ZNF468 stabilization by RNF4 enhances apoptosis resistance and carboplatin resistance in breast cancer via transcription activation of XIAP [0.03%]
RNF4结合素RNF4通过转录激活XIAP增强ZNF468稳定性和乳腺癌细胞的抗凋亡和顺铂抗性
Juan Hu,Guo Tian,Peizhi Tang et al.
Juan Hu et al.
Background: Carboplatin is a commonly utilized chemotherapy agent for breast cancer treatment, yet resistance to this drug remains a significant clinical challenge OBJECTIVE: The objective of this study was to investigate...
Jiyoon Park,Jinha Jeon,Sujeong Gim et al.
Jiyoon Park et al.
Platform-dependent performance of P2A and IRES linkers in multicistronic gene expression [0.03%]
P2A和IRES在多顺反子基因表达中的平台依赖性性能分析
Mingyu Ju,Jinju Han
Mingyu Ju
Selection of heat stress-tolerant cultivars from radish and analysis of gene expression under high-temperature [0.03%]
高温胁迫下根系耐热品种筛选及高表达基因分析
Jae-Han Choi,Won Byoung Chae,Man-Ho Oh
Jae-Han Choi
Transcriptomic analysis reveals functional compartmentalization of the digestive tract in Urechis unicinctus [0.03%]
转录组分析揭示了乌勒奇氏单环沙蚕消化道的功能区室化
Kyoung-Bin Ryu,Geon Woo Lee,Chan-Jun Lee et al.
Kyoung-Bin Ryu et al.
Single-cell transcriptomics and machine learning identify RNF144B and C5AR1 as immune-related molecular signatures and therapeutic targets in myocardial infarction [0.03%]
单细胞转录组和机器学习鉴定的免疫相关分子标志物RNF144B 和C5AR1及其在心肌梗死治疗中的作用
Yuxin Hu,Lu Chen,Jianmei Sha et al.
Yuxin Hu et al.
5-Aminoimidazole-4-carboxamide riboside, an AMPK activator, enhances TRAIL-mediated apoptosis in human bladder cancer cells in a p38 MAPK-dependent manner [0.03%]
AMPK激活剂5-氨基咪唑-4-甲酰胺核糖核苷通过依赖p38 MAP激酶的方式增强TRAIL介导的人膀胱癌细胞的凋亡作用
Cheol Park,Hyun Hwangbo,Su Hyun Hong et al.
Cheol Park et al.
Roles of Lcn2 and neuroinflammation in a scopolamine-induced cognitive impairment animal model: implication of the NLRP3 inflammasome pathway [0.03%]
Lcn2和神经炎症在丁香树脂酚诱导的认知障碍动物模型中的作用:NLRP3炎性小体通路的介导作用
Min Yeong Lee,Nicole Bon Campomayor,Bernabe Apare et al.
Min Yeong Lee et al.
Parametric hypothesis testing for pathway based hierarchical structural component models [0.03%]
基于路径的层次结构组件模型的参数假设检验
Md Kamruzzaman,Taesung Park
Md Kamruzzaman
SEMA4A promotes acute myeloid leukemia progression through inhibiting apoptosis [0.03%]
SEMA4A通过抑制凋亡促进急性髓系白血病进展
Xinyu Li,Binyu Yao,Meiling Sun et al.
Xinyu Li et al.