Xiaxing Deng

2.3k total citations
27 papers, 1.1k citations indexed

About

Xiaxing Deng is a scholar working on Molecular Biology, Cancer Research and Oncology. According to data from OpenAlex, Xiaxing Deng has authored 27 papers receiving a total of 1.1k indexed citations (citations by other indexed papers that have themselves been cited), including 21 papers in Molecular Biology, 16 papers in Cancer Research and 6 papers in Oncology. Recurrent topics in Xiaxing Deng's work include RNA modifications and cancer (14 papers), Cancer-related molecular mechanisms research (13 papers) and MicroRNA in disease regulation (8 papers). Xiaxing Deng is often cited by papers focused on RNA modifications and cancer (14 papers), Cancer-related molecular mechanisms research (13 papers) and MicroRNA in disease regulation (8 papers). Xiaxing Deng collaborates with scholars based in China. Xiaxing Deng's co-authors include Chenghong Peng, Qian Zhan, Hao Chen, Junjie Xie, Xinjing Wang, Dongfeng Cheng, Hongwei Li, Baiyong Shen, Baiyong Shen and Hao Chen and has published in prestigious journals such as Cancer Research, Oncogene and Molecular Cancer.

In The Last Decade

Xiaxing Deng

27 papers receiving 1.1k citations

Peers

Xiaxing Deng

ONCOL

SURGE

EPIDE

Xiao Feng China

Chun-Cai Gu China

Ben Yue China

Jianning Zhai Hong Kong

Guanli Huang China

Xiao Feng China

Xiaxing Deng

580 ×0.6

630 ×0.7

149 ×1.0

ONCOL

72 ×1.1

SURGE

53 ×0.8

EPIDE

Citations per year, relative to Xiaxing Deng Xiaxing Deng (= 1×) peers Xiao Feng

Countries citing papers authored by Xiaxing Deng

Since Specialization

Citations

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

Fields of papers citing papers by Xiaxing Deng

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Xiaxing Deng

This figure shows the co-authorship network connecting the top 25 collaborators of Xiaxing Deng. A scholar is included among the top collaborators of Xiaxing Deng 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 Xiaxing Deng. Xiaxing Deng 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

Zhai, Shuyu, et al.. (2025). KLF6-mediated recruitment of the p300 complex enhances H3K23su and cooperatively upregulates SEMA3C with FOSL2 to drive 5-FU resistance in colon cancer cells. Experimental & Molecular Medicine. 57(3). 667–685. 4 indexed citations

Shi, Minmin, et al.. (2024). OSBPL10‐CNBP axis mediates hypoxia‐induced pancreatic cancer development. BioFactors. 51(1). e2124–e2124. 1 indexed citations

Zhai, Shuyu, Yuchen Ji, Zehui Zhang, et al.. (2023). A microprotein N1DARP encoded by LINC00261 promotes Notch1 intracellular domain (N1ICD) degradation via disrupting USP10-N1ICD interaction to inhibit chemoresistance in Notch1-hyperactivated pancreatic cancer. Cell Discovery. 9(1). 95–95. 25 indexed citations

Wang, Xinjing, Xiayang Ying, Shuyu Zhai, et al.. (2023). Hypoxia-induced long non-coding RNA LINC00460 promotes p53 mediated proliferation and metastasis of pancreatic cancer by regulating the miR-4689/UBE2V1 axis and sequestering USP10. International Journal of Medical Sciences. 20(10). 1339–1357. 7 indexed citations

Wang, Xuelong, Youwei Zhu, Yizhi Cao, et al.. (2022). The CTCF/LncRNA‐PACERR complex recruits E1A binding protein p300 to induce pro‐tumour macrophages in pancreatic ductal adenocarcinoma via directly regulating PTGS2 expression. Clinical and Translational Medicine. 12(2). e654–e654. 32 indexed citations

Wang, Xinjing, Shuyu Zhai, Minmin Shi, et al.. (2022). Hypoxia-induced exosomal circPDK1 promotes pancreatic cancer glycolysis via c-myc activation by modulating miR-628-3p/BPTF axis and degrading BIN1. Journal of Hematology & Oncology. 15(1). 128–128. 107 indexed citations

