Characterization of the genomic landscape of canine diffuse large B-cell lymphoma reveals recurrent H3K27M mutations linked to progression-free survival by Anna Darlene van der Heiden, Raphaela Pensch, Sophie Agger, Heather L. Gardner, William Hendricks, Victoria Zismann, Shukmei Wong, Natalia Briones, Bryce Turner, Karin Forsberg-Nilsson, Cheryl London, Kerstin Lindblad-Toh, Maja Louise Arendt

“…The most prominent copy number gain occurred on chromosome 13, overlapping key oncogenes such as MYC and KIT, while the most frequent deletion was a focal loss on chromosome 26, encompassing IGL, PRAME, GNAZ, RAB36, RSPH14, and ZNF280B. …”
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High Glucose with Insulin Induces Cell Cycle Progression and Activation of Oncogenic Signaling of Bladder Epithelial Cells Cotreated with Metformin and Pioglitazone by Daejin Kim, Byul-Nim Ahn, YeongSeok Kim, Dae Young Hur, Jae Wook Yang, Ga Bin Park, Jung Eun Jang, Eun Ju Lee, Min Jeong Kwon, Tae Nyun Kim, Mi Kyung Kim, Jeong Hyun Park, Byoung Doo Rhee, Soon Hee Lee

“…Levels of tumor suppressor proteins p53 and cav-1 were downregulated while those of the oncogenic protein as c-Myc were upregulated under high glucose and insulin supplementation in HBlEpC cotreated with pioglitazone and metformin. …”
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Genes Involved in the Transcriptional Regulation of Pluripotency Are Expressed in Malignant Tumors of the Uterine Cervix and Can Induce Tumorigenic Capacity in a Nontumorigenic Cel... by Graciela Ruiz, Heriberto A. Valencia-González, Delia Pérez-Montiel, Felipe Muñoz, Rodolfo Ocadiz-Delgado, Jorge Fernández-Retana, Carlos Pérez-Plasencia, Osbaldo Reséndis-Antonio, Patricio Gariglio, Alejandro García-Carrancá

“…Transcription factors OCT4, SOX2, KLF4, C-MYC, and NANOG (OSKM-N) regulate pluripotency and stemness, and their ectopic expression reprograms human and murine fibroblasts that constitute the key of regenerative medicine. …”
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Targeting the NOTCH2/ADAM10/TCF7L2 Axis‐Mediated Transcriptional Regulation of Wnt Pathway Suppresses Tumor Growth and Enhances Chemosensitivity in Colorectal Cancer by Zhen Xiang, Yiwei Wang, Xiao Ma, Shuzheng Song, Yuanqiao He, Jiamin Zhou, Longhai Feng, Su Yang, Yibin Wu, Bingran Yu, Guangkai Xia, Weiqi Xu, Yiming Zhao, Lu Wang

“…NOTCH2 not directly interact with TCF7‐like 2 (TCF7L2), a key downstream transcriptional factor of canonical Wnt/β‐catenin signaling, but directly activated the transcription of TCF7L2 and Wnt target genes, such as MYC, JUN and CCND1/2. Furthermore, use of adavivint or blockage of ADAM10/NOTCH2/TCF7L2 signaling enhances the chemosensitivity of CRC cells. …”
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Comprehensive genomic and transcriptomic profiling of pulmonary nodules in synchronous multiple primary lung cancer by Xingsheng Liu, Kun Qian, Lei Su, Xiaoru Tian, Xin Zhao, Tengteng Wang, Li Han, Zhenzhen Li, Peilong Zhang, Ruotian Wang, Baodong Liu, Yuanbo Li, Xiaogang Tan, Yi Zhang

“…Additionally, among the significantly up-regulated cell cycle-related genes in the major nodules when compared with minor nodules, CCNE1 mRNA expression demonstrated significant correlation with poor prognosis in the lung cancer. Furthermore, the MYC inhibitor demonstrated more sensitivity for the major nodules than minor nodules. …”
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Evaluation of wheat products with high flavonoid content: justification of importance of marker-assisted development and production of flavonoid-rich wheat cultivars by E. K. Khlestkina, N. I. Usenko, E. I. Gordeeva, O. I. Stabrovskaya, I. B. Sharfunova, Y. S. Otmakhova

“…These two wheat lines have almost similar genomes with the exception of a small part of chromosome 2A, which contains the Pp3/TaMyc1 gene regulating anthocyanin biosynthesis. The use of such an accurate model has allowed relating the observed differences precisely with anthocyanin biosynthesis. …”
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Pluripotency-State-Dependent Role of Dax1 in Embryonic Stem Cells Self-Renewal by Jianrong He, Yuda Cheng, Yan Ruan, Jiali Wang, Yanping Tian, Jiaqi Wang, Fengsheng Wang, Chen Zhang, Yixiao Xu, Lianlian Liu, Meng Yu, Jiangjun Wang, Binyu Zhao, Yue Zhang, Yi Yang, Gaoke Liu, Wei Wu, Ping He, Jiaxiang Xiong, He Huang, Junlei Zhang, Rui Jian

“…In LIF/serum, the activities of the Core module and Myc module were significantly reduced, while the PRC2 module was activated after Dax1KO. …”
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The SERPINB4 gene mutation identified in twin patients with Crohn’s disease impaires the intestinal epithelial cell functions by Xiao-Mei Ouyang, Jun-Hui Lin, Ying Lin, Xian-Ling Zhao, Ya‐Ni Huo, Lai-Ying Liang, Yong-Dong Huang, Gui-Jing Xie, Peng Mi, Zhen-Yu Ye, Bayasi Guleng

