Adenine (BioDeep_00000000118)

 

Secondary id: BioDeep_00000399873, BioDeep_00000860864

natural product human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite


代谢物信息卡片


7H-purin-6-amine

化学式: C5H5N5 (135.054493)
中文名称: 腺嘌呤
谱图信息: 最多检出来源 Viridiplantae(plant) 0.26%

Reviewed

Last reviewed on 2024-06-29.

Cite this Page

Adenine. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China. https://query.biodeep.cn/s/adenine (retrieved 2024-09-17) (BioDeep RN: BioDeep_00000000118). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

分子结构信息

SMILES: C1=NC2=C(N1)C(=NC=N2)N
InChI: InChI=1S/C5H5N5/c6-4-3-5(9-1-7-3)10-2-8-4/h1-2H,(H3,6,7,8,9,10)

描述信息

Adenine is the parent compound of the 6-aminopurines, composed of a purine having an amino group at C-6. It has a role as a human metabolite, a Daphnia magna metabolite, a Saccharomyces cerevisiae metabolite, an Escherichia coli metabolite and a mouse metabolite. It is a purine nucleobase and a member of 6-aminopurines. It derives from a hydride of a 9H-purine.
A purine base and a fundamental unit of adenine nucleotides.
Adenine is a metabolite found in or produced by Escherichia coli (strain K12, MG1655).

Adenine is a natural product found in Fritillaria cirrhosa, Annona purpurea, and other organisms with data available.
Adenine is a purine nucleobase with an amine group attached to the carbon at position 6. Adenine is the precursor for adenosine and deoxyadenosine nucleosides.
Adenine is a purine base. Adenine is found in both DNA and RNA. Adenine is a fundamental component of adenine nucleotides. Adenine forms adenosine, a nucleoside, when attached to ribose, and deoxyadenosine when attached to deoxyribose; it forms adenosine triphosphate (ATP), a nucleotide, when three phosphate groups are added to adenosine. Adenosine triphosphate is used in cellular metabolism as one of the basic methods of transferring chemical energy between chemical reactions. Purine inborn errors of metabolism (IEM) are serious hereditary disorders, which should be suspected in any case of neonatal fitting, failure to thrive, recurrent infections, neurological deficit, renal disease, self-mutilation and other manifestations. Investigation usually starts with uric acid (UA) determination in urine and plasma. (OMIM 300322, 229600, 603027, 232400, 232600, 232800, 201450, 220150, 232200, 162000, 164050, 278300). (A3372, A3373).
Adenine is a metabolite found in or produced by Saccharomyces cerevisiae.
A purine base and a fundamental unit of ADENINE NUCLEOTIDES.
See also: adenine; dextrose, unspecified form (component of) ... View More ...
Adenine is a purine base. Adenine is found in both DNA and RNA. Adenine is a fundamental component of adenine nucleotides. Adenine forms adenosine, a nucleoside, when attached to ribose, and deoxyadenosine when attached to deoxyribose; it forms adenosine triphosphate (ATP), a nucleotide, when three phosphate groups are added to adenosine. Adenosine triphosphate is used in cellular metabolism as one of the basic methods of transferring chemical energy between chemical reactions. Purine inborn errors of metabolism (IEM) are serious hereditary disorders, which should be suspected in any case of neonatal fitting, failure to thrive, recurrent infections, neurological deficit, renal disease, self-mutilation and other manifestations. Investigation usually starts with uric acid (UA) determination in urine and plasma. (OMIM 300322, 229600, 603027, 232400, 232600, 232800, 201450, 220150, 232200, 162000, 164050, 278300). (PMID: 17052198, 17520339).
Widespread throughout animal and plant tissue, purine components of DNA, RNA, and coenzymes. Vitamin
The parent compound of the 6-aminopurines, composed of a purine having an amino group at C-6.

