D-Ribose (BioDeep_00000015049)

Secondary id: BioDeep_00000004143, BioDeep_00000406174, BioDeep_00000412695

PANOMIX_OTCML-2023

代谢物信息卡片

D-ribo-2,3,4,5-tetrahydroxyvaleraldehyde

化学式: C5H10O5 (150.052821)
中文名称: D-(-)-核糖, D-核糖
谱图信息: 最多检出来源 Homo sapiens(blood) 0.02%

分子结构信息

SMILES: C(C(C(C(C=O)O)O)O)O
InChI: InChI=1S/C5H10O5/c6-1-2-3(7)4(8)5(9)10-2/h2-9H,1H2/t2-,3-,4-,5?/m1/s1

描述信息

CONFIDENCE standard compound; INTERNAL_ID 227
D-Ribose(mixture of isomers) is an energy enhancer, and acts as a sugar moiety of ATP, and widely used as a metabolic therapy supplement for chronic fatigue syndrome or cardiac energy metabolism. D-Ribose(mixture of isomers) is active in protein glycation, induces NF-κB inflammation in a RAGE-dependent manner[1].
D-Ribose(mixture of isomers) is an energy enhancer, and acts as a sugar moiety of ATP, and widely used as a metabolic therapy supplement for chronic fatigue syndrome or cardiac energy metabolism. D-Ribose(mixture of isomers) is active in protein glycation, induces NF-κB inflammation in a RAGE-dependent manner[1].
D-Ribose(mixture of isomers) is an energy enhancer, and acts as a sugar moiety of ATP, and widely used as a metabolic therapy supplement for chronic fatigue syndrome or cardiac energy metabolism. D-Ribose(mixture of isomers) is active in protein glycation, induces NF-κB inflammation in a RAGE-dependent manner[1].

同义名列表

8 个代谢物同义名

(2R,3R,4R)-2,3,4,5-Tetrahydroxypentanal; D-Ribose; D-ribo-2,3,4,5-tetrahydroxyvaleraldehyde; aldehydo-D-ribo-pentose; aldehydo-D-ribose; ZINC02508189; CHEBI:47014; D-Ribose(mixture of isomers)

数据库引用编号

31 个数据库交叉引用编号

ChEBI: CHEBI:47014
ChEBI: CHEBI:47007
ChEBI: CHEBI:33942
ChEBI: CHEBI:47006
ChEBI: CHEBI:16988
KEGG: C21057
PubChem: 5311110
PubChem: 10975657
DrugBank: DB15073
MeSH: Ribose
CAS: 34466-20-1
CAS: 50-69-1
CAS: 10257-32-6
CAS: 10257-33-7
CAS: 613-83-2
MoNA: EMBL-MCF_spec311291
MoNA: EMBL-MCF_spec311287
MoNA: EMBL-MCF_spec311285
MoNA: EMBL-MCF_spec311277
MoNA: EMBL-MCF_spec311267
MoNA: EMBL-MCF_spec311259
MoNA: EMBL-MCF_spec311241
MoNA: EMBL-MCF_spec90709
MoNA: RP022712
MoNA: RP022711
MoNA: HMDB0000283_ms_ms_482
MoNA: HMDB0000283_ms_ms_481
PubChem: 254816282
PDB-CCD: RIP
PDB-CCD: YYM
medchemexpress: HY-W018772

分类词条

代谢反应

29 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(29)

