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1. Full Text AcidBase Properties of Adenosine 5′‐Monophosphate, Guanosine 5′‐Monophosphate, and Inosine 5′‐Monophosphate in Aqueous Solutions of Methanol
by Gharib, Farrokh and Abbaszadeh, Mehran and Pousti, Mohammad
Helvetica chimica acta, ISSN 0018-019X, 06/2013, Volume 96, Issue 6, pp. 1134 - 1145
Solvent effect | Guanosine 5′‐monophosphate | Protonation constant | Adenosine 5′‐monophosphate | Inosine 5′‐monophosphate | Adenosine 5′-monophosphate | Guanosine 5′-monophosphate | Inosine 5′-monophosphate
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2. Full Text Hepatitis B Virus Evasion From Cyclic Guanosine Monophosphate–Adenosine Monophosphate Synthase Sensing in Human Hepatocytes
by Verrier, Eloi R and Yim, Seung‐Ae and Heydmann, Laura and El Saghire, Houssein and Bach, Charlotte and Turon‐Lagot, Vincent and Mailly, Laurent and Durand, Sarah C and Lucifora, Julie and Durantel, David and Pessaux, Patrick and Manel, Nicolas and Hirsch, Ivan and Zeisel, Mirjam B and Pochet, Nathalie and Schuster, Catherine and Baumert, Thomas F
Hepatology (Baltimore, Md.), ISSN 0270-9139, 11/2018, Volume 68, Issue 5, pp. 1695 - 1709
Gastroenterology & Hepatology | Life Sciences & Biomedicine | Science & Technology | Nucleotides, Cyclic - metabolism | Hepatitis B virus - pathogenicity | Humans | Gene Expression Profiling - methods | Hepatocytes - metabolism | Immune Evasion - physiology | Blotting, Western | Hepatitis B - physiopathology | Host-Pathogen Interactions | DNA, Viral - immunology | Hepatitis B - immunology | Animals | Hepatocytes - virology | Mice | Cell Culture Techniques | Immune Evasion - immunology | In Situ Hybridization, Fluorescence - methods | Real-Time Polymerase Chain Reaction | Cell culture | Adenosine | Animal models | Liver diseases | Immune response | AMP | Liver | Guanosine | Chronic infection | Infections | Genomes | Hepatoma | Circular DNA | Gene expression | Cell recognition | Liver cancer | Hepatitis | Hepatocytes | Cyclic GMP | Antiviral activity | Packaging | Deoxyribonucleic acid--DNA | Hepatitis B | Cancer | Index Medicus | Life Sciences | Human health and pathology | Hépatology and Gastroenterology
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3. Full Text Human cyclic nucleotide phosphodiesterases possess a much broader substrate-specificity than previously appreciated
by Reinecke, Daniel and Burhenne, Heike and Sandner, Peter and Kaever, Volkhard and Seifert, Roland
FEBS letters, ISSN 0014-5793, 10/2011, Volume 585, Issue 20, pp. 3259 - 3262
HPLC–MS | Cyclic nucleotide | Phosphodiesterase | cNMP | cIMP | inosine 5′-monophosphate | nucleoside 3′,5′-cyclic monophosphate | adenosine 3′,5′-cyclic monophosphate | cGMP | uridine 3′,5′-cyclic monophosphate | cAMP | cCMP | inosine 3′,5′-cyclic monophosphate | PDE | cytidine 5′-monophosphate | xanthosine 3′,5′-cyclic monophosphate | xanthosine 5′-monophosphate | cXMP | Sp-cCMPS | cTMP | cUMP | guanosine 5′-monophosphate | uridine 5′-monophosphate | AMP | guanosine 3′,5′-cyclic monophosphate | CMP | thymidine 5′-monophosphate | GMP | IMP | cytidine 3′,5′-cyclic monophosphorothioate Sp-isomer | adenosine 5′-monophosphate | TMP | cytidine 3′,5′-cyclic monophosphate | thymidine 3′,5′-cyclic monophosphate | UMP | XMP | phosphodiesterase | HPLC-MS | Biochemistry & Molecular Biology | Biophysics | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Hydrolysis | Cytosine Nucleotides - metabolism | Humans | Substrate Specificity - physiology | 2',3'-Cyclic-Nucleotide Phosphodiesterases - chemistry | 2',3'-Cyclic-Nucleotide Phosphodiesterases - metabolism | Cytosine Nucleotides - chemistry | Nucleosides | Adenylic acid | Index Medicus