Adenine (/ˈædɪnɪn/) (symbol A or Ade) is a purine nucleobase. It is one of the four nucleobases in the nucleic acids of DNA, the other three being guanine (G), cytosine (C), and thymine (T). Adenine derivatives have various roles in biochemistry including cellular respiration, in the form of both the energy-rich adenosine triphosphate (ATP) and the cofactors nicotinamide adenine dinucleotide (NAD), flavin adenine dinucleotide (FAD) and Coenzyme A. It also has functions in protein synthesis and as a chemical component of DNA and RNA.[2] The shape of adenine is complementary to either thymine in DNA or uracil in RNA.

The adjacent image shows pure adenine, as an independent molecule. When connected into DNA, a covalent bond is formed between deoxyribose sugar and the bottom left nitrogen (thereby removing the existing hydrogen atom). The remaining structure is called an adenine residue, as part of a larger molecule. Adenosine is adenine reacted with ribose, as used in RNA and ATP; Deoxyadenosine is adenine attached to deoxyribose, as used to form DNA.

Adenine forms several tautomers, compounds that can be rapidly interconverted and are often considered equivalent. However, in isolated conditions, i.e. in an inert gas matrix and in the gas phase, mainly the 9H-adenine tautomer is found.[3][4]

Purine metabolism involves the formation of adenine and guanine. Both adenine and guanine are derived from the nucleotide inosine monophosphate (IMP), which in turn is synthesized from a pre-existing ribose phosphate through a complex pathway using atoms from the amino acids glycine, glutamine, and aspartic acid, as well as the coenzyme tetrahydrofolate.
Adenine (6-Aminopurine), a purine, is one of the four nucleobases in the nucleic acid of DNA. Adenine acts as a chemical component of DNA and RNA. Adenine also plays an important role in biochemistry involved in cellular respiration, the form of both ATP and the cofactors (NAD and FAD), and protein synthesis[1][2][3].
Adenine (6-Aminopurine), a purine, is one of the four nucleobases in the nucleic acid of DNA. Adenine acts as a chemical component of DNA and RNA. Adenine also plays an important role in biochemistry involved in cellular respiration, the form of both ATP and the cofactors (NAD and FAD), and protein synthesis[1][2][3].
Adenine (6-Aminopurine), a purine, is one of the four nucleobases in the nucleic acid of DNA. Adenine acts as a chemical component of DNA and RNA. Adenine also plays an important role in biochemistry involved in cellular respiration, the form of both ATP and the cofactors (NAD and FAD), and protein synthesis[1][2][3].