“…Transcriptome sequencing revealed that the expression of genes encoding proinflammatory proteins (IL1B, IL6, IL17, IL24, CCL2, and CXCR2) and key proteins in the immune response (S100A9, MMP3, and MYC) was significantly upregulated during SERPINB4 mutant-induced apoptosis. …”
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Oncogenic role of RARG rearrangements in acute myeloid leukemia resembling acute promyelocytic leukemia by Feng Wang, Luyao Zhao, Yun Tan, Xufeng Cen, Huan Gao, Huimin Jiang, Ying Liu, Yunxuan Li, Tingting Zhang, Chenxi Zhao, Ting Shi, Guilin Xu, Churan Wang, Jiong Hu, Xia Li, Ya-Zhen Qin, Kankan Wang, Hong-Hu Zhu, Ke Li

“…However, the co-occurrence of RARG fusions and heterozygous Wt1 loss induce fully penetrant AML by activating MYC and HOXA9/MEIS1 targets. Leveraging Connectivity Map resources and high-throughput screening, we identify venetoclax, homoharringtonine, and daunorubicin as potential therapeutic options for RARG-AML. …”
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Mina53 catalyzes arginine demethylation of p53 to promote tumor growth by Lixiao Zhou, Liyang Yu, Shushu Song, Yong Wang, Qiang Zhu, Meng Li, Yutong Sha, Liang Xu, Xin Shu, Qingqing Liao, Ting Wu, Bing Yang, Siyuan Chai, Bingyi Lin, Liming Wu, Ruhong Zhou, Xiaotao Duan, Chenggang Zhu, Yuanyuan Ruan, Wen Yi

“…However, the existence of arginine demethylases that remove the modification has not been fully established. Here, we report that Myc-induced nuclear antigen 53 (Mina53), a member of the jumonji C (JmjC) protein family, is an arginine demethylase. …”
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Investigating intra‐tumoural heterogeneity and microenvironment diversity in primary cardiac angiosarcoma through single‐cell RNA sequencing by Jingyuan Huo, Zhen Wang, Wenting Zhao, Miao Chen, Haoyang Li, Fengpu He, Xiao Tian, Yaqi Ma, Firyuza Husanova, Liang Ma, Yiming Ni, Hongda Ding, Weidong Li, Hongfei Xu

“…The SCENIC analysis identified three primary transcription factors' clusters (CEBPB, MYC and TAL1). T‐cell subset analysis showed exhausted antigen‐specific T‐cells, complicating the efficacy of immune checkpoint blockade. …”
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Impacts of genomic alterations on the efficacy of HER2-targeted antibody–drug conjugates in patients with metastatic breast cancer by Riqing Huang, Anqi Hu, Qixiang Rong, Ditian Shu, Meiting Chen, Wei Yang, Yue Zhang, Qiufan Zheng, Xin An, Cong Xue, Haifeng Li, Yanxia Shi

“…The most frequently altered genes were TP53 (69%), PIK3CA (45%), MYC (35%), and ERBB2 (35%). Patients with amplifications in cell cycle-related genes showed inferior median progression-free survival (PFS) than those without amplifications (2.07 months vs. 8.40 months; HR = 5.24; 95% CI 2.11–13.01; p < 0.001), particularly in HER2-low patients (2.07 months vs. 8.27 months; HR = 4.23; 95% CI 1.50–11.91; p = 0.004). …”
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Targeting SRSF1 improves cancer immunotherapy by dually acting on CD8+T and tumor cells by Gui-Qi Zhu, Zheng Tang, Tian-Hao Chu, Biao Wang, Shi-Ping Chen, Chen-Yang Tao, Jia-Liang Cai, Rui Yang, Wei-Feng Qu, Yi Wang, Qian-Fu Zhao, Run Huang, Meng-Xin Tian, Yuan Fang, Jun Gao, Xiao-Ling Wu, Jian Zhou, Wei-Ren Liu, Zhi Dai, Ying-Hong Shi, Jia Fan

“…The inactivation of SRSF1 in tumor cells reduces transcription factors, including c-Jun, c-myc, and JunB, facilitating glycolytic metabolism reprogramming, which restores CD8+ T cell function and inhibits tumor growth. …”
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آنالیز گسترده ژنوم، تفسیر و بررسی بیان ژن‌های VDAC در گل رز چینی by گل محمد اشرفی, مصطفی خوشحال سرمست, جین لیو

“…حضور نواحی زیاد مربوط به محل اتصال عوامل رونویسی MYB و MYC و همچنین نواحی پاسخ دهنده به هورمون‌هایی مانند اسید جاسمونیک، اسید آبسزیک‌، اکسین و جیبرلین و حتی سرما و خشکی تاکید بر نقش این ژن در تنش-های غیر زیستی دارد. …”
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Influence of Light Intensity on Tobacco Responses to Drought Stress by Brwa Rasool

“…A transcriptome profiling analysis of the tobacco responses to light intensity highlights the increased abundance of a large group of drought-related transcripts including DROUGHT-RESPONSIVE ELEMENT BINDING FACTORS (DREBs), C-REPEAT/DROUGHT-RESPONSIVE BINDING FACTOR 1 (CBF1), GLYCINE-RICH RNA BINDING PROTEINS (GRPs), WRKY33 and MYCs transcription factors, as well as zeaxanthin epoxidase, which play as a regulator of plant responses to water deficient condition. …”
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