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4. Full Text PDE7A1 hydrolyzes cCMP
by Monzel, Maike and Kuhn, Maike and Bähre, Heike and Seifert, Roland and Schneider, Erich H
FEBS letters, ISSN 0014-5793, 09/2014, Volume 588, Issue 18, pp. 3469 - 3474
HPLC–MS | Cyclic CMP | Cyclic nucleotides | Enzyme kinetics | Second messenger | Phosphodiesterase | cNMP | human lung carcinoma cell line | A549 | high performance liquid chromatography tandem mass spectrometry | adenosine 3′,5′-cyclic monophosphate | glutathione-S-transferase protein tag | inosine 5′-monophosphate | nucleoside 3′,5′-cyclic monophosphate | uridine 3′,5′-cyclic monophosphate | rat neuroblastoma cells | cXMP | cTMP | guanosine 5′-monophosphate | hyperpolarization-activated cyclic nucleotide-gated cation channel | uridine 5′-monophosphate | human embryonic kidney cell line | AMP | guanosine 3′,5′-cyclic monophosphate | U-937 | CMP | PKA | Sf9 | Bordetella pertussis adenylyl cyclase toxin | GMP | IMP | PKG | HuT 78 | HCN | HPLC–MS/MS | CyaA | thymidine 3′,5′-cyclic monophosphate | UMP | hexahistidine tag | cIMP | cGMP | cAMP | cCMP | inosine 3′,5′-cyclic monophosphate | cytidine 5′-monophosphate | PDE | Spodoptera frugiperda insect cell line | human promonocytic cell line | xanthosine 3′,5′-cyclic monophosphate | xanthosine 5′-monophosphate | human lymphoblast cell line | HEK-293 | protein kinase G | cUMP | protein kinase A | multidrug resistance-associated protein 5 | GST | thymidine 5′-monophosphate | B103 | MRP5 | HIS | P. aeruginosa exotoxin Y | adenosine 5′-monophosphate | TMP | cytidine 3′,5′-cyclic monophosphate | XMP | phosphodiesterase | ExoY | HPLCMS | Biochemistry & Molecular Biology | Biophysics | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Cyclic CMP - chemistry | Sulfonamides - chemistry | Humans | Nitro Compounds - chemistry | Substrate Specificity | Cyclic Nucleotide Phosphodiesterases, Type 7 - chemistry | Spodoptera | Hydrolysis | Sf9 Cells | Animals | Cyclic AMP - chemistry | Cell Line, Tumor | Cyclic Nucleotide Phosphodiesterases, Type 7 - antagonists & inhibitors | Kinetics | Phosphodiesterase Inhibitors - chemistry | Second Messenger Systems | HPLC-MS | Index Medicus
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5. Full Text 5′‐Adenosine monophosphate‐activated protein kinase: A potential target for disease prevention by curcumin
by Soltani, Arash and Salmaninejad, Arash and Jalili‐Nik, Mohammad and Soleimani, Anvar and Javid, Hossein and Hashemy, Seyed Isaac and Sahebkar, Amirhossein
Journal of cellular physiology, ISSN 0021-9541, 03/2019, Volume 234, Issue 3, pp. 2241 - 2251
AMP‐activated protein kinase | inflammation | curcumin | AMP-activated protein kinase | Physiology | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Curcumin - therapeutic use | Neoplasms - genetics | Apoptosis - drug effects | Diabetes Mellitus - genetics | Inflammation - drug therapy | AMP-Activated Protein Kinases - antagonists & inhibitors | Humans | Diabetes Mellitus - drug therapy | Inflammation - genetics | AMP-Activated Protein Kinases - genetics | Energy Metabolism - drug effects | Neoplasms - drug therapy | Proteins | Physiological aspects | Adenosine | Cellular signal transduction | Adenylic acid | Protein kinases | Energy metabolism | Regulators | Pathogenesis | Homeostasis | Kinases | Anticancer properties | Prevention | Signal transduction | Bioactive compounds | Atherosclerosis | Curcumin | Adenosine triphosphate | Adenosine monophosphate | AMP | Medical treatment | Diabetes mellitus | Inflammation | Metabolism | Energy balance | Protein kinase | Adenosine kinase | Arteriosclerosis | ATP | Regulatory proteins | Apoptosis | Index Medicus
