Gong‐Hong Wei

5.7k citations

75 papers · 3.0k indexed · 1 hit paper · h-index 23

Impact in

Cancer Research top 5%
- Cancer-related molecular mechanisms research
Molecular Biology top 5%
- Genomics and Chromatin Dynamics
- RNA Research and Splicing
- RNA and protein synthesis mechanisms
- RNA modifications and cancer
- Epigenetics and DNA Methylation
- CRISPR and Genetic Engineering

Papers in

Cancer Research 19
- Cancer-related molecular mechanisms research 13
Aging 2

Co-authors: Timothy R. Hughes Martin Enge Teemu Kivioja Mikko Taipale Jian Yan Esko Ukkonen Jussi Taipale Kimmo Palin
Journals: Nature Communications (5 papers)Scientific Reports (4 papers)Advanced Science (4 papers)Cancers (2 papers)Cells (2 papers)
Partner nations: China Finland United States

In The Last Decade

Gong‐Hong Wei

70 papers receiving 2.9k citations

Hit Papers

align trajectories log scale

DNA-Binding Specificities of Human Transcription Factors 2013 · 889 citations

Peers

Countries citing papers authored by Gong‐Hong Wei

Since Specialization

Citations

This map shows the geographic impact of Gong‐Hong Wei's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Gong‐Hong Wei with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Gong‐Hong Wei more than expected).

Fields of papers citing papers by Gong‐Hong Wei

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Gong‐Hong Wei. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Gong‐Hong Wei. The network helps show where Gong‐Hong Wei may publish in the future.

