Xi Xiang

1.6k total citations
50 papers, 875 citations indexed

About

Xi Xiang is a scholar working on Molecular Biology, Surgery and Cancer Research. According to data from OpenAlex, Xi Xiang has authored 50 papers receiving a total of 875 indexed citations (citations by other indexed papers that have themselves been cited), including 26 papers in Molecular Biology, 10 papers in Surgery and 10 papers in Cancer Research. Recurrent topics in Xi Xiang's work include Cancer Genomics and Diagnostics (8 papers), CRISPR and Genetic Engineering (7 papers) and Reproductive Biology and Fertility (5 papers). Xi Xiang is often cited by papers focused on Cancer Genomics and Diagnostics (8 papers), CRISPR and Genetic Engineering (7 papers) and Reproductive Biology and Fertility (5 papers). Xi Xiang collaborates with scholars based in China, Denmark and United States. Xi Xiang's co-authors include Yonglun Luo, Birgitte Regenberg, Julie B. Noer, Guoliang Xia, Lars Bolund, Meijia Zhang, Xiuqing Zhang, Peng Han, Hua Zhang and Shan Chen and has published in prestigious journals such as Nucleic Acids Research, Advanced Materials and Development.

In The Last Decade

Xi Xiang

47 papers receiving 860 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Xi Xiang China 19 473 174 161 155 99 50 875
Yaping Yan China 17 339 0.7× 108 0.6× 82 0.5× 105 0.7× 87 0.9× 58 750
Li Ding China 22 713 1.5× 263 1.5× 102 0.6× 137 0.9× 118 1.2× 80 1.3k
Maria Garofalo Italy 16 285 0.6× 89 0.5× 119 0.7× 70 0.5× 113 1.1× 32 799
Piotr Celichowski Poland 15 358 0.8× 89 0.5× 148 0.9× 276 1.8× 53 0.5× 70 721
Kuang‐Hsiang Chuang United States 14 424 0.9× 178 1.0× 163 1.0× 83 0.5× 65 0.7× 15 1.2k
Hang Zhou China 16 317 0.7× 103 0.6× 93 0.6× 64 0.4× 104 1.1× 40 793
Yongjie Chen China 17 374 0.8× 138 0.8× 97 0.6× 42 0.3× 47 0.5× 66 791
Yucel Akgul United States 15 278 0.6× 102 0.6× 63 0.4× 204 1.3× 103 1.0× 34 1.0k
Masatoshi Komiyama Japan 19 526 1.1× 59 0.3× 153 1.0× 135 0.9× 162 1.6× 63 1.2k

