Guokun Wang

1.1k total citations
36 papers, 848 citations indexed

About

Guokun Wang is a scholar working on Molecular Biology, Cancer Research and Pulmonary and Respiratory Medicine. According to data from OpenAlex, Guokun Wang has authored 36 papers receiving a total of 848 indexed citations (citations by other indexed papers that have themselves been cited), including 26 papers in Molecular Biology, 16 papers in Cancer Research and 9 papers in Pulmonary and Respiratory Medicine. Recurrent topics in Guokun Wang's work include MicroRNA in disease regulation (11 papers), Circular RNAs in diseases (8 papers) and Cancer-related molecular mechanisms research (8 papers). Guokun Wang is often cited by papers focused on MicroRNA in disease regulation (11 papers), Circular RNAs in diseases (8 papers) and Cancer-related molecular mechanisms research (8 papers). Guokun Wang collaborates with scholars based in China, United States and Pakistan. Guokun Wang's co-authors include Yongwen Qin, Fan Yang, Xianxian Zhao, Jun Gao, Yiqi Du, Xiangyu Kong, Qing Jing, Xiaohua You, Zhiyun Xu and Manli Yu and has published in prestigious journals such as Clinical Cancer Research, Biochemical and Biophysical Research Communications and Journal of Cell Science.

In The Last Decade

Guokun Wang

35 papers receiving 842 citations

Peers

Guokun Wang

PRM

CCM

ONCOL

Yong Qiang China

Philip Koh Australia

Fangbao Ding China

Qiyuan Zhou United States

Yanhui Zhang China

Marco De Martino Italy

Monika Maleszewska Germany

Yong Qiang China

Guokun Wang

375 ×0.7

281 ×0.7

108 ×0.8

PRM

65 ×0.6

CCM

61 ×0.8

ONCOL

Citations per year, relative to Guokun Wang Guokun Wang (= 1×) peers Yong Qiang

Countries citing papers authored by Guokun Wang

Since Specialization

Citations

This map shows the geographic impact of Guokun Wang'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 Guokun Wang with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Guokun Wang more than expected).

Fields of papers citing papers by Guokun Wang

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Guokun Wang. 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 Guokun Wang. The network helps show where Guokun Wang may publish in the future.

Co-authorship network of co-authors of Guokun Wang

This figure shows the co-authorship network connecting the top 25 collaborators of Guokun Wang. A scholar is included among the top collaborators of Guokun Wang based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Guokun Wang. Guokun Wang is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

Liu, Lu, et al.. (2025). Systematic Engineering of Komagataella phaffii for Efficient Production of Sweet‐Tasting Protein Brazzein. Biotechnology Journal. 20(6). e70046–e70046.

Yang, Fan, Suxuan Liu, Ying Gu, et al.. (2022). MicroRNA-22 promoted osteogenic differentiation of valvular interstitial cells by inhibiting CAB39 expression during aortic valve calcification. Cellular and Molecular Life Sciences. 79(3). 146–146. 10 indexed citations

Yu, Manli, et al.. (2022). Therapeutic overexpression of miR-92a-2-5p ameliorated cardiomyocyte oxidative stress injury in the development of diabetic cardiomyopathy. Cellular & Molecular Biology Letters. 27(1). 85–85. 17 indexed citations

Yang, Fan, et al.. (2021). Di-2-ethylhexyl phthalate induces heart looping disorders during zebrafish development. Toxicology and Industrial Health. 37(7). 391–397. 13 indexed citations

Shen, Quanquan, Qian Chen, Yang Liu, et al.. (2021). Aspirin relieves the calcification of aortic smooth muscle cells by enhancing the heat shock response. Pharmaceutical Biology. 60(1). 17–24. 8 indexed citations

Xu, Xiangyang, et al.. (2021). A novel method to obtain rat aortic media for primary culture of rat aortic smooth muscle cells. In Vitro Cellular & Developmental Biology - Animal. 57(7). 726–734. 2 indexed citations

