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- YOYOBIO
- YJ-B20006-100mg
- 2025年08月12日
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- 详细信息
- 文献和实验
- 技术资料
- 英文名:
Azithromycin
- CAS号:
83905-01-5
- 供应商:
上海研谨生物
- 保存条件:
2-8℃
- 规格:
100mg
阿奇霉素
分析标准品,HPLC≥98%
Azithromycin
CAS号:83905-01-5
分子式:C38H72N2O12
分子量:748.98
MDL:MFCD00873574
别名:阿齐霉素;阿红霉素;阿奇红霉素;9-脱氧-9a-氮杂-9a-甲基-9a-红霉素A
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货号 |
规格/参数/品牌 |
价格 |
货期 |
|
YJ-B20006-100mg |
分析标准品,HPLC≥98% |
¥140.00 |
现货 |
|
JS17062-1g |
BR,98% |
¥135.00 |
现货 |
|
JS17062-5g |
BR,98% |
¥184.00 |
现货 |
|
JS17062-25g |
BR,98% |
¥420.00 |
现货 |
|
JS17062-100g |
BR,98% |
¥840.00 |
现货 |
产品介绍
Azithromycin (CP-62993) 是一种大环内酯抗生素,常用于细菌感染的研究。
熔点: 113-115°C
沸点: 822.1±65.0 °C at 760 mmHg
比旋光度: D20 -37° (c = 1 in CHCl3)
外观: 类白色至白色结晶性粉末
溶解性: DMSO : ≥ 100 mg/mL (133.51 mM)
储存条件: 2-8℃
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文献和实验参考文献(24篇)
24. [IF=9.7] Hui Wu et al."Combined impact of antibiotics and Cr(VI) on antibiotic resistance, ARGs, and growth of Bacillussp. SH-1: A functionl analysis from gene to protease."BIORESOURCE TECHNOLOGY.2024 Oct;:131579
23. [IF=3.7] Rile Ge et al."A novel α-mangostin derivative synergistic to antibiotics against MRSA with unique mechanisms."Microbiology Spectrum.
22. [IF=5.3] Hou Linqian et al."A colorimetric sensor for the sensitive and rapid detection of ampicillin based on CS-Cu,Fe/HS nanozyme."MICROCHIMICA ACTA.2025 Jan;192(1):1-12
21. [IF=2.5] Ze Li et al."Sheng-Jiang-Yi-You decoction inhibits the inflammatory response by down-regulating the p38MAPK signaling pathway to alleviate Helicobacter pylori-associated gastritis."HISTOLOGY AND HISTOPATHOLOGY.2025 Mar 17:18906
20. [IF=4.9] Zhang Yi et al."Preparation of carbon nanofibers blended with polyvinyl alcohol/sodium alginate and their electrochemiluminescence enhancement behavior."MICROCHEMICAL JOURNAL.2025 Mar;:113517
19. [IF=4.8] Meiping Ye et al."Emergence of Neisseria gonorrhoeae Clone with Reduced Susceptibility to Sitafloxacin in China: An In Vitro and Genomic Study."Antibiotics-Basel".2024 May;13(5):468
18. [IF=8.9] Baihuan Zhang et al."Seasonal variation in structural and functional distribution of periphyton in a macrolide antibiotics-contaminated river."ENVIRONMENTAL POLLUTION".2024 Mar;345:123495
17. [IF=8.8] Zhengjie Chen et al."Ratiometric fluorescence sensor based on deep learning for rapid and user-friendly detection of tetracycline antibiotics."FOOD CHEMISTRY".2024 Aug;450:138961
16. [IF=5.6] Jingwei Kong et al."Early-life antibiotic exposure promotes house dust mite-induced allergic airway inflammation by impacting gut microbiota and lung lipid metabolism."INTERNATIONAL IMMUNOPHARMACOLOGY.2024 Feb;128:111449
15. [IF=12.8] Jiayi Liang et al."Metatranscriptomic profiles reveal the biotransformation potential of azithromycin in river periphyton."WATER RESEARCH.2024 Mar;251:121140
14. [IF=4.8] Chen Wu et al."Sensitive and smartphone-assisted visual detection of oxytetracycline by a ratiometric fluorescence sensor based on nitrogen-doped carbon quantum dots from banana peel cooperating with europ ium."MICROCHEMICAL JOURNAL.10.1016/j.microc.2023.10
