07; 14(1):4384. doi:
10.1038/s41467-023-40013-6
. [PMID: 37474494] - Zeqi Li, Bo Fu, Aili Wei, Yanchen Wu, Ming Huang, Enhao Zhang, Bo Cui, Bo Wang, Hui Peng. d-Glucosamine induces circadian phase delay by promoting BMAL1 degradation through AMPK/mTOR pathway.
Life sciences.
2023 Jul; 325(?):121765. doi:
10.1016/j.lfs.2023.121765
. [PMID: 37169147] - Maria J Gonzalez-Rellan, Tamara Parracho, Violeta Heras, Amaia Rodriguez, Marcos F Fondevila, Eva Novoa, Natalia Lima, Marta Varela-Rey, Ana Senra, Maria Dp Chantada-Vazquez, Cristina Ameneiro, Ganeko Bernardo, David Fernandez-Ramos, Fernando Lopitz-Otsoa, Jon Bilbao, Diana Guallar, Miguel Fidalgo, Susana Bravo, Carlos Dieguez, Maria L Martinez-Chantar, Oscar Millet, Jose M Mato, Markus Schwaninger, Vincent Prevot, Javier Crespo, Gema Frühbeck, Paula Iruzubieta, Ruben Nogueiras. Hepatocyte-specific O-GlcNAc transferase downregulation ameliorates nonalcoholic steatohepatitis by improving mitochondrial function.
Molecular metabolism.
2023 Jul; ?(?):101776. doi:
10.1016/j.molmet.2023.101776
. [PMID: 37453647] - Chao Wen, He-Chun Wu, Wen-Hong Ouyang, Jia-Xing Nie, Yi-Ping Guo, Feng Wang, Li-Li Hu, Jin-Hua Yang, Li-Juan Zheng, Jia-Lu Wang, Wei Huang, Guang-Ping Liang, Ren-Wang Jiang. Exploring the Catalytic Flexibility and Reversibility of Plant Glycosyltransferase HtUGT72AS1 for Glycodiversification of Phenolic Compounds.
Journal of agricultural and food chemistry.
2023 Jun; ?(?):. doi:
10.1021/acs.jafc.3c01459
. [PMID: 37260384] - Akiko Nakamoto, Natsuko Ohashi, Lucia Sugawara, Katsutaro Morino, Shogo Ida, Rachel J Perry, Ikki Sakuma, Tsuyoshi Yanagimachi, Yukihiro Fujita, Satoshi Ugi, Shinji Kume, Gerald I Shulman, Hiroshi Maegawa. O-GlcNAc modification is essential for physiological adipose expansion induced by high-fat feeding.
American journal of physiology. Endocrinology and metabolism.
2023 May; ?(?):. doi:
10.1152/ajpendo.00263.2022
. [PMID: 37224467] - Peibo Liang, Jingmin Li, Wei Chen, Jianyang Li, Qing Yang, Jianjun Zhang. Application of Natural Bioresources to Sustainable Agriculture: A C-Glycoside Insecticide Based on N-Acetyl-glucosamine for Regulating Insect Molting of Ostrinia furnacalis.
Journal of agricultural and food chemistry.
2023 Apr; ?(?):. doi:
10.1021/acs.jafc.2c08760
. [PMID: 37013678] - Keyan Zhang, Danqing Yao, Yue Chen, Haifan Wen, Jian Pan, Tingting Xiao, Duo Lv, Huanle He, Junsong Pan, Run Cai, Gang Wang. Mapping and identification of CsSF4, a gene encoding a UDP-N-acetyl glucosamine-peptide N-acetylglucosaminyltransferase required for fruit elongation in cucumber (Cucumis sativus L.).
TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik.
2023 Mar; 136(3):54. doi:
10.1007/s00122-023-04246-9
. [PMID: 36912991] - Xiaochen Jia, Hongyan Zhang, Hongqiang Qin, Kuikui Li, Xiaoyan Liu, Wenxia Wang, Mingliang Ye, Heng Yin. Protein O-GlcNAcylation impairment caused by N-acetylglucosamine phosphate mutase deficiency leads to growth variations in Arabidopsis thaliana.