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6. Full Text Nuclear cGAS suppresses DNA repair and promotes tumorigenesis
by Liu, Haipeng and Liu, Haipeng and Zhang, Haiping and Wu, Xiangyang and Wu, Xiangyang and Ma, Dapeng and Wu, Juehui and Wang, Lin and Jiang, Yan and Fei, Yiyan and Fei, Yiyan and Zhu, Chenggang and Zhu, Chenggang and Tan, Rong and Jungblut, Peter and Pei, Gang and Dorhoi, Anca and Dorhoi, Anca and Yan, Qiaoling and Zhang, Fan and Zheng, Ruijuan and Liu, Siyu and Liu, Siyu and Liang, Haijiao and Liu, Zhonghua and Yang, Hua and Chen, Jianxia and Wang, Peng and Wang, Peng and Tang, Tianqi and Tang, Tianqi and Peng, Wenxia and Hu, Zhangsen and Xu, Zhu and Huang, Xiaochen and Wang, Jie and Wang, Jie and Li, Haohao and Zhou, Yilong and Liu, Feng and Yan, Dapeng and Kaufmann, Stefan H E and Kaufmann, Stefan H. E and Chen, Chang and Mao, Zhiyong and Ge, Baoxue and Ge, Baoxue
Nature (London), ISSN 0028-0836, 11/2018, Volume 563, Issue 7729, pp. 131 - 136
Science & Technology - Other Topics | Multidisciplinary Sciences | Science & Technology | Neoplasms - metabolism | Phosphorylation | Humans | Male | Intracellular Signaling Peptides and Proteins - metabolism | Neoplasm Proteins - metabolism | DNA Breaks, Double-Stranded | Cell Nucleus - enzymology | Cell Cycle Proteins - antagonists & inhibitors | Nucleotidyltransferases - deficiency | Cell Nucleus - metabolism | Neoplasms - genetics | Protein Binding - drug effects | HEK293 Cells | src-Family Kinases - metabolism | Adult | Female | Membrane Proteins - metabolism | Active Transport, Cell Nucleus | Nucleotidyltransferases - metabolism | Recombinational DNA Repair - genetics | Intracellular Signaling Peptides and Proteins - antagonists & inhibitors | Mice, Inbred C57BL | Cell Cycle Proteins - metabolism | Poly (ADP-Ribose) Polymerase-1 - metabolism | Piperazines - pharmacology | Poly (ADP-Ribose) Polymerase-1 - antagonists & inhibitors | Phthalazines - pharmacology | Animals | Cell Line, Tumor | Mice | DNA Damage | Cell Transformation, Neoplastic - pathology | Neoplasms - pathology | Cellular signal transduction | Research | Carcinogenesis | DNA repair | Transferases | Tyrosine | DNA damage | Analysis | Genomics | DNA | Genomes | Health aspects | Sugars | Tumors | Monosaccharides | Animal models | Homologous recombination | Lung cancer | Poly(ADP-ribose) | Homology | Innate immunity | Kinases | Immunity | Cancer therapies | Genomic instability | Proteins | Ribose | Cyclic GMP | Cell cycle | Fibroblasts | Tumorigenesis | Localization | Repair | Protein-tyrosine kinase | Deoxyribonucleic acid--DNA | Translocation | Stability | AMP | Adenosine diphosphate | Nuclear transport | Poly(ADP-ribose) Polymerase 1 | Interferon regulatory factor 3 | Micronuclei | Instability | Interferon | Cancer | Apoptosis | Index Medicus
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7. Full Text Condition‐dependent adenosine monophosphate decomposition pathways in striated adductor muscle from Japanese scallop (Patinopecten yessoensis)
by Wei, Huamao and Tian, Yuanyong and Lin, Yumeng and Maeda, Hayato and Yamashita, Tetsuro and Yu, Kefeng and Takaki, Koichi and Yuan, Chunhong
Journal of food science, ISSN 0022-1147, 05/2020, Volume 85, Issue 5, pp. 1462 - 1469