adenosine nucleotides degradation I: AMP + H₂O ⟶ ammonia + inosine-5'-phosphate
purine nucleotides degradation I (plants): H₂O + guanine ⟶ ammonia + xanthine
adenosine nucleotides degradation I: AMP + H₂O ⟶ IMP + ammonia
pyridine nucleotide cycling (plants): ATP + H₂O + gln + nicotinate adenine dinucleotide ⟶ AMP + H⁺ + NAD⁺ + diphosphate + glt
salvage pathways of purine nucleosides: H₂O + adenine ⟶ ammonia + hypoxanthine
superpathway of ribose and deoxyribose phosphate degradation: H₂O + deoxycytidine ⟶ ammonia + deoxyuridine
ribose degradation: ATP + D-ribose ⟶ ADP + D-ribose-5-phosphate + H⁺
ribose degradation: ATP + D-ribose ⟶ ADP + D-ribose 5-phosphate + H⁺
purine and pyrimidine metabolism: adenosine + phosphate ⟶ α-D-ribose-1-phosphate + adenine
superpathway of ribose and deoxyribose phosphate degradation: deoxyuridine + phosphate ⟶ deoxyribose 1-phosphate + uracil
superpathway of guanosine nucleotides degradation (plants): H₂O + guanine ⟶ ammonia + xanthine
guanine and guanosine salvage II: H₂O + guanosine ⟶ D-ribose + guanine
guanosine nucleotides degradation II: H₂O + guanine ⟶ ammonia + xanthine
guanosine nucleotides degradation I: H₂O + guanosine ⟶ ammonia + xanthosine
purine and pyrimidine metabolism: AMP + diphosphate ⟶ 5-phospho-α-D-ribose 1-diphosphate + adenine
purine nucleosides salvage II (plant): AMP + diphosphate ⟶ 5-phospho-α-D-ribose 1-diphosphate + adenine
adenine and adenosine salvage II: AMP + diphosphate ⟶ 5-phospho-α-D-ribose 1-diphosphate + adenine
ribose degradation: ATP + D-ribose ⟶ ADP + D-ribose 5-phosphate + H⁺
pyrimidine ribonucleosides degradation II: H₂O + cytidine ⟶ ammonia + uridine
purine and pyrimidine metabolism: adenosine + phosphate ⟶ α-D-ribose-1-phosphate + adenine
guanine and guanosine salvage II: H₂O + guanosine ⟶ D-ribose + guanine
ribose degradation: ATP + D-ribose ⟶ ADP + D-ribose 5-phosphate + H⁺
purine and pyrimidine metabolism: adenosine + phosphate ⟶ α-D-ribose-1-phosphate + adenine
purine and pyrimidine metabolism: adenosine + phosphate ⟶ α-D-ribose-1-phosphate + adenine
purine and pyrimidine metabolism: AMP + diphosphate ⟶ 5-phospho-α-D-ribose 1-diphosphate + adenine
pyridine nucleotide cycling (plants): H₂O + nicotinamide ⟶ H⁺ + ammonia + nicotinate
adenine and adenosine salvage II: H₂O + adenosine ⟶ D-ribose + adenine
purine nucleosides salvage II (plant): H₂O + adenosine ⟶ D-ribose + adenine
guanine and guanosine salvage II: H₂O + guanosine ⟶ D-ribose + guanine

WikiPathways(0)

Plant Reactome(0)

INOH(0)

PlantCyc(0)

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

8 个相关的物种来源信息

3702 - Arabidopsis thaliana: 10.1016/J.PHYTOCHEM.2008.09.020
3483 - Cannabis sativa: 10.1021/NP50008A001
2315329 - Streptomyces sporangiiformans: 10.3390/MICROORGANISMS7090360
189786 - Tamarix aphylla:
189786 - Tamarix aphylla: 10.1055/S-0028-1099548
3677 - Trichosanthes Kirilowii Maxim: -
33090 - 柴胡: -
33090 - 瓜蒌: -