13. [IF=9.231] Yao Fan et al."A sensitized ratiometric fluorescence probe based on N/S doped carbon dots and mercaptoacetic acid capped CdTe quantum dots for the highly selective detection of multiple tetracycline antibiotics in food."FOOD CHEMISTRY.2023 Apr;:136105
12. [IF=6.056] Shucen Feng et al."Probiotic properties of Lactobacillus plantarum and application in prebiotic gummies."LWT-FOOD SCIENCE AND TECHNOLOGY.2022 Dec;:114357
11. [IF=5.988] Wei Lu et al."An LC-MS/MS method for the simultaneous determination of 18 antibacterial drugs in human plasma and its application in therapeutic drug monitoring."Frontiers in Pharmacology.2022 Nov 8;13:1044234
10. [IF=9.231] Yao Fan et al."Highly sensitive visual fluorescence sensor for aminoglycoside antibiotics in food samples based on mercaptosuccinic acid-CdTe quantum dots."FOOD CHEMISTRY.2023 Mar;404:134040
9. [IF=2.986] Cheng Hao et al."Electrospun Nanofibers with High Specific Surface Area to Prepare Modified Electrodes for Electrochemiluminescence Detection of Azithromycin."J Nanomater. 2021;2021:9961663
8. [IF=3.352] Jinli Wang et al."In vitro synergistic effect of baicalin with azithromycin against Staphylococcus saprophyticus isolated from francolins with ophthalmia."Poultry Sci. 2019 Jan;98:373
7. [IF=6.057] Ruirui Xie et al."Lanthanide-functionalized metal-organic frameworks based ratiometric fluorescent sensor array for identification and determination of antibiotics."Talanta. 2021 Aug;231:122366
6. [IF=3.09] Jiang Fa-Xing et al."Antimicrobial susceptibility of Neisseria gonorrhoeae isolates from Hefei (2014–2015): genetic characteristics of antimicrobial resistance."Bmc Infect Dis. 2017 Dec;17(1):1-6
5. Chunxi Zhao, Yang Jiao, Zhe Gao, Yaling Yang, Hong Li, N, S co-doped carbon dots for temperature probe and the detection of tetracycline based on the inner filter effect, Journal of Photochemistry and Photobiology A: Chemistry, Volume 367, 2018, Pages 137-
4. Wang, Jinli, et al. "In vitro synergistic effect of baicalin with azithromycin against Staphylococcus saprophyticus isolated from francolins with ophthalmia." Poultry science 98.1 (2019): 373-380.https:##doi.org/10.3382/ps/pey356
3. Jiang, Fa-Xing, et al. "Antimicrobial susceptibility of Neisseria gonorrhoeae isolates from Hefei (2014–2015): genetic characteristics of antimicrobial resistance." BMC infectious diseases 17.1 (2017): 1-6.https:##doi.org/10.1186/s12879-017-2472-z
2. 陈书鑫,王静,何士冲,刘铮铮,冯华军,穆朋倩.超高效液相色谱串联质谱法测定水体中17种抗生素[J].中国环境监测,2020,36(06):119-126.
1. 董靖,张露珊,刘绍春,张国栋,周顺,杨秋红,艾晓辉.1株克氏原螯虾肺炎克雷伯菌的分离鉴定及药物敏感性分析[J].华中农业大学学报,2021,40(01):93-98
佚名 传统观念认为,大环内酯类与β-内酰胺类抗生素联合应用,有拮抗作用。为了探讨该类抗生素联合应用的抗菌效果,我们进行了阿奇霉素(AZI)与头孢曲松(CTRX)的联合体外敏感试验,报告如下。 一、材料与方法 1.菌株来源:金黄色葡萄球菌和凝固酶阴性的葡萄球菌28株,分离自住院病人的痰液、尿液和前列腺液。其中对CTRX敏感,而对AZI耐药者13株;对两药均
摘要: 目的 建立阿奇霉素中丙酮残留量的测定方法。方法 采用毛细管气相色谱法,氢火焰离子化检测器(FID),以N,N二甲基甲酰胺(DMF)为溶剂,弹性石英毛细管柱DB624(30m×053mm,3μm);柱温40℃维持10min,以40℃/min的速率升温至200℃,维持10min;载气:高纯氮气,线速度4ml/min;氢气:40ml/min;进样口温度250℃;检测口温度280℃;空气400ml/min;尾吹25ml/min;分流比2∶1;进样量1μl。结果 加样回收率为9984
认识到以前已知的抗疟疾药物阿奇霉素还有一种新的作用方式,即抑制红细胞侵袭,应该会促进阿奇霉素衍生物的开发,使其性能得到改善。据报告,疟疾死亡率在过去十年中从每年100多万人下降到60万人以下,这归因于更好的诊断、驱虫蚊帐的使用和青蒿素类复方疗法的治疗。然而,对后者的可持续性的关切是基于大湄公河次区域发生的恶性疟原虫(疟疾寄生虫是造成全世界疟疾死亡的主要原因)对青蒿素的抗药性不断增强的报告。正在寻找新的抗疟药物。过去,大多数抗疟药物都是针对在红细胞内发育的寄生虫。然而,疟原虫可能是最脆弱
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