The Plant journal : for cell and molecular biology.
2023 Feb; ?(?):. doi:
10.1111/tpj.16156
. [PMID: 36799458] - Rodolfo Zentella, Yan Wang, Emily Zahn, Jianhong Hu, Liang Jiang, Jeffrey Shabanowitz, Donald F Hunt, Tai-Ping Sun. SPINDLY O-fucosylates nuclear and cytoplasmic proteins involved in diverse cellular processes in plants.
Plant physiology.
2023 Feb; ?(?):. doi:
10.1093/plphys/kiad011
. [PMID: 36740243] - Maxence Noel, Daniel I Chasman, Samia Mora, James D Otvos, Christopher D Palmer, Patrick J Parsons, Jordan W Smoller, Richard D Cummings, Robert G Mealer. The Inflammation Biomarker GlycA Reflects Plasma N-Glycan Branching.
Clinical chemistry.
2023 01; 69(1):80-87. doi:
10.1093/clinchem/hvac160
. [PMID: 36254612] - Jin-Ichi Inokuchi, Shinji Go, Yoshio Hirabayashi. Synthesis of O-Linked Glycoconjugates in the Nervous System.
Advances in neurobiology.
2023; 29(?):95-116. doi:
10.1007/978-3-031-12390-0_4
. [PMID: 36255673] - Erhard Bieberich. Synthesis, Processing, and Function of N-Glycans in N-Glycoproteins.
Advances in neurobiology.
2023; 29(?):65-93. doi:
10.1007/978-3-031-12390-0_3
. [PMID: 36255672] - Naoko Okamoto, Megumi Maeda, Chiharu Yamamoto, Reo Kodama, Koichi Sugimoto, Yoshihito Shinozaki, Hiroshi Ezura, Yoshinobu Kimura. Construction of tomato plants with suppressed endo-β-N-acetylglucosaminidase activity using CRISPR-Cas9 mediated genome editing.
Plant physiology and biochemistry : PPB.
2022 Nov; 190(?):203-211. doi:
10.1016/j.plaphy.2022.08.009
. [PMID: 36130423] - Riccardo Zanni, Jesús Martínez-Cruz, María Gálvez-Llompart, Dolores Fernández-Ortuño, Diego Romero, Ramón García-Domènech, Alejandro Pérez-García, Jorge Gálvez. Rational Design of Chitin Deacetylase Inhibitors for Sustainable Agricultural Use Based on Molecular Topology.
Journal of agricultural and food chemistry.
2022 Oct; 70(41):13118-13131. doi:
10.1021/acs.jafc.2c02377
. [PMID: 36194443] - Lillian F Hyde, Yang Kong, Lihong Zhao, Sriganesh Ramachandra Rao, Jieping Wang, Lisa Stone, Andrew Njaa, Gayle B Collin, Mark P Krebs, Bo Chang, Steven J Fliesler, Patsy M Nishina, Jürgen K Naggert. A Dpagt1 Missense Variant Causes Degenerative Retinopathy without Myasthenic Syndrome in Mice.
International journal of molecular sciences.
2022 Oct; 23(19):. doi:
10.3390/ijms231912005
. [PMID: 36233305] - Wei Chen, Peng Cao, Yuansheng Liu, Ailing Yu, Dong Wang, Lei Chen, Rajamanikandan Sundarraj, Zhiguang Yuchi, Yong Gong, Hans Merzendorfer, Qing Yang. Structural basis for directional chitin biosynthesis.
Nature.
2022 10; 610(7931):402-408. doi:
10.1038/s41586-022-05244-5
. [PMID: 36131020] - Jiqiang Chen, Xu Zou, Weixing Zhu, Yanwei Duan, Hans Merzendorfer, Zhangwu Zhao, Qing Yang. Fatty acid binding protein is required for chitin biosynthesis in the wing of Drosophila melanogaster.
Insect biochemistry and molecular biology.
