Results 181 to 190 of about 667,667 (355)

Molecular Structure of the Chicken Vitamin D-lnduced Calbindin-D_28KGene Reveals Eleven Exons, Six Ca²⁺-Binding Domains, and Numerous Promoter Regulatory Elements [PDF]

, 1988
Phillip P. Minghetti, M. Leonor Cancela, Yoshiki Fujisawa, Georgia Theofan, Anthony W. Norman   +4 more
openalex   +1 more source

A Prion‐Like Domain in EBV EBNA1 Promotes Phase Separation and Enables SRRM1 Splicing

Advanced Science, EarlyView.
This study discoveries that EBV EBNA1 behaves as a prion‐like protein, verified using cell‐based assays and the Saccharomyces cerevisiae Sup35p prion identification system. The prion‐like domain of EBNA1 drives liquid–liquid phase separation. EBNA1 interacts with the splicing factor SRSF1 to regulate the expression of the SRRM1 splicing isoforms ...
Xiaoyue Zhang, Zhengshuo Li, Run Zheng, Xiang Zheng, Jia Wang, Can Liu, Yangge Wu, Yuqing Wen, Chunlin Ou, Songqing Fan, Chenxiao Xu, Junrui Tian, Qun Yan, Hao Nan, Xiaodong Xu, Hui Wang, Qiu Peng, Jian Ma   +17 more
wiley   +1 more source

Nucleotide sequence 5' of the chicken c-myc coding region: localization of a noncoding exon that is absent from myc transcripts in most avian leukosis virus-induced lymphomas.

, 1984
C K Shih, Michal Linial, Maureen M. Goodenow, W S Hayward   +3 more
openalex   +1 more source

Nucleotide sequence of the 3′ exon of the human N-myc gene [PDF]

, 1985
Richard W. Michitsch, Peter W. Melera
openalex   +1 more source

Single‐Cell Transcriptome Analysis Reveals That Hmga2 Regulates Neuroinflammation and Retinal Function by Modulating Müller Cell Autophagy Through PI3K/AKT Signaling Following MCAO‐Induced Retinal Ischemia

Advanced Science, EarlyView.
Employing snRNA‐seq post‐MCAO‐induced retinal ischemia (RI), this study revealed a novel Hmga2‐high Müller cell subpopulation. Hmga2 knockout alleviated neuroinflammation and RI symptoms, potentially by binding PI3K and regulating Müller cell autophagy.
Weihao Lv, Juzheng Yuan, Zhe Ruan, Ya‐nan Dou, Hongchen Zhang, Xiaowei Fei, Leiying Chen, Zehan Zhang, Kai Yang, Xiuquan Wu, Zhou Fei, Fei Fei   +11 more
wiley   +1 more source

Self-splicing of a group II intron in yeast mitochondria: dependence on 5′ exon sequences.

, 1987
Renske M. van der Veen, A.C. Arnberg, Les Grivell   +2 more
openalex   +1 more source

GLS1‐RNA Polymerase II Axis Mediates Glutamine‐Dependent Hepatoprotective Effects on Alcoholic Liver Disease in High‐Protein Diets

Advanced Science, EarlyView.
GLS1 interacts with RNA polymerase II subunits, ROLR2H and POLR2E, resulting in significant suppression of RNA polymerase II activity. Importantly, the investigation demonstrates that high‐protein diets, particularly glutamine, exert protective effects against alcoholic fatty liver through GLS1‐RNA polymerase II axis.
Wenbiao Wu, Haowen Jiang, Yichang Liu, Chang Peng, Hanlin Wang, Wenhua Yang, Zan Lyu, Yan Sun, Huan Ma, Hongyu Gu, Weijuan Kan, Liya Jing, Tiancheng Dong, Chunmei Xia, Saifei Lei, Rui Wu, Jinlong Li, Jia Li   +17 more
wiley   +1 more source

Mutation in LDL Receptor: Alu-Alu Recombination Deletes Exons Encoding Transmembrane and Cytoplasmic Domains [PDF]

, 1985
Mark A. Lehrman, Wolfgang J. Schneider, Thomas C. Südhof, Michael S. Brown, Joseph L. Goldstein, David W. Russell   +5 more
openalex   +1 more source

Deficiency of SCAMP5 Triggers Pancreatic β‐Cell Secretory Dysfunction and Apoptosis

Advanced Science, EarlyView.
This study demonstrates that hyperglycemia in diabetes activates ChREBP, which epigenetically represses SCAMP5 expression in pancreatic β‐cells. This SCAMP5 deficiency impairs insulin secretion by downregulating the calcium channel CaV1.2. Furthermore, reduced SCAMP5 triggers β‐cell apoptosis by stabilizing VDAC1 and enhancing its interaction with Bax,
Yingqi Zhang, Donglan Tang, Chenxi Yang, Chao Lin, Yingyue Yuan, Meiying He, Yiying Chen, Zhuo Mao, Ying Ying, Xiaosong Ma, Xiangchen Kong   +10 more
wiley   +1 more source

FOXQ1 Regulates Brain Endothelial Mitochondrial Function by Orchestrating Calcium Signaling and Cristae Morphology

Advanced Science, EarlyView.
FOXQ1 emerges as a master transcriptional regulator of brain endothelial metabolism, orchestrating mitochondrial function through dual control of calcium signaling and cristae organization. This study reveals that brain endothelial cells rely on oxidative phosphorylation rather than glycolysis alone, challenging the current metabolic paradigm and ...
Wenzheng Zou, Yuqing Lv, Lin Li, Shukui Zhang, Jiaqi Liang, Chengchao Wu, Enyu Huang, Jianwei Jiao, Jingjing Zhang   +8 more
wiley   +1 more source