同义名列表

121 个代谢物同义名

Adenine, Pharmaceutical Secondary Standard; Certified Reference Material; InChI=1/C5H5N5/c6-4-3-5(9-1-7-3)10-2-8-4/h1-2H,(H3,6,7,8,9,10; Adenine, United States Pharmacopeia (USP) Reference Standard; Adenine, European Pharmacopoeia (EP) Reference Standard; Adenine, BioReagent, plant cell culture tested, >=99\\%; Adenine, suitable for cell culture, BioReagent; 6H-Purin-6-imine, 1,9-dihydro-, (E)- (9CI); 6H-Purin-6-imine, 3,7-dihydro-, (Z)- (9CI); 6H-Purin-6-imine, 1,7-dihydro-, (Z)- (9CI); 6H-Purin-6-imine, 3,9-dihydro-, (Z)- (9CI); Adenine, Vetec(TM) reagent grade, >=99\\%; ADENOSINE IMPURITY A [EP IMPURITY]; (Z)-3,9-Dihydro-6H-purin-6-imine; 9H-Purine, 1,6-dihydro-6-imino-; 6,7-dihydro-3H-purin-6-imine; 1,9-Dihydro-6H-purin-6-imine; 9H-Purine,6-dihydro-6-imino-; Adenine, cell culture grade; 7H-Purin-6-amine, min. 95\\%; Adenine; 7H-purin-6-amine; 1,6-Dihydro-6-iminopurine; 3,6-Dihydro-6-iminopurine; WLN: T56 BM DN FN HNJ IZ; 6-Aminopurine;Vitamin B4; ADENINE (USP MONOGRAPH); 6-Aminopurine (Adenine); ADENINE [USP MONOGRAPH]; ADENINE [USP IMPURITY]; ADENINE (EP MONOGRAPH); 1H-Purin-6-amine (9CI); ADENINE [EP MONOGRAPH]; 3H-Purin-6-amine (9CI); ADENINE (USP IMPURITY); 7H-Purin-6-amine (9CI); 3H-Purin-6(7H)-imine; 1H-purin-6(9H)-imine; (S)-Norfluoxetine-d5; 9H-Purin-6-yl-amine; 1H-Purine, 6-amino-; 9H-purin-6-ylamine; 9H-Purin-6-amine #; 1H-Purine, 6-amino; 7H-purin-6-ylamine; 9H-Purin-6-yl-amin; 6-Amino-3H-purine; 6-Amino-1H-purine; 1H-Purine-6-amine; 6-Amino-7H-purine; Adenine (USP:JAN); 9H-Purine-6-amine; Adenine (JAN/USP); 6-Amino-9H-purine; Adenine [USP:JAN]; ADENINE (USP-RS); Spectrum4_001891; 9H-Purin-6-amine; ADENINE [WHO-DD]; 1H-Purin-6-amine; Purine, 6-amino-; 7H-Purin-6-amine; ADENINE [USP-RS]; Spectrum5_000542; Spectrum3_000616; Spectrum2_000583; ADENINE [MART.]; Pedatisectine B; ADENINE [VANDF]; Adenine, >=99\\%; ADENINE (MART.); UNII-JAC85A2161; 6-amino-Purine; ADENINE [INCI]; Tox21_111348_1; 6-amino purine; purin-6-amine; 6-Aminopurine; Adenine (8CI); Adenine [JAN]; DivK1c_006631; Oprea1_057274; KBio2_004154; 4, Vitamin B; Tox21_111348; adenine-ring; KBio2_001586; KBio1_001575; KBio3_001652; KBio2_002562; KBio2_007698; B 4, Vitamin; KBio3_003040; ADENINE [MI]; Tox21_302108; NCI60_000998; KBio2_006722; KBio2_005130; Adeninimine; CAS-73-24-5; Vitamin B 4; [3H]adenine; Leucon (TN); Adenine,(S); JAC85A2161; USAF CB-18; 3h-adenine; Adenine, 1; Vitamin B4; AI3-50679; Adenine; Leuco-4; Adenin; Leucon; 3kpv; 1jys; 1nli; 2p8n; 1wei; 2pqj; ADE; A; Adenine



数据库引用编号

38 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(7)

BioCyc(23)

PlantCyc(6)

代谢反应

1485 个相关的代谢反应过程信息。

Reactome(177)

BioCyc(342)

WikiPathways(4)

Plant Reactome(228)

INOH(5)

PlantCyc(661)

COVID-19 Disease Map(2)

PathBank(66)

PharmGKB(0)