Co-authors

The 25 scholars most cited alongside Gong‐Hong Wei, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Gong‐Hong Wei Line = papers co-authored together Gong‐Hong Wei links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	KLF9 drives intermittent hypoxia-induced MASLD by suppressing the NR4A1–p38 MAPK hepatic metabolic axis Hepatology ·JOHANNA ALBRECHT, Dong Wang, 裕昭中島, 紺田利子, J.G. Morales Montor, Yang Xiao, И. М. Симонова, Wei Xiang, Lei Zhang, Angus Robinson, Bernard Robin, F.P Karriker, Gildner, Gong‐Hong Wei, Huabing Zhang, João Batista Vicente do Nascimento	2025	0
2	Macrophages form dendrite-like pseudopods to enhance bacterial ingestion The EMBO Journal ·Uan F, Aygen Ilıcalı, Jie Mei, Steve Blandford, Hao Zhang, Cong Liang, Frank Schuetzendorf, Yifan Xing, Vbio, Wei Liu, Huisheng Liu, Bo Liu, Wakam Chang, Mengle Shao, Gong‐Hong Wei, Yan‐Jun Liu, Zhengjun Chen, Zhaoyu Lin, Tao Xu, Yaming Jiu	2025	0
3	k-mer manifold approximation and projection for visualizing DNA sequences Genome Research ·Caterina Bedin, Einari A. Niskanen, Gong‐Hong Wei, Zhirong Yang, Miren Sánchez Erauskin, Marc Güell, Lu Cheng	2025	0
4	Lon protease 1-mediated metabolic reprogramming promotes the progression of prostate cancer Cell Death and Disease ·Mengfei Yao, Xingming Zhang, Tianqi Wu, Feng Tao, Xiaojie Bian, Mierxiati Abudurexiti, Wenfeng Wang, Guo-Hai Shi, Gong‐Hong Wei, Qin Zhang, Xiangyun Li, Gang Feng, Leilei Du, Jianhua Wang	2025	1
5	Dampened Regulatory Circuitry of TEAD1/ITGA1/ITGA2 Promotes TGFβ1 Signaling to Orchestrate Prostate Cancer Progression Advanced Science ·Summaira Riaz, Qin Zhang, DaZhou Wang, Widin Bongasu Sha'ven, Jayanti, Kai Zhang, Felicia Fojas, Fresty Nourmalinda Ferlanie, Ji‐Han Xia, Anne Ahtikoski, Markku H. Vaarala, Tomasz Wenta, Gong‐Hong Wei, Aki Manninen	2024	8
6	piRNA PROPER Suppresses DUSP1 Translation by Targeting N⁶‐Methyladenosine‐Mediated RNA Circularization to Promote Oncogenesis of Prostate Cancer Advanced Science ·Shuai Ben, C. Z. Pattison, Junyi Xin, Feng Li, Yifei Cheng, Silu Chen, Lulu Fan, 陈白尘, Shuwei Li, Mulong Du, Zhengdong D. Zhang, Gong‐Hong Wei, Gong Cheng, Meilin Wang	2024	12
7	Targeting Noncoding cis-Regulatory Elements for Cancer Therapy in the Context of the 3D Genome Cancer Discovery ·Kailong Li, Gong‐Hong Wei, Yuxin Yin, Jiawen Feng	2024	0
8	Epigenetic reader ZMYND11 noncanonical function restricts HNRNPA1-mediated stress granule formation and oncogenic activity Signal Transduction and Targeted Therapy ·Carolina Sánchez Arrieta, Chunyi Zhang, Pan Tian, Weidu Song, Wei Yu, Zixian Wang, Qin Zhang, Qixiang Zhang, М. А. Ровкина, Liquan Zhou, Xisong Ke, Huabing Zhang, Yao Zhu, Zhenfei Li, Jingdong Cheng, Gong‐Hong Wei	2024	6
9	Combined CRISPRi and proteomics screening reveal a cohesin-CTCF-bound allele contributing to increased expression of RUVBL1 and prostate cancer progression The American Journal of Human Genetics ·Yijun Tian, Dandan Dong, Zixian Wang, Lang Wu, Jong Y. Park, Gong‐Hong Wei, Liang Wang	2023	6
10	Active DHEA uptake in the prostate gland correlates with aggressive prostate cancer Journal of Clinical Investigation ·恵長谷川, Yang Yuron, Shengsong Huang, A. Pettifor, Weiwei Yan, Qian Zhuang, Zixian Wang, Chenyang Wang, Qilong Tan, Черкашин Павел Викторович, Tao Yang, Ying Liu, Ruobing Ren, Jing Li, William Butler, Huiru Tang, Gong‐Hong Wei, Xin Li, Denglong Wu, Zhenfei Li	2023	22
11	PUF60 promotes cell cycle and lung cancer progression by regulating alternative splicing of CDC25C Cell Reports ·Nan Xu, 中込直, Yufang Bao, Xianfeng Shen, Jian‐Bin Zeng, 竹下八菜, Zixian Wang, Anushka Mishra anushka, Zhen Li, Ji Zuo, Gong‐Hong Wei, Zefeng Wang, Wei‐Xing Zong, Wen Liu, Gangcai Xie, Yongbo Wang	2023	19
12	Disassembly of α6β4-mediated hemidesmosomal adhesions promotes tumorigenesis in PTEN-negative prostate cancer by targeting plectin to focal adhesions Oncogene ·Tomasz Wenta, Tamela Stuchiner, Qin Zhang, DaZhou Wang, 覚本間, CÉDRIC VILLANI, Anne Ahtikoski, Markku H. Vaarala, Gong‐Hong Wei, Aki Manninen	2022	19