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

Ke Xu, Yi Ren, Shuang Zhao, Jinzhou Feng, Qingyuan Wu, Xue Gong, Jianjun Chen, Peng Xie. Oral D-ribose causes depressive-like behavior by altering glycerophospholipid metabolism via the gut-brain axis. Communications biology. 2024 01; 7(1):69. doi: 10.1038/s42003-023-05759-1. [PMID: 38195757]
Jing-Jing Liu, Zhan-Yi Wang, Bin-Bin Jiang, Shu-Qin Gao, Ying-Wu Lin. Protective effect of thymoquinone on glycation of human myoglobin induced by d-ribose. International journal of biological macromolecules. 2023 Dec; 253(Pt 4):127016. doi: 10.1016/j.ijbiomac.2023.127016. [PMID: 37741485]
Mahdi Hatami, Maryam Kouchak, Alireza Kheirollah, Layasadat Khorsandi, Mojtaba Rashidi. Quercetin-loaded solid lipid nanoparticles exhibit antitumor activity and suppress the proliferation of triple-negative MDA-MB 231 breast cancer cells: implications for invasive breast cancer treatment. Molecular biology reports. 2023 Oct; ?(?):. doi: 10.1007/s11033-023-08848-w. [PMID: 37831347]
Miyeon Kim, Ju Young Bae, Soyeon Yoo, Hyun Woo Kim, Sang Ah Lee, Eui Tae Kim, Gwanpyo Koh. 2-Deoxy-d-ribose induces ferroptosis in renal tubular epithelial cells via ubiquitin-proteasome system-mediated xCT protein degradation. Free radical biology & medicine. 2023 Sep; 208(?):384-393. doi: 10.1016/j.freeradbiomed.2023.08.027. [PMID: 37659699]
Amina Arken, Xinmin Zhao, Yanhua Gao, Adil Omar, Dan Tang, Ahmidin Waili, Zi Yang, Yahui Wang, Haji Akbar Aisa, Abulimiti Yili. Biochemical characterization, and anti-inflammatory and antitumor activities of glycoprotein from lamb abomasum. Journal of ethnopharmacology. 2023 Jul; 311(?):116359. doi: 10.1016/j.jep.2023.116359. [PMID: 36965544]
Sebastian Marquardt, Pablo Andrés Manavella. A ribose world: current status and future challenges of plant RNA biology. Journal of experimental botany. 2023 04; 74(7):2203-2207. doi: 10.1093/jxb/erad070. [PMID: 37031364]
Rafael Itzhakov, Dmitry Tworowski, Noy Sadot, Tali Sayas, Elazar Fallik, Maya Kleiman, Elena Poverenov. Nucleoside-Based Cross-Linkers for Hydrogels with Tunable Properties. ACS applied materials & interfaces. 2023 Feb; 15(5):7359-7370. doi: 10.1021/acsami.2c19525. [PMID: 36701767]
Vlasta Matušková, Marek Zatloukal, Tomáš Pospíšil, Jiří Voller, Hana Vylíčilová, Karel Doležal, Miroslav Strnad. From synthesis to the biological effect of isoprenoid 2'-deoxyriboside and 2',3'-dideoxyriboside cytokinin analogues. Phytochemistry. 2023 Jan; 205(?):113481. doi: 10.1016/j.phytochem.2022.113481. [PMID: 36283448]
Prairna Balyan, Mohammad Shamsul Ola, Abdullah S Alhomida, Ahmad Ali. D-Ribose-Induced Glycation and Its Attenuation by the Aqueous Extract of Nigella sativa Seeds. Medicina (Kaunas, Lithuania). 2022 Dec; 58(12):. doi: 10.3390/medicina58121816. [PMID: 36557018]
Yuxin Cao, Jiayin Wang, Songlin Wu, Xiaochang Yin, Jia Shu, Xing Dai, Yannan Liu, Linhua Sun, Danmeng Zhu, Xing Wang Deng, Keqiong Ye, Weiqiang Qian. The small nucleolar RNA SnoR28 regulates plant growth and development by directing rRNA maturation. The Plant cell. 2022 10; 34(11):4173-4190. doi: 10.1093/plcell/koac265. [PMID: 36005862]