Countries citing papers authored by Xi Xiang

Since Specialization
Citations

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

Fields of papers citing papers by Xi Xiang

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Xi Xiang

This figure shows the co-authorship network connecting the top 25 collaborators of Xi Xiang. A scholar is included among the top collaborators of Xi Xiang 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 Xi Xiang. Xi Xiang is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Han, Peng, Wei Lv, Zhe Xu, et al.. (2025). Extrachromosomal circular miRNA-gene amplifications contribute to the renal cancer phenotype. Cell Reports. 44(12). 116660–116660. 1 indexed citations
2.
Yu, Jiaying, Shaohua Yang, Lei Huang, et al.. (2025). SHP2 inhibition and adjuvant therapy synergistically target KIT‐mutant GISTs via ERK1/2‐regulated GSK3β/cyclin D1 pathway. Clinical and Translational Medicine. 15(2). e70231–e70231. 1 indexed citations
3.
Xiang, Xi, Han Chen, Zixin Deng, et al.. (2025). Characterization of two diterpene synthases from Chitinophaga species. Tetrahedron. 191. 135091–135091.
4.
Xiang, Xi, Junqin Zong, Ling Li, et al.. (2025). Modulation of root surface charge and functional groups as a key mechanism of aluminum tolerance in centipedegrass (Eremochloa ophiuroides [Munro] Hack.). Plant Physiology and Biochemistry. 229(Pt D). 110673–110673.
5.
Wang, Zilong, et al.. (2024). Current Drug Resistance Mechanisms and Treatment Options in Gastrointestinal Stromal Tumors: Summary and Update. Current Treatment Options in Oncology. 25(11). 1390–1405. 3 indexed citations
6.
7.
Cao, Ping, et al.. (2024). Machine learning-based individualized survival prediction model for prognosis in osteosarcoma: Data from the SEER database. Medicine. 103(39). e39582–e39582. 3 indexed citations
8.
Zhang, Qing, Shuang Yang, Qiuyu Wu, et al.. (2023). Silica nanocarrier-mediated intracellular delivery of rapamycin promotes autophagy-mediated M2 macrophage polarization to regulate bone regeneration. Materials Today Bio. 20. 100623–100623. 30 indexed citations
9.
He, Junyu, Peng Han, Nian Liu, et al.. (2023). Plasma extrachromosomal circular DNA is a pathophysiological hallmark of short‐term intensive insulin therapy for type 2 diabetes. Clinical and Translational Medicine. 13(10). e1437–e1437. 13 indexed citations
10.
Noer, Julie B., et al.. (2022). Extrachromosomal circular DNA in cancer: history, current knowledge, and methods. Trends in Genetics. 38(7). 766–781. 76 indexed citations
11.
Xiang, Xi, Xiaoguang Pan, Zhanying Dong, et al.. (2021). Efficient correction of Duchenne muscular dystrophy mutations by SpCas9 and dual gRNAs. Molecular Therapy — Nucleic Acids. 24. 403–415. 22 indexed citations
12.
Zheng, Tianyu, Jinrong Huang, Xi Xiang, et al.. (2021). Systematical analysis reveals a strong cancer relevance of CREB1-regulated genes. Cancer Cell International. 21(1). 530–530. 18 indexed citations
13.
Li, Jie, Hongwei Dou, Xi Xiang, et al.. (2020). Low-Concentration Essential Amino Acids in PZM-3 Improve the Developmental Competence of Porcine Embryos Produced by Handmade Cloning. Cellular Reprogramming. 22(6). 282–290. 2 indexed citations
14.
Xiang, Xi, Conghui Li, Xi Chen, et al.. (2019). CRISPR/Cas9-Mediated Gene Tagging: A Step-by-Step Protocol. Methods in molecular biology. 1961. 255–269. 10 indexed citations
15.
Xiang, Xi, et al.. (2019). A rare content of congenital inguinal hernia: a case report of splenogonadal fusion. BMC Pediatrics. 19(1). 422–422. 8 indexed citations
16.
Dou, Hongwei, Xi Xiang, Li Lin, et al.. (2015). Factors Determining the Efficiency of Porcine Somatic Cell Nuclear Transfer: Data Analysis with Over 200,000 Reconstructed Embryos. Cellular Reprogramming. 17(6). 463–471. 32 indexed citations
17.
Teng, Zhen, Chao Wang, Yijing Wang, et al.. (2015). S100A8, An Oocyte‐Specific Chemokine, Directs the Migration of Ovarian Somatic Cells During Mouse Primordial Follicle Assembly. Journal of Cellular Physiology. 230(12). 2998–3008. 15 indexed citations
18.
Teng, Zhen, Chao Wang, Yijing Wang, et al.. (2015). Gap junctions are essential for murine primordial follicle assembly immediately before birth. Reproduction. 151(2). 105–115. 18 indexed citations
19.
Chen, Shan, Ying Hé, Fengyu Zhang, et al.. (2015). Elevated mitochondrial DNA copy number in peripheral blood cells is associated with childhood autism. BMC Psychiatry. 15(1). 50–50. 58 indexed citations
20.
Li, Zongchang, Jinsong Tang, Hong Li, et al.. (2014). Shorter telomere length in peripheral blood leukocytes is associated with childhood autism. Scientific Reports. 4(1). 7073–7073. 40 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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