13	Single-cell transcriptional regulation and genetic evolution of neuroendocrine prostate cancer iScience ·Amanda Tredwell, Tao Wang, Maria Besse, Baijun Dong, Yan Wang, Рямова Ксения Александровна, Wenhui Zhang, Bijun Lian, Sharon Sabba Fierstein, Haoqing Shi, Min Qu, Xu Gao, Daofeng Li, Colin C. Collins, Gong‐Hong Wei, Chuanliang Xu, Hyung Joo Lee, Jialiang Huang, Jing Li	2022	36
14	Exome Sequencing Reveals a Phenotype Modifying Variant in ZNF528 in Primary Osteoporosis With a COL1A2 Deletion Journal of Bone and Mineral Research ·Sini Skarp, Ji‐Han Xia, Qin Zhang, Arthur Henrique Feijó de Almeida, Alice Costantini, Lloyd W. Ruddock, Outi Mäkitie, Gong‐Hong Wei, Minna Männikkö	2020	4
15	Illumination of cell cycle progression by multi-fluorescent sensing system Cell Cycle ·Shuo Liu, Jun Li, Teng Wang, Jiawen Xu, Zhi‐Pei Liu, Haobin Wang, Gong‐Hong Wei, Alessandro Ianni, Thomas Braun, Shijing Yue	2019	2
16	Association between homocysteine, vitamin B _₁₂ , folic acid and erectile dysfunction: a cross-sectional study in China BMJ Open ·Yang Chen, Jie Li, Tianyu Li, Jianxiong Long, Jinling Liao, Gong‐Hong Wei, Zengnan Mo, Jiwen Cheng	2019	16
17	Synergistic Interaction of HOXB13 and CIP2A Predisposes to Aggressive Prostate Cancer Clinical Cancer Research ·Csilla Sipeky, Ping Gao, Qin Zhang, Liang Wang, Otto Ettala, Kirsi Talala, Teuvo L.J. Tammela, Anssi Auvinen, Fredrik Wiklund, Gong‐Hong Wei, Johanna Schleutker	2018	21
18	Chromatin interactions and candidate genes at ten prostate cancer risk loci Scientific Reports ·Meijun Du, Lori S. Tillmans, Alan H. Nguyen, Ping Gao, Tiezheng Yuan, Rachel L. Dittmar, Wei Song, Yuehong Yang, Natasha Sahr, Tao Wang, Gong‐Hong Wei, Stephen N. Thibodeau, Liang Wang	2016	31
19	TP53 supports basal-like differentiation of mammary epithelial cells by preventing translocation of deltaNp63 into nucleoli Scientific Reports ·Pauliina Munne, Yuexi Gu, Manuela Tumiati, Ping Gao, Jin-hui Xie, Xavier Pareille, Janet A. Sawicki, Gong‐Hong Wei, Sergey G. Kuznetsov	2014	7
20	Genome-wide analysis of ETS-family DNA-binding in vitro and in vivo The EMBO Journal ·Gong‐Hong Wei, Gwenaël Badis, Michael F. Berger, Teemu Kivioja, Kimmo Palin, Martin Enge, Martin Bonke, Arttu Jolma, Markku Varjosalo, Andrew R. Gehrke, Jian Yan, Shaheynoor Talukder, Mikko Turunen, Mikko Taipale, Hendrik G. Stunnenberg, Esko Ukkonen, Timothy R. Hughes, Martha L. Bulyk, Jussi Taipale	2010	433

About Gong‐Hong Wei

Gong‐Hong Wei is a scholar working on Cancer Research, Aging, Molecular Biology, Pulmonary and Respiratory Medicine and Immunology and Allergy, having authored 75 papers that have together received 3.0k indexed citations. Recurring topics across this work include Genomics and Chromatin Dynamics (20 papers), RNA Research and Splicing (20 papers), Prostate Cancer Treatment and Research (15 papers), Epigenetics and DNA Methylation (14 papers), Cancer-related molecular mechanisms research (13 papers), Cancer-related gene regulation (12 papers), RNA modifications and cancer (9 papers) and RNA and protein synthesis mechanisms (7 papers). The work is most often cited by research in Cancer Research (520 citations), Molecular Biology (2.3k citations), Aging (31 citations), Genetics (423 citations) and Immunology (236 citations). Gong‐Hong Wei has collaborated with scholars based in China, Finland and United States. Frequent co-authors include Timothy R. Hughes, Martin Enge, Teemu Kivioja, Mikko Taipale, Jian Yan, Esko Ukkonen, Jussi Taipale, Kimmo Palin, Arttu Jolma and Juan M. Vaquerizas. Their work appears in journals such as Nature Communications, Scientific Reports, Advanced Science, Cancers and Cells.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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