All Relations between cerebral cortex and mapk3

Publication Sentence Publish Date Extraction Date Species
Fang Liu, Chen Liang, Zhengchang Li, Sen Zhao, Haiming Yuan, Ruen Yao, Zailong Qin, Shaofang Shangguan, Shujie Zhang, Li-Ping Zou, Qian Chen, Zhijie Gao, Suiwen Wen, Jing Peng, Fei Yin, Fei Chen, Xiaoxia Qiu, Jingsi Luo, Yingjun Xie, Dian Lu, Yu Zhang, Hua Xie, Guozhuang Li, Terry Jianguo Zhang, Pengfei Luan, Hongying Wang, Xiaodai Cui, Hailiang Huang, Ruize Liu, Xiaofang Sun, Chao Chen, Nan Wu, Jian Wang, Chunyu Liu, Yiping Shen, James F Gusella, Xiaoli Che. Haplotype-specific MAPK3 expression in 16p11.2 deletion contributes to variable neurodevelopment. Brain : a journal of neurology. 2023-03-04. PMID:36869767. using transcriptomic profiles and cellular phenotypes of the hipsc-differentiated cortex neuronal cells, we revealed mapk3 as a contributor to dysfunction in multiple pathways related to early neuronal development, with altered soma and electrophysiological properties in mature neuronal cells. 2023-03-04 2023-08-14 human
Shakeel Ahmad Khan, Terence Kin Wah Le. Identifying potential pharmacological targets and molecular pathways of Meliae cortex for COVID-19 therapy. Frontiers in immunology. vol 14. 2023-02-23. PMID:36817449. the 10 anti-covid-19 core targets (akt1, tnf, hsp90aa1, il-6, mtor, egfr, casp3, hif1a, mapk3, and mapk1), three molecular pathways (the pi3k-akt signaling pathway, the hif-1 signaling pathway, and the pathways in cancer) and three active phytonutrients (4,8-dimethoxy-1-vinyl-beta-carboline, trichilinin d, and nimbolin b) were identified as molecular targets, molecular pathways, and key active phytonutrients of the meliae cortex, respectively that significantly contribute to alleviating covid-19. 2023-02-23 2023-08-14 Not clear