2022 10; 149(?):103845. doi:
10.1016/j.ibmb.2022.103845
. [PMID: 36165873] - Makoto Ogata, Mao Sakamoto, Noriko Yamauchi, Masato Nakazawa, Ami Koizumi, Remi Anazawa, Kenichi Kurumada, Kazuya I P J Hidari, Hiroyuki Kono. Optimization of the conditions for the immobilization of glycopolypeptides on hydrophobic silica particulates and simple purification of lectin using glycopolypeptide-immobilized particulates.
Carbohydrate research.
2022 Sep; 519(?):108624. doi:
10.1016/j.carres.2022.108624
. [PMID: 35749901] - Qiushi Chen, Yuanliang Zhang, Keren Zhang, Jie Liu, Huozhen Pan, Xinran Wang, Siqi Li, Dandan Hu, Zhilong Lin, Yun Zhao, Guixue Hou, Feng Guan, Hong Li, Siqi Liu, Yan Ren. Profiling the Bisecting N-acetylglucosamine Modification in Amniotic Membrane via Mass Spectrometry.
Genomics, proteomics & bioinformatics.
2022 Aug; 20(4):648-656. doi:
10.1016/j.gpb.2021.09.010
. [PMID: 35123071] - Joana Silva, Reynard Spiess, Andrea Marchesi, Sabine L Flitsch, Julie E Gough, Simon J Webb. Enzymatic elaboration of oxime-linked glycoconjugates in solution and on liposomes.
Journal of materials chemistry. B.
2022 07; 10(26):5016-5027. doi:
10.1039/d2tb00714b
. [PMID: 35723603] - Jiuyun Sun, Shuhua Li, Chunyang Fan, Kangjia Cui, Hongxiao Tan, Liping Qiao, Laifeng Lu. N-Acetylglucosamine Promotes Tomato Plant Growth by Shaping the Community Structure and Metabolism of the Rhizosphere Microbiome.
Microbiology spectrum.
2022 06; 10(3):e0035822. doi:
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The FEBS journal.
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Scientific reports.
2022 05; 12(1):7925. doi:
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Biotechnology letters.
2022 Apr; 44(4):623-633. doi:
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Journal of agricultural and food chemistry.
2022 Mar; 70(12):3917-3928. doi:
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Scientific reports.
2022 03; 12(1):4464. doi:
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Molecular biotechnology.
2022 Mar; 64(3):293-310. doi:
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Molecular immunology.
2022 02; 142(?):120-129. doi:
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International journal of biological macromolecules.
2022 Jan; 195(?):30-40. doi:
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Frontiers in immunology.
2022; 13(?):874863. doi:
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Nature chemical biology.
2022 01; 18(1):8-17. doi:
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Frontiers in endocrinology.
2022; 13(?):943576. doi:
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Journal of ethnopharmacology.
2021 Dec; 281(?):114562. doi:
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Journal of veterinary internal medicine.
2021 Nov; 35(6):2912-2919. doi:
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Blood.
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Appetite.
2021 10; 165(?):105320. doi:
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Microbiology spectrum.
2021 09; 9(1):e0063821. doi:
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Chemical communications (Cambridge, England).
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JAMA neurology.
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The CRISPR journal.
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Nature chemical biology.
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Scientific reports.
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Molecular pharmaceutics.
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2021 Jan; 130(1):196-207. doi:
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The Journal of biological chemistry.
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Proceedings of the Japan Academy. Series B, Physical and biological sciences.
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Biochemistry.
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Metabolism: clinical and experimental.
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Brain : a journal of neurology.
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European journal of clinical investigation.
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Bioresource technology.
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Metabolic engineering.
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SLAS technology.
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Scientific reports.
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Immunity.
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Proceedings of the National Academy of Sciences of the United States of America.
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Metabolomics : Official journal of the Metabolomic Society.
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Communications biology.
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Genes to cells : devoted to molecular & cellular mechanisms.
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International journal of biological macromolecules.
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Nature communications.
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Maternal & child nutrition.
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BioMed research international.
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Methods in molecular biology (Clifton, N.J.).
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Medical science monitor : international medical journal of experimental and clinical research.
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