Michail Michailidis, Vaia Styliani Titeli, Evangelos Karagiannis, Kyriaki Feidaki, Ioannis Ganopoulos, Georgia Tanou, Anagnostis Argiriou, Athanassios Molassiotis. Tissue-specific transcriptional analysis outlines calcium-induced core metabolic changes in sweet cherry fruit. Plant physiology and biochemistry : PPB. 2022 Oct; 189(?):139-152. doi: 10.1016/j.plaphy.2022.08.022. [PMID: 36087439]
Cheng-Pei Chung, Shih-Min Hsia, Wen-Szu Chang, Din-Wen Huang, Wen-Chang Chiang, Mohamed Ali, Ming-Yi Lee, Chi-Hao Wu. Antiglycation Effects of Adlay Seed and Its Active Polyphenol Compounds: An In Vitro Study. Molecules (Basel, Switzerland). 2022 Oct; 27(19):. doi: 10.3390/molecules27196729. [PMID: 36235272]
Archana Yadav, Chetna Singh. Cyclooxygenase-2 activates the free radical-mediated apoptosis of polymorphonuclear leukocytes in the maneb- and paraquat-intoxicated rats. Pesticide biochemistry and physiology. 2022 Oct; 187(?):105202. doi: 10.1016/j.pestbp.2022.105202. [PMID: 36127053]
Fahaad Alenazi, Mohd Saleem, Azharuddin Sajid Syed Khaja, Mubashir Zafar, Mohammed Salem Alharbi, Turki Al Hagbani, Mohd Yasir Khan, Waseem Ahmad, Saheem Ahmad. Antiglycation potential of plant based TiO2 nanoparticle in D-ribose glycated BSA in vitro. Cell biochemistry and function. 2022 Oct; 40(7):784-796. doi: 10.1002/cbf.3744. [PMID: 36128730]
Chuan He, Xiujun Sun, Zhenzhen Huang, Zishan Wang, Xianxian Luo, Jia Song, Xiangjing Wang, Junwei Zhao, Wensheng Xiang. Saccharothrix luteola sp. nov., a novel cellulose-degrading actinobacterium isolated from soil and emended description of the genus Saccharothrix. International journal of systematic and evolutionary microbiology. 2022 Oct; 72(10):. doi: 10.1099/ijsem.0.005572. [PMID: 36268867]
Sangsang Tang, Yuanming Shen, Xinyi Wei, Zhangjin Shen, Weiguo Lu, Junfen Xu. Olaparib synergizes with arsenic trioxide by promoting apoptosis and ferroptosis in platinum-resistant ovarian cancer. Cell death & disease. 2022 09; 13(9):826. doi: 10.1038/s41419-022-05257-y. [PMID: 36163324]
Xu-Dong Gao, Yue Hu, Wei-Feng Wang, Xiao-Bo Zhao, Xin-Zhen Du, Yan-Ping Shi. Rapid and Selective 19F NMR-Based Sensors for Fingerprint Identification of Ribose. Analytical chemistry. 2022 08; 94(33):11564-11572. doi: 10.1021/acs.analchem.2c01832. [PMID: 35968680]
Rikitha S Fernandes, Nilanjan Dey. Synthetic Supramolecular Host for D-(-)-Ribose: Ratiometric Fluorescence Response via Multivalent Lectin-Carbohydrate Interactions. Chembiochem : a European journal of chemical biology. 2022 Jul; 23(13):e202200044. doi: 10.1002/cbic.202200044. [PMID: 35429209]
Sharat Sarmah, Archita Goswami, Vinay Kumar Belwal, Atanu Singha Roy. Mitigation of ribose and glyoxal induced glycation, AGEs formation and aggregation of human serum albumin by citrus fruit phytochemicals naringin and naringenin: An insight into their mechanism of action. Food research international (Ottawa, Ont.). 2022 Jul; 157(?):111358. doi: 10.1016/j.foodres.2022.111358. [PMID: 35761621]
Yicong Bian, Jian Meng, Sheng Ma, Guangze Li, Yuya Wang, Shaorong Li, Linsheng Liu, Chenrong Huang, Hua Zhang, Dafang Zhong, Liyan Miao. Metabolite profiles and mass balance of fuzuloparib, a novel poly (ADP-ribose) polymerase inhibitor, in subjects with advanced solid cancers. British journal of clinical pharmacology. 2022 07; 88(7):3307-3320. doi: 10.1111/bcp.15256. [PMID: 35112382]