92 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。



文献列表

  • Donghao Li, Juan Du, Min Gao, Chongsheng He. Identification of AtALKBH1A and AtALKBH1D as DNA N6-adenine demethylases in Arabidopsis thaliana. Plant science : an international journal of experimental plant biology. 2024 May; 342(?):112055. doi: 10.1016/j.plantsci.2024.112055. [PMID: 38432357]
  • Lucas F F Albuquerque, Fernanda V Lins, Elizabete C I Bispo, Ellyêssa N Borges, Mateus T Silva, Taís Gratieri, Marcílio Cunha-Filho, Antonio Alonso, Juliana L Carvalho, Felipe Saldanha-Araujo, Guilherme M Gelfuso. Ibrutinib topical delivery for melanoma treatment: The effect of nanostructured lipid carriers' composition on the controlled drug skin deposition. Colloids and surfaces. B, Biointerfaces. 2024 May; 237(?):113875. doi: 10.1016/j.colsurfb.2024.113875. [PMID: 38547795]
  • Sichun Xiang, Rongbin Shen, Jingjing Xiang, Ni Zhu, Jianyou Gu, Jianping Shen, Yu Zhang, Hangping Ge. A real-world pharmacovigilance study of FDA Adverse Event Reporting System (FAERS) events for Bruton's tyrosine kinase inhibitors (BTKis) single and its combination therapy. Expert opinion on drug safety. 2024 May; 23(5):627-636. doi: 10.1080/14740338.2024.2327507. [PMID: 38456691]
  • Zitong Qiu, Xingxing Yuan, Xinyue Wang, Songjiang Liu. Crosstalk between m6A modification and non-coding RNAs in HCC. Cellular signalling. 2024 05; 117(?):111076. doi: 10.1016/j.cellsig.2024.111076. [PMID: 38309550]
  • Yunfan Yang, Jiajun Ren, Jifeng Zhang, Henghe Shi, Junnan Wang, Youyou Yan. FTO ameliorates doxorubicin-induced cardiotoxicity by inhibiting ferroptosis via P53-P21/Nrf2 activation in a HuR-dependent m6A manner. Redox biology. 2024 Apr; 70(?):103067. doi: 10.1016/j.redox.2024.103067. [PMID: 38316068]
  • Zengyao Tang, Xin Huang, Hanying Mei, Zeqi Zheng. Silencing of METTL3 suppressed ferroptosis of myocardial cells by m6A modification of SLC7A11 in a YTHDF2 manner. Journal of bioenergetics and biomembranes. 2024 Apr; 56(2):149-157. doi: 10.1007/s10863-024-10006-1. [PMID: 38319402]
  • Jinyun Li, Lu Fang, Miaocui Xi, Anyu Ni, Qiuhui Qian, Zejun Wang, Huili Wang, Jin Yan. Toxic effects of triclosan on hepatic and intestinal lipid accumulation in zebrafish via regulation of m6A-RNA methylation. Aquatic toxicology (Amsterdam, Netherlands). 2024 Apr; 269(?):106884. doi: 10.1016/j.aquatox.2024.106884. [PMID: 38458066]
  • Xi-Song Huo, Dan Lu, Da-Gui Chen, Min Ye, Xiao-Wei Wang, Fu-Sheng Shang. METTL3 Promotes Osteosarcoma Metastasis via an m6A-dependent Epigenetic Activity of CBX4. Frontiers in bioscience (Landmark edition). 2024 Mar; 29(3):120. doi: 10.31083/j.fbl2903120. [PMID: 38538251]
  • Fabio Miloro, András Kis, Zoltán Havelda, Ágnes Dalmadi. Barley AGO4 proteins show overlapping functionality with distinct small RNA-binding properties in heterologous complementation. Plant cell reports. 2024 Mar; 43(4):96. doi: 10.1007/s00299-024-03177-z. [PMID: 38480545]