Wang, Yang, Xiang Fei, Zhigang Song, et al.. (2020). All-Trans Retinoic Acid Prevented Vein Grafts Stenosis by Inhibiting Rb-E2F Mediated Cell Cycle Progression and KLF5-RARα Interaction in Human Vein Smooth Muscle Cells. Cardiovascular Drugs and Therapy. 35(1). 103–111. 7 indexed citations

Li, Yang, et al.. (2020). Impact of a Higher Body Mass Index on Prolonged Intubation in Patients Undergoing Surgery for Acute Thoracic Aortic Dissection. Heart Lung and Circulation. 29(11). 1725–1732. 15 indexed citations

Yu, Xiao, Yudong Sun, Xiang Ma, et al.. (2020). MicroRNA-22 Inhibits the Apoptosis of Vascular Smooth Muscle Cell by Targeting p38MAPKα in Vascular Remodeling of Aortic Dissection. Molecular Therapy — Nucleic Acids. 22. 1051–1062. 22 indexed citations

10.

Liu, Yun, et al.. (2019). CALD1, CNN1, and TAGLN identified as potential prognostic molecular markers of bladder cancer by bioinformatics analysis. Medicine. 98(2). e13847–e13847. 32 indexed citations

11.

Zhou, Wei, Guokun Wang, Yaoyang Liu, et al.. (2019). Outcomes and risk factors of postoperative hepatic dysfunction in patients undergoing acute type A aortic dissection surgery. Journal of Thoracic Disease. 11(8). 3225–3233. 16 indexed citations

12.

Gu, Ying, Fan Yang, Yang Li, et al.. (2019). Microarray analysis and functional characterization revealed NEDD4-mediated cardiomyocyte autophagy induced by angiotensin II. Cell Stress and Chaperones. 24(1). 203–212. 5 indexed citations

13.

Wang, Xue, et al.. (2017). MicroRNA‐22 Promoted Osteogenic Differentiation of Human Periodontal Ligament Stem Cells by Targeting HDAC6. Journal of Cellular Biochemistry. 118(7). 1653–1658. 42 indexed citations

14.

Yan, Yan, Mengwei Tan, Xiang Xue, et al.. (2016). Involvement of Oct4 in the pathogenesis of thoracic aortic dissection via inducing the dedifferentiated phenotype of human aortic smooth muscle cells by directly upregulating KLF5. Journal of Thoracic and Cardiovascular Surgery. 152(3). 820–829.e4. 16 indexed citations

15.

Wang, Yang, Zhimin Zhao, Guanxin Zhang, et al.. (2016). Dynamic autophagic activity affected the development of thoracic aortic dissection by regulating functional properties of smooth muscle cells. Biochemical and Biophysical Research Communications. 479(2). 358–364. 22 indexed citations

16.

Li, Guoran, Guokun Wang, Liangliang Ma, et al.. (2016). miR-22 regulates starvation-induced autophagy and apoptosis in cardiomyocytes by targeting p38α. Biochemical and Biophysical Research Communications. 478(3). 1165–1172. 25 indexed citations

17.

Liao, Weilin, Mengwei Tan, Yang Yuan, et al.. (2015). Brahma-related gene 1 inhibits proliferation and migration of human aortic smooth muscle cells by directly up-regulating Ras-related associated with diabetes in the pathophysiologic processes of aortic dissection. Journal of Thoracic and Cardiovascular Surgery. 150(5). 1292–1301.e2. 19 indexed citations

18.

Zhang, Ben, et al.. (2015). HSF1 and NF-κB p65 participate in the process of exercise preconditioning attenuating pressure overload-induced pathological cardiac hypertrophy. Biochemical and Biophysical Research Communications. 460(3). 622–627. 16 indexed citations

19.

Li, Lei, Yiqi Du, Xiangyu Kong, et al.. (2013). Lamin B1 Is a Novel Therapeutic Target of Betulinic Acid in Pancreatic Cancer. Clinical Cancer Research. 19(17). 4651–4661. 85 indexed citations

20.

Wu, Feng, Yihua Qiu, Jianzhong Zhang, et al.. (2013). Activation of receptor for advanced glycation end products contributes to aortic remodeling and endothelial dysfunction in sinoaortic denervated rats. Atherosclerosis. 229(2). 287–294. 26 indexed citations

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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