Alisha N Jones, André Mourão, Anna Czarna, Alex Matsuda, Roberto Fino, Krzysztof Pyrc, Michael Sattler, Grzegorz M Popowicz. Characterization of SARS-CoV-2 replication complex elongation and proofreading activity. Scientific reports. 2022 Jun; 12(1):9593. doi: 10.1038/s41598-022-13380-1. [PMID: 35688849]
Cheng Zheng, Mingjin Qu, Yingmiao Liu, Junzhi Wang, Hanjie Ying. Design and optimizing a new CDP-choline in vitro multienzyme producing process starts from d-ribose. Biotechnology and applied biochemistry. 2022 Jun; 69(3):1029-1035. doi: 10.1002/bab.2173. [PMID: 33885187]
Yongquan Xue, Trisha Shamp, G A Nagana Gowda, Michael Crabtree, Debasis Bagchi, Daniel Raftery. A Combination of Nicotinamide and D-Ribose (RiaGev) Is Safe and Effective to Increase NAD+ Metabolome in Healthy Middle-Aged Adults: A Randomized, Triple-Blind, Placebo-Controlled, Cross-Over Pilot Clinical Trial. Nutrients. 2022 May; 14(11):. doi: 10.3390/nu14112219. [PMID: 35684021]
Yongfang Li, Dong Zhang, Xin Gao, Xiaowei Wang, Lu Zhang. 2'- and 3'-Ribose Modifications of Nucleotide Analogues Establish the Structural Basis to Inhibit the Viral Replication of SARS-CoV-2. The journal of physical chemistry letters. 2022 May; 13(18):4111-4118. doi: 10.1021/acs.jpclett.2c00087. [PMID: 35503748]
Kiran S Toti, John R Jimah, Veronica Salmaso, Jenny E Hinshaw, Kenneth A Jacobson. Synthesis and Effect of Conformationally Locked Carbocyclic Guanine Nucleotides on Dynamin. Biomolecules. 2022 04; 12(4):. doi: 10.3390/biom12040584. [PMID: 35454173]
Irmgard U Haussmann, Yanying Wu, Mohanakarthik P Nallasivan, Nathan Archer, Zsuzsanna Bodi, Daniel Hebenstreit, Scott Waddell, Rupert Fray, Matthias Soller. CMTr cap-adjacent 2'-O-ribose mRNA methyltransferases are required for reward learning and mRNA localization to synapses. Nature communications. 2022 03; 13(1):1209. doi: 10.1038/s41467-022-28549-5. [PMID: 35260552]
Biebele Abel, Megumi Murakami, Dilip K Tosh, Jinha Yu, Sabrina Lusvarghi, Ryan G Campbell, Zhan-Guo Gao, Kenneth A Jacobson, Suresh V Ambudkar. Interaction of A3 adenosine receptor ligands with the human multidrug transporter ABCG2. European journal of medicinal chemistry. 2022 Mar; 231(?):114103. doi: 10.1016/j.ejmech.2022.114103. [PMID: 35152062]
Zhiwei Lu, Xinyue Liu, Xuejiao Li, Chuanjia Zhai, Yulian Shi, Xiaoyan Gao. BH+/MH+-matching method for discovery of cis-diol-containing modified nucleosides in urine by ribose-targeted solid phase extraction followed by dual-mass spectrometry platform identification. Journal of pharmaceutical and biomedical analysis. 2022 Feb; 210(?):114555. doi: 10.1016/j.jpba.2021.114555. [PMID: 34974239]
Yuanyuan Jiang, Lanxin Liu, Morenci Manning, Madison Bonahoom, Aaron Lotvola, Zhe Yang, Zeng-Quan Yang. Structural analysis, virtual screening and molecular simulation to identify potential inhibitors targeting 2'-O-ribose methyltransferase of SARS-CoV-2 coronavirus. Journal of biomolecular structure & dynamics. 2022 02; 40(3):1331-1346. doi: 10.1080/07391102.2020.1828172. [PMID: 33016237]