  • Yanhai Gong, Qintao Wang, Li Wei, Wensi Liang, Lianhong Wang, Nana Lv, Xuefeng Du, Jiashun Zhang, Chen Shen, Yi Xin, Luyang Sun, Jian Xu. Genome-wide adenine N6-methylation map reveals epigenomic regulation of lipid accumulation in Nannochloropsis. Plant communications. 2024 Mar; 5(3):100773. doi: 10.1016/j.xplc.2023.100773. [PMID: 38007614]
  • Xuebin Shen, Mengting Chen, Jian Zhang, Yifan Lin, Xinyue Gao, Jionghong Tu, Kunqi Chen, An Zhu, Shanghua Xu. Unveiling the Impact of ApoF Deficiency on Liver and Lipid Metabolism: Insights from Transcriptome-Wide m6A Methylome Analysis in Mice. Genes. 2024 Mar; 15(3):. doi: 10.3390/genes15030347. [PMID: 38540406]
  • Jen-Yu Hsu, Hsin-Yun Sun, Ling-Ya Chen, Sui-Yuan Chang, Yu-Chung Chuang, Yu-Shan Huang, Yi-Ching Su, Wen-Chun Liu, Chien-Ching Hung. Weight and metabolic changes among virally suppressed people with HIV who switched to co-formulated bictegravir/emtricitabine/tenofovir alafenamide. Journal of global antimicrobial resistance. 2024 Mar; 36(?):426-435. doi: 10.1016/j.jgar.2023.10.012. [PMID: 37923129]
  • Ji Huang, Cong Cheng, Kangxin Li, Chunping Zhu, Youshun Liu. Effectiveness and Safety of Tenofovir Alafenamide Fumarate in the Prevention of Perinatal Hepatitis B Transmission: A Meta-Analysis. Digestive diseases and sciences. 2024 Mar; 69(3):978-988. doi: 10.1007/s10620-023-08258-9. [PMID: 38341392]
  • Dating Zhong, Hong Pan, Kai Li, Ying Zhou, Feiyun Zhao, Lu Ye, Shuting Ruan, Qi Deng, Jieting Xu, Yuming Lu. Targeted A-to-T and A-to-C base replacement in maize using an optimized adenine base editor. Plant biotechnology journal. 2024 Mar; 22(3):541-543. doi: 10.1111/pbi.14256. [PMID: 38102813]
  • Zeyu Liu, Chuanqing Jing, Wei Zhang. METTL3-mediated m6A modification enhances ZDHHC16 expression in nonsmall- cell lung cancer patients, attenuating ferroptosis by suppressing CREB ubiquitination. Cellular and molecular biology (Noisy-le-Grand, France). 2024 Feb; 70(2):30-37. doi: 10.14715/cmb/2024.70.2.5. [PMID: 38430044]
  • Keun Pyo Lee, Kaiwei Liu, Eun Yu Kim, Laura Medina-Puche, Haihong Dong, Minghui Di, Rahul Mohan Singh, Mengping Li, Shan Qi, Zhuoling Meng, Jungnam Cho, Heng Zhang, Rosa Lozano-Duran, Chanhong Kim. The m6A reader ECT1 drives mRNA sequestration to dampen salicylic acid-dependent stress responses in Arabidopsis. The Plant cell. 2024 Feb; 36(3):746-763. doi: 10.1093/plcell/koad300. [PMID: 38041863]
  • Wei Bo, Ning Yu, Xiaokai Wang, Chun Wang, Chunying Liu. Lactate promoted cisplatin resistance in NSCLC by modulating the m6A modification-mediated FOXO3/MAGI1-IT1/miR-664b-3p/IL-6R axis. Neoplasia (New York, N.Y.). 2024 Feb; 48(?):100960. doi: 10.1016/j.neo.2023.100960. [PMID: 38184887]
  • Yiran Chen, Yanwei Xiang, Xiao Miao, Le Kuai, Xiaojie Ding, Tian Ma, Bin Li, Bin Fan. METTL14 promotes IL-6-induced viability, glycolysis and inflammation in HaCaT cells via the m6A modification of TRIM27. Journal of cellular and molecular medicine. 2024 Feb; 28(3):e18085. doi: 10.1111/jcmm.18085. [PMID: 38146129]