adenosine | adenosine monophosphate | ATP‐related compounds | decomposition rate | inosine monophosphate | HPLC | Life Sciences & Biomedicine | Food Science & Technology | Science & Technology | Adenylic acid | Nucleotidase | Enzymes | Adenosine | Adenosine monophosphate | AMP | Umami | Metal concentrations | Denaturation | Muscles | Decomposition | Inosine monophosphate | Flavor | Scallops | Ethylenediaminetetraacetic acids | Heating | Adductor muscle | Taste | Acetic acid | Metal ions | Index Medicus
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8. Cyclic nucleotides in the nervous system
by Daly, John W
1977, ISBN 9780306309717, xiv, 401
Neurochemistry | Cyclic guanylic acid | Cyclic adenylic acid
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9. Full Text Protective mechanisms of adenosine 5’-monophosphate in platelet activation and thrombus formation
by E. Fuentes and L. Badimon and J. Caballero and T. Padró and G. Vilahur and M. Alarcón and P. Pérez and I. Palomo
Thrombosis and haemostasis, ISSN 0340-6245, 03/2014, Volume 111, Issue 3, pp. 491 - 507
A2A receptor | Platelets | adenosine 5’-monophosphate | PDE inhibition | Antithrombotic | Platelets and Blood Cells | Adenosine 5'-monophosphate | Peripheral Vascular Disease | Life Sciences & Biomedicine | Hematology | Cardiovascular System & Cardiology | Science & Technology | Fundamental and applied biological sciences. Psychology | Hematologic and hematopoietic diseases | Biological and medical sciences | Blood coagulation. Blood cells | Molecular and cellular biology | Medical sciences | Platelet diseases and coagulopathies | Thrombosis - chemically induced | P-Selectin - metabolism | Stereoisomerism | Humans | Blood Platelets - physiology | Molecular Targeted Therapy | Photochemical Processes | Lectins, C-Type - metabolism | CD40 Ligand - metabolism | Adenosine A2 Receptor Agonists - pharmacology | Platelet Glycoprotein GPIIb-IIIa Complex - metabolism | Cyclic Nucleotide Phosphodiesterases, Type 3 - metabolism | Thrombosis - blood | Blood Platelets - drug effects | Lasers - utilization | Platelet Glycoprotein GPIIb-IIIa Complex - genetics | Mesenteric Veins - drug effects | Crotalid Venoms - metabolism | Disease Models, Animal | Peptide Fragments - metabolism | Triazines - pharmacology | Adenosine Monophosphate - metabolism | Cells, Cultured | Receptor, Adenosine A2A - metabolism | P-Selectin - genetics | Triazoles - pharmacology | Mesenteric Veins - radiation effects | Animals | Adenosine Monophosphate - analogs & derivatives | Rose Bengal - administration & dosage | Mice | Platelet Activation - drug effects | Thrombosis - drug therapy | Mesenteric Veins - physiology
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10. Full Text Class III Polyphosphate Kinase 2 Enzymes Catalyze the Pyrophosphorylation of Adenosine‐5′‐Monophosphate
by Ogawa, Marin and Uyeda, Atsuko and Harada, Kazuo and Sato, Yu and Kato, Yasuhiko and Watanabe, Hajime and Honda, Kohsuke and Matsuura, Tomoaki
Chembiochem : a European journal of chemical biology, ISSN 1439-4227, 12/2019, Volume 20, Issue 23, pp. 2961 - 2967
reaction mechanisms | enzymes | polyphosphate kinase 2 | kinetics | phosphorylation | Pharmacology & Pharmacy | Biochemistry & Molecular Biology | Life Sciences & Biomedicine | Chemistry, Medicinal | Science & Technology | Phosphates | Enzymes | Adenosine | Phosphorylation | AMP | Nucleotides | Kinases | Substrates | Adenosine kinase | Polyphosphate kinase | Diphosphates | ATP | Adenosine triphosphate | Index Medicus
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