Ikuho Ban, Hikari Sugawa, Ryoji Nagai. Protein Modification with Ribose Generates Nδ-(5-hydro-5-methyl-4-imidazolone-2-yl)-ornithine. International journal of molecular sciences. 2022 01; 23(3):. doi: 10.3390/ijms23031224. [PMID: 35163152]
Lixian Mou, Pingdong Hu, Xiao Cao, Yue Chen, Yong Xu, Tao He, Yan Wei, Rongqiao He. Comparison of bovine serum albumin glycation by ribose and fructose in vitro and in vivo. Biochimica et biophysica acta. Molecular basis of disease. 2022 01; 1868(1):166283. doi: 10.1016/j.bbadis.2021.166283. [PMID: 34601015]
Fangfei Li, Xiaoqiu Wu, Xuekun Fu, Jin Liu, Wangze Song, Gary Guishan Xiao, Aiping Lu, Ge Zhang. Poly (ADP-ribose) polymerase 1 (PARP1) inhibition promotes pulmonary metastasis of osteosarcoma by boosting ezrin phosphorylation. International journal of biological sciences. 2022; 18(3):1238-1253. doi: 10.7150/ijbs.58784. [PMID: 35173550]
Fabrice Lucien, Eduardo E Benarroch, Aidan Mullan, Farwa Ali, Bradley F Boeve, Michelle M Mielke, Ronald C Petersen, Yohan Kim, Cole Stang, Emanuele Camerucci, Owen A Ross, Zbigniew K Wszolek, David Knopman, James Bower, Wolfgang Singer, Rodolfo Savica. Poly (ADP-Ribose) and α-synuclein extracellular vesicles in patients with Parkinson disease: A possible biomarker of disease severity. PloS one. 2022; 17(4):e0264446. doi: 10.1371/journal.pone.0264446. [PMID: 35395000]
Silvana Casati, Paola Rota, Pietro Allevi, Alessandra Mingione, Roberta Ottria, Pierangela Ciuffreda. Clarifying the Use of Benzylidene Protecting Group for D-(+)-Ribono-1,4-Lactone, an Essential Building Block in the Synthesis of C-Nucleosides. Molecules (Basel, Switzerland). 2021 Oct; 26(21):. doi: 10.3390/molecules26216447. [PMID: 34770855]
Afreen Khanam, Sultan Alouffi, Shahnawaz Rehman, Irfan Ahmad Ansari, Uzma Shahab, Saheem Ahmad. An in vitro approach to unveil the structural alterations in d-ribose induced glycated fibrinogen. Journal of biomolecular structure & dynamics. 2021 09; 39(14):5209-5223. doi: 10.1080/07391102.2020.1802339. [PMID: 32772827]
Yanhui Lu, Hua Jiang, Huijing Zhang, Ruxue Li, Qi Zhang, Dan Luo, Xue Cai, Mingzi Li. Serum oxidized low density lipoprotein serves as a mediator for the inverse relationship between serum d-ribose and cognitive performance in type 2 diabetic patients. Free radical biology & medicine. 2021 08; 171(?):91-98. doi: 10.1016/j.freeradbiomed.2021.05.015. [PMID: 33989757]
Rameez Jabeer Khan, Rajat Kumar Jha, Gizachew Muluneh Amera, Monika Jain, Ekampreet Singh, Amita Pathak, Rashmi Prabha Singh, Jayaraman Muthukumaran, Amit Kumar Singh. Targeting SARS-CoV-2: a systematic drug repurposing approach to identify promising inhibitors against 3C-like proteinase and 2'-O-ribose methyltransferase. Journal of biomolecular structure & dynamics. 2021 05; 39(8):2679-2692. doi: 10.1080/07391102.2020.1753577. [PMID: 32266873]
Songlin Wu, Yuqiu Wang, Jiayin Wang, Xilong Li, Jiayang Li, Keqiong Ye. Profiling of RNA ribose methylation in Arabidopsis thaliana. Nucleic acids research. 2021 04; 49(7):4104-4119. doi: 10.1093/nar/gkab196. [PMID: 33784398]
Lu Zhang, Dong Zhang, Xiaowei Wang, Congmin Yuan, Yongfang Li, Xilin Jia, Xin Gao, Hui-Ling Yen, Peter Pak-Hang Cheung, Xuhui Huang. 1'-Ribose cyano substitution allows Remdesivir to effectively inhibit nucleotide addition and proofreading during SARS-CoV-2 viral RNA replication. Physical chemistry chemical physics : PCCP. 2021 Mar; 23(10):5852-5863. doi: 10.1039/d0cp05948j. [PMID: 33688867]