  • Da Guo, Jiayi Liu, Shuang Li, Peng Xu. Analysis of m6A regulators related immune characteristics in ankylosing spondylitis by integrated bioinformatics and computational strategies. Scientific reports. 2024 02; 14(1):2724. doi: 10.1038/s41598-024-53184-z. [PMID: 38302672]
  • Xing Tao, Gang Wang, Wudi Wei, Jinming Su, Xiu Chen, Minjuan Shi, Yinlu Liao, Tongxue Qin, Yuting Wu, Beibei Lu, Hao Liang, Li Ye, Junjun Jiang. A bibliometric analysis of m6A methylation in viral infection from 2000 to 2022. Virology journal. 2024 01; 21(1):20. doi: 10.1186/s12985-024-02294-1. [PMID: 38238848]
  • A A Zenchenko, E M Savelieva, M S Drenichev, G A Romanov, V E Oslovsky. N6-(5-Phenylpentan-1-yl)adenine-A New Non-competitive Receptor-Specific Anti-cytokinin. Doklady. Biochemistry and biophysics. 2024 Jan; ?(?):. doi: 10.1134/s1607672923700679. [PMID: 38189887]
  • Ying-Chih Chuang, Nicholas W Haas, Robert Pepin, Megan G Behringer, Yasuhiro Oda, Breah LaSarre, Caroline S Harwood, James B McKinlay. Bacterial adenine cross-feeding stems from a purine salvage bottleneck. The ISME journal. 2024 Jan; 18(1):. doi: 10.1093/ismejo/wrae034. [PMID: 38452196]
  • Pin-Nan Cheng, I-Cher Feng, Jyh-Jou Chen, Hsing-Tao Kuo, Pei-Lun Lee, Ming-Lung Yu, Yen-Cheng Chiu, Hung-Chih Chiu, Shih-Chieh Chien, Pei-Jer Chen, Chun-Jen Liu. Body weight increase and metabolic derangements after tenofovir disoproxil fumarate switch to tenofovir alafenamide in patients with chronic hepatitis B. Alimentary pharmacology & therapeutics. 2024 Jan; 59(2):230-238. doi: 10.1111/apt.17765. [PMID: 37845815]
  • Hyeyeon Hong, Won-Mook Choi, Danbi Lee, Ju Hyun Shim, Kang Mo Kim, Young-Suk Lim, Han Chu Lee, Jonggi Choi. Cardiovascular risk in chronic hepatitis B patients treated with tenofovir disoproxil fumarate or tenofovir alafenamide. Clinical and molecular hepatology. 2024 Jan; 30(1):49-63. doi: 10.3350/cmh.2023.0328. [PMID: 37981763]
  • Santhosh Sadayan, Vijayashree Raghavan, Jones Eben Raj Thomson, Abarajitha Shankaranarayanan, Senthil Anbumani, Manickam Subramanian. Boerhavia diffusa attenuates podocyte injury in rats with adenine induced chronic kidney disease by enhancing nephrin expression. Pakistan journal of pharmaceutical sciences. 2024 Jan; 37(1):155-161. doi: ". [PMID: 38741412]
  • Ju Zhang, Xiaojun Shi, Jing Wang, Jiaping Qi, Yixuan Li, Huan Jiang, Qiong Sun, Qinchen Gu, Chen Li, Zhenhua Ying. Adefovir-induced hypophosphatemic osteochondrosis mimicks ankylosing spondylitis. International journal of rheumatic diseases. 2024 Jan; 27(1):e15040. doi: 10.1111/1756-185x.15040. [PMID: 38287538]
  • Jingqian Zhao, Chenyu Zhao, Tianrong Xun, Xiaokang Wang, Sui Wei, Chunxiao Ye, Mimi Zhang, Dan Guo, Xixiao Yang. Huang Gan Formula Alleviates Systemic Inflammation and Uremia in Adenine-Induced Chronic Kidney Disease Rats May Associate with Modification of Gut Microbiota and Colonic Microenvironment. Drug design, development and therapy. 2024; 18(?):13-28. doi: 10.2147/dddt.s421446. [PMID: 38205394]