Xu, Zhiwei, Junjie Xie, Xiaxing Deng, et al.. (2021). Oncogene APOL1 promotes proliferation and inhibits apoptosis via activating NOTCH1 signaling pathway in pancreatic cancer. Cell Death and Disease. 12(8). 760–760. 29 indexed citations

Weng, Yuanchi, Yue Wang, Xiaxing Deng, et al.. (2020). <p>miR-934 as a Prognostic Marker Facilitates Cell Proliferation and Migration of Pancreatic Tumor by Targeting PROX1</p>. OncoTargets and Therapy. Volume 13. 3389–3399. 11 indexed citations

Liu, Yuanbin, Zhen Huo, Weishen Wang, et al.. (2020). Construction and integrated analysis of a lncRNA-associated competing endogenous RNA network reveal functional lncRNAs in pancreatic cancer. Translational Cancer Research. 9(5). 3643–3657. 4 indexed citations

10.

Zhai, Shuyu, Zhiwei Xu, Junjie Xie, et al.. (2020). Epigenetic silencing of LncRNA LINC00261 promotes c-myc-mediated aerobic glycolysis by regulating miR-222-3p/HIPK2/ERK axis and sequestering IGF2BP1. Oncogene. 40(2). 277–291. 82 indexed citations

11.

Huo, Zhen, Shuyu Zhai, Yuanchi Weng, et al.. (2019). <p>PRPF40A as a potential diagnostic and prognostic marker is upregulated in pancreatic cancer tissues and cell lines: an integrated bioinformatics data analysis</p>. OncoTargets and Therapy. Volume 12. 5037–5051. 11 indexed citations

12.

Li, Hongzhe, Xinjing Wang, Chenlei Wen, et al.. (2017). Long noncoding RNA NORAD, a novel competing endogenous RNA, enhances the hypoxia-induced epithelial-mesenchymal transition to promote metastasis in pancreatic cancer. Molecular Cancer. 16(1). 169–169. 192 indexed citations

13.

Gu, Jiangning, Di Wang, Jiaqiang Zhang, et al.. (2016). GFRα2 prompts cell growth and chemoresistance through down-regulating tumor suppressor gene PTEN via Mir-17-5p in pancreatic cancer. Cancer Letters. 380(2). 434–441. 48 indexed citations

14.

Li, Tao, Junjie Xie, Chuan Shen, et al.. (2015). Amplification of Long Noncoding RNA ZFAS1 Promotes Metastasis in Hepatocellular Carcinoma. Cancer Research. 75(15). 3181–3191. 260 indexed citations

15.

Zhan, Qian, Yuan Fang, Xiaxing Deng, et al.. (2015). The Interplay Between miR-148a and DNMT1 Might be Exploited for Pancreatic Cancer Therapy. Cancer Investigation. 33(7). 267–275. 23 indexed citations

16.

Lu, Xiongxiong, Jiaxin Hu, Yan Fang, et al.. (2014). A case-control study indicates that the TRIB1 gene is associated with pancreatic cancer. Genetics and Molecular Research. 13(3). 6142–6147. 3 indexed citations

17.

Lu, Xiongxiong, Yuan Fang, Zhengting Wang, et al.. (2013). Downregulation of gas5 increases pancreatic cancer cell proliferation by regulating CDK6. Cell and Tissue Research. 354(3). 891–896. 122 indexed citations

18.

Cheng, Lei, Sheng Yang, Yanqing Yang, et al.. (2012). Global gene expression and functional network analysis of gastric cancer identify extended pathway maps and GPRC5A as a potential biomarker. Cancer Letters. 326(1). 105–113. 43 indexed citations

19.

Yu, Yingyan, Xiaxing Deng, Jun Ji, et al.. (2005). [Sensitivity and specificity of granzyme B and perforin in diagnosing acute rejection after liver transplantation].. PubMed. 34(4). 198–201. 1 indexed citations

20.

Chen, Hao, Yingyan Yu, Mingjun Zhang, et al.. (2004). Protective effect of doxorubicin induced heat shock protein 72 on cold preservation injury of rat livers. World Journal of Gastroenterology. 10(9). 1375–1375. 6 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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