Chun-Tien Kuo, Robert J Lee, Ramiro Garzon. Methods Used to Make Lipid Nanoparticles to Deliver LNA Gapmers Against lncRNAs into Acute Myeloid Leukemia (AML) Blasts. Methods in molecular biology (Clifton, N.J.). 2021; 2348(?):167-174. doi: 10.1007/978-1-0716-1581-2_11. [PMID: 34160806]
Anna Feroz, Peerzada Shariq Shaheen Khaki, Mohd Sajid Khan, Bilqees Bano. Protein aggregation as a consequence of non-enzymatic glycation: Therapeutic intervention using aspartic acid and arginine. International journal of biological macromolecules. 2020 Nov; 163(?):1844-1858. doi: 10.1016/j.ijbiomac.2020.09.083. [PMID: 32956747]
Wenni Tian, Nan Xiao, Yunyun Yang, Jie Xiao, Ruiping Zeng, Lanhua Xie, Ziyou Qiu, Pan Li, Bing Du. Structure, antioxidant and immunomodulatory activity of a polysaccharide extracted from Sacha inchi seeds. International journal of biological macromolecules. 2020 Nov; 162(?):116-126. doi: 10.1016/j.ijbiomac.2020.06.150. [PMID: 32565299]
Wei Cao, Junqiang Qiu, Tianwei Cai, Longyan Yi, Dan Benardot, Menghui Zou. Effect of D-ribose supplementation on delayed onset muscle soreness induced by plyometric exercise in college students. Journal of the International Society of Sports Nutrition. 2020 Aug; 17(1):42. doi: 10.1186/s12970-020-00371-8. [PMID: 32778175]
Rabia Nabi, Sahir Sultan Alvi, Mohammad Shafi Shah, Saheem Ahmad, Mohammad Faisal, Abdulrahman A Alatar, M Salman Khan. A biochemical & biophysical study on in-vitro anti-glycating potential of iridin against d-Ribose modified BSA. Archives of biochemistry and biophysics. 2020 06; 686(?):108373. doi: 10.1016/j.abb.2020.108373. [PMID: 32325089]
Huan Zhan, Wei Tang, Heping Cui, Khizar Hayat, Shahzad Hussain, Muhammad Usman Tahir, Songlin Zhang, Xiaoming Zhang, Chi-Tang Ho. Formation kinetics of Maillard reaction intermediates from glycine-ribose system and improving Amadori rearrangement product through controlled thermal reaction and vacuum dehydration. Food chemistry. 2020 May; 311(?):125877. doi: 10.1016/j.foodchem.2019.125877. [PMID: 31780222]
Leonor García-Bayona, Laurie E Comstock. Utilizing Ribose Compounds: How Bacteroides PUL It Off. Cell host & microbe. 2020 01; 27(1):6-8. doi: 10.1016/j.chom.2019.12.010. [PMID: 31951823]
Veronica Salmaso, Kenneth A Jacobson. Survey of ribose ring pucker of signaling nucleosides and nucleotides. Nucleosides, nucleotides & nucleic acids. 2020; 39(1-3):322-341. doi: 10.1080/15257770.2019.1658115. [PMID: 31460850]
Tanjina Kader, Carolyn M Porteous, Gregory T Jones, Nina Dickerhof, Vinod K Narayana, Dedreia Tull, Sreya Taraknath, Sally P A McCormick. Ribose-cysteine protects against the development of atherosclerosis in apoE-deficient mice. PloS one. 2020; 15(2):e0228415. doi: 10.1371/journal.pone.0228415. [PMID: 32084149]
Paola Cetera, Maurizio D'Auria, Marisabel Mecca, Luigi Todaro. Gallic acid as main product in the water extractives of Quercus frainetto ten. Natural product research. 2019 Oct; 33(19):2864-2867. doi: 10.1080/14786419.2018.1503266. [PMID: 30427753]
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