  • Scott K Fung, Calvin Q Pan, Grace Lai-Hung Wong, Wai-Kay Seto, Sang Hoon Ahn, Chi-Yi Chen, Hie-Won L Hann, Maciej S Jablkowski, Yoon Jun Kim, Cihan Yurdaydin, Cheng-Yuan Peng, Tuan Nguyen, Hiroshi Yatsuhashi, John F Flaherty, Leland J Yee, Frida Abramov, Hongyuan Wang, Dzhamal Abdurakhmanov, Young-Suk Lim, Maria Buti. Atherosclerotic cardiovascular disease risk profile of patients with chronic hepatitis B treated with tenofovir alafenamide or tenofovir disoproxil fumarate for 96 weeks. Alimentary pharmacology & therapeutics. 2024 Jan; 59(2):217-229. doi: 10.1111/apt.17764. [PMID: 37905449]
  • Xianghao Lin, Xiaojuan Zou, Baifei Hu, Dongyun Sheng, Tianxiang Zhu, Mingzhu Yin, Hui Xia, Haiming Hu, Hongtao Liu. Bi Xie Fen Qing Yin decoction alleviates potassium oxonate and adenine induced-hyperuricemic nephropathy in mice by modulating gut microbiota and intestinal metabolites. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie. 2024 Jan; 170(?):116022. doi: 10.1016/j.biopha.2023.116022. [PMID: 38147734]
  • Liu Xiao-Jing, Xing Bao, Wang Meng-Yu, Li Xiao-Man, Wang Xu-Jing, Wang Zhi-Xing. Transcriptional and proteomic analysis. GM crops & food. 2023 Dec; 14(1):1-16. doi: 10.1080/21645698.2023.2229927. [PMID: 37387261]
  • Jiang Xiao, Guiju Gao, Yi Ding, Jialu Li, Chengyu Gao, Qiuhua Xu, Liang Wu, Hongyuan Liang, Liang Ni, Fang Wang, Yujiao Duan, Di Yang, Hongxin Zhao. Reasons, safety and efficacy analysis for conversion of HAART to TAF/FTC/BIC among HIV-infected patients. Chinese medical journal. 2023 Dec; 136(24):2931-2937. doi: 10.1097/cm9.0000000000002939. [PMID: 38032036]
  • Lin Gan, Xiaoxin Xie, Yanhua Fu, Yebing Song, Chunli Song, Tingting Ren, Hai Long. Efficacy and safety of bictegravir/emtricitabine/tenofovir alafenamide fumarate for adult patients with human immunodeficiency virus-1 in China: a retrospective real-world cohort study. Expert review of anti-infective therapy. 2023 Dec; ?(?):1-7. doi: 10.1080/14787210.2023.2292544. [PMID: 38058002]
  • Wen-Ting Peng, Chuan Jiang, Fei-Lan Yang, Nian-Qi Zhou, Ke-Yu Chen, Jin-Qing Liu, Shi-Fang Peng, Lei Fu. Tenofovir amibufenamide vs tenofovir alafenamide for treating chronic hepatitis B: A real-world study. World journal of gastroenterology. 2023 Nov; 29(44):5907-5918. doi: 10.3748/wjg.v29.i44.5907. [PMID: 38111506]
  • Dingbo Zhang, Jens Boch. Development of TALE-adenine base editors in plants. Plant biotechnology journal. 2023 Nov; ?(?):. doi: 10.1111/pbi.14246. [PMID: 37997697]
  • Xuemei Wu, Bin Ren, Lang Liu, Shengqun Qiu, Xin'ge Li, Peijing Li, Fang Yan, Honghui Lin, Xueping Zhou, Dawei Zhang, Huanbin Zhou. Adenine base editor incorporating the N-methylpurine DNA glycosylase MPGv3 enables efficient A-to-K base editing in rice. Plant communications. 2023 Nov; 4(6):100668. doi: 10.1016/j.xplc.2023.100668. [PMID: 37528583]
  • Chenxiang Pan, Jiali Lin, Xiaoxiao Dai, Lili Jiao, Jinsha Liu, Aidi Lin. An m1A/m6A/m5C-associated long non-coding RNA signature: Prognostic and immunotherapeutic insights into cervical cancer. The journal of gene medicine. 2023 Nov; ?(?):e3618. doi: 10.1002/jgm.3618. [PMID: 37923390]
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