货号: CM-0234
Price:
¥350.00
¥400
产品信息
| 产品简介 | TM3细胞专用培养基由普诺赛技术团队精心优化,经过长期测试,本产品可保持TM3细胞最佳的生长状态。本产品中已包含TM3细胞生长所需的各种成分,无需添加任何成分,可直接用于TM3细胞的体外培养。本产品仅供进一步科研使用,不得用于诊断、治疗、临床、家庭及其它用途。 |
| 产品形态 | 液体 |
| 产品浓度 | 1× |
| 产品规格 | 125mL×4 |
| PH | 7.4-7.8 |
| 培养基成分 | DMEM/F12+5%HS+2.5%FBS+1%P/S |
| 细菌检测 | Negative |
| 真菌检测 | Negative |
| 支原体检测 | Negative |
| 细胞生长实验 | The cells are growing well and exhibit normal morphology. |
| 内毒素含量(EU/mL) | <3 |
| 储存条件 | 2-8℃,避光储存 |
| 运输条件 | 冰袋运输 |
| 有效期 | 6个月 |
| 注意事项 |
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Anti-Cancer Potency of Copper-Doped Carbon Quantum Dots Against Breast Cancer Progression(2024)
作者:Mengqi Wang, Shuting Lan, Wenqi Zhang, Qin Jin, Hua Du, Xiaomei Sun, Lijun He, Xiangyun Meng, Liya Su, Gang Liu
期刊:International Journal of Nanomedicine
影响因子:8.0
引用产品: NRK-52E 细胞, TM3 细胞, MA-782细胞专用培养基, TM3细胞专用培养基, DMEM高糖完全培养基 (含10%FBS)
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DEHP-mediated oxidative stress leads to impaired testosterone synthesis in Leydig cells through the cAMP/PKA/SF-1/StAR pathway(2024)
作者:Luchen Yang, Shengzhuo Liu, Pan Song, Zhenghuan Liu, Zhufeng Peng, Depei Kong, Jing Zhou, Xin Yan, Kai Ma, Yunfei Yu, Xiaoyang Liu, Qiang Dong
期刊:ENVIRONMENTAL POLLUTION
DOI:10.1016/j.envpol.2024.125503
影响因子:7.6
引用产品: TM3 细胞, TM3细胞专用培养基
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Saffron extract alleviates D-gal-induced late-onset hypogonadism by activating the PI3K-Akt-Nrf2 signaling pathway(2024)
作者:Hao Liu, Zhongkai Guo, Zhenjie Zang, Bin Jia, Yuhang Zhou, Hui Zhang, Qiang Fu
期刊:JOURNAL OF ETHNOPHARMACOLOGY
影响因子:4.8
引用产品: 小鼠睾丸间质细胞, TM3细胞专用培养基
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Toxic effects of Tripterygium glycoside tablets on the reproductive system of male rats by metabolomics, cytotoxicity, and molecular docking(2023)
作者:Jia-Chen Ge, Qi Qian, Yan-Hua Gao, Yi-Fan Zhang, Ying-Xuan Li, Xu Wang, Yan Fu, Yu-Mei Ma, Qiao Wang
期刊:PHYTOMEDICINE
DOI:10.1016/j.phymed.2023.154813
影响因子:7.9
引用产品: TM3细胞专用培养基, TM4细胞专用培养基, TM3 细胞, TM4 细胞
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1-Nitropyrene disrupts testicular steroidogenesis via oxidative stress-evoked PERK-eIF2α pathway(2023)
作者:Xiu-liang Li, Yu-lin Liu, Jia-yu Liu, Yan-yan Zhu, Xin-xin Zhu, Wei-wei Zhang, Jian Li, Ye Zhao, Ling-li Zhao, Cheng Zhang, Hua Wang, De-xiang Xu, Lan Gao
期刊:ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
DOI:10.1016/j.ecoenv.2023.115027
影响因子:6.8
引用产品: TM3 细胞, TM3细胞专用培养基
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Knockdown of ZnT4 Induced Apoptosis, Inhibited Proliferation and testosterone synthesis of TM3 cells(2023)
作者:Li Huanhuan, Li Yuejia, Liu Junsheng, Liu Xuan, Li Yuanjing, Wang Shusong, Ma Jing
期刊:IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL
DOI:10.1007/s11626-023-00804-z
影响因子:2.1
引用产品: TM3 细胞, TM3细胞专用培养基
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Exosomes derived from BMSCs ameliorate cyclophosphamide-induced testosterone deficiency by enhancing the autophagy of Leydig cells via the AMPK-mTOR signaling pathway(2022)
作者:Liang Hao-Yu, Peng Fan, Pan Min-Jia, Liao Sen-Lin, Wei Cun, Wei Guan-Yang, Xie Xiao, Xue Kang-Yi, Chen Ming-Kun, Yang Jian-Kun, Guo Wen-Bin, Liu Cun-Dong, Zhou Qi-Zhao
期刊:ASIAN JOURNAL OF ANDROLOGY
影响因子:3.1
引用产品: TM3细胞专用培养基, 小鼠骨髓间充质干细胞完全培养基
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Prenatal exposure to environmentally relevant levels of PBDE-99 leads to testicular dysgenesis with steroidogenesis disorders(2021)
作者:Tianxin Zhao, Xiangliang Tang, Dian Li
期刊:Journal of Hazardous Materials
DOI:10.1016/j.jhazmat.2021.127547
影响因子:14.2
引用产品: TM3 细胞, TM3细胞专用培养基
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A Protein from Dioscorea polystachya (Chinese Yam) Improves Hydrocortisone-Induced Testicular Dysfunction by Alleviating Leydig Cell Injury via Upregulation of the Nrf2 Pathway(2021)
作者:Shiting Yu,Bing Han,Xin Xing
期刊:Oxidative Medicine and Cellular Longevity
影响因子:0.0
引用产品: TM3 细胞, TM3细胞专用培养基
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