Lini Zhao

1.5k total citations
23 papers, 936 citations indexed

About

Lini Zhao is a scholar working on Cancer Research, Molecular Biology and Neurology. According to data from OpenAlex, Lini Zhao has authored 23 papers receiving a total of 936 indexed citations (citations by other indexed papers that have themselves been cited), including 16 papers in Cancer Research, 14 papers in Molecular Biology and 4 papers in Neurology. Recurrent topics in Lini Zhao's work include Cancer-related molecular mechanisms research (13 papers), MicroRNA in disease regulation (11 papers) and Circular RNAs in diseases (6 papers). Lini Zhao is often cited by papers focused on Cancer-related molecular mechanisms research (13 papers), MicroRNA in disease regulation (11 papers) and Circular RNAs in diseases (6 papers). Lini Zhao collaborates with scholars based in China, Saudi Arabia and Japan. Lini Zhao's co-authors include Yixue Xue, Jun Ma, Yunhui Liu, Libo Liu, Jian Zheng, Zhen Li, Heng Cai, Xiaobai Liu, Ping Wang and Qianru He and has published in prestigious journals such as Journal of Cerebral Blood Flow & Metabolism, Molecular Cancer and Journal of Cellular Physiology.

In The Last Decade

Lini Zhao

22 papers receiving 925 citations

Peers

Lini Zhao

NEURO

PRM

ONCOL

Guangqiang Li China

Xiaoming Zhong China

Xuemei Xie United States

Jihoon Han South Korea

Gülşah Çeçener Türkiye

Peng Peng China

Yang Zheng China

Guangqiang Li China

Lini Zhao

489 ×0.7

183 ×0.3

60 ×0.6

NEURO

62 ×1.0

PRM

61 ×1.0

ONCOL

Citations per year, relative to Lini Zhao Lini Zhao (= 1×) peers Guangqiang Li

Countries citing papers authored by Lini Zhao

Since Specialization

Citations

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

Fields of papers citing papers by Lini Zhao

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Lini Zhao

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

All Works

Sort: Min cites: Since: Top N: Style:

20 of 20 papers shown

Hou, Yanjun, Chaoyang Zhao, Shengnan Liu, et al.. (2025). Establishment of a nomogram model based on immune-related genes using machine learning for aortic dissection diagnosis and immunomodulation assessment. International Journal of Medical Sciences. 22(4). 873–886.

Zhang, Na, Xinxin Zhou, Libo Liu, et al.. (2021). Dissolving Polymer Microneedles for Transdermal Delivery of Insulin. Frontiers in Pharmacology. 12. 719905–719905. 48 indexed citations

Shen, Shuyuan, Chunqing Yang, Xiaobai Liu, et al.. (2020). RBFOX1 Regulates the Permeability of the Blood-Tumor Barrier via the LINC00673/MAFF Pathway. Molecular Therapy — Oncolytics. 17. 138–152. 15 indexed citations

Yang, Zhihang, Na Zhang, Teng Ma, et al.. (2020). Engineered bovine serum albumin-based nanoparticles with pH-sensitivity for doxorubicin delivery and controlled release. Drug Delivery. 27(1). 1156–1164. 47 indexed citations

Li, Hua, Shuyuan Shen, Xuelei Ruan, et al.. (2019). Biosynthetic CircRNA_001160 induced by PTBP1 regulates the permeability of BTB via the CircRNA_001160/miR-195-5p/ETV1 axis. Cell Death and Disease. 10(12). 960–960. 34 indexed citations

He, Qianru, Lini Zhao, Xiaobai Liu, et al.. (2019). MOV10 binding circ-DICER1 regulates the angiogenesis of glioma via miR-103a-3p/miR-382-5p mediated ZIC4 expression change. Journal of Experimental & Clinical Cancer Research. 38(1). 9–9. 93 indexed citations

Jin, Ge, Dajun Zhang, Lini Zhao, et al.. (2019). Natural silibinin modulates amyloid precursor protein processing and amyloid-β protein clearance in APP/PS1 mice. The Journal of Physiological Sciences. 69(4). 643–652. 23 indexed citations

Ma, Jun, Yunhui Liu, Shuyuan Shen, et al.. (2018). Mechanism of piR-DQ590027/MIR17HG regulating the permeability of glioma conditioned normal BBB. Journal of Experimental & Clinical Cancer Research. 37(1). 246–246. 42 indexed citations

Shen, Shuyuan, Hai Yu, Xiaobai Liu, et al.. (2017). PIWIL1/piRNA-DQ593109 Regulates the Permeability of the Blood-Tumor Barrier via the MEG3/miR-330-5p/RUNX3 Axis. Molecular Therapy — Nucleic Acids. 10. 412–425. 60 indexed citations

10.

Yu, Hai, Jian Zheng, Xiaobai Liu, et al.. (2017). Transcription Factor NFAT5 Promotes Glioblastoma Cell-driven Angiogenesis via SBF2-AS1/miR-338-3p-Mediated EGFL7 Expression Change. Frontiers in Molecular Neuroscience. 10. 301–301. 50 indexed citations

11.

Cao, Shuo, Jun Ma, Yunhui Liu, et al.. (2017). Knockdown of SOX2OT inhibits the malignant biological behaviors of glioblastoma stem cells via up-regulating the expression of miR-194-5p and miR-122. Molecular Cancer. 16(1). 171–171. 125 indexed citations

12.

Zhao, Lini, Ping Wang, Yunhui Liu, et al.. (2016). MiR-383 inhibits proliferation, migration and angiogenesis of glioma-exposed endothelial cells in vitro via VEGF-mediated FAK and Src signaling pathways. Cellular Signalling. 30. 142–153. 31 indexed citations

13.

Ma, Jun, Fanjie Meng, Shuai Li, et al.. (2015). Autophagy Induction by Endothelial-Monocyte Activating Polypeptide II Contributes to the Inhibition of Malignant Biological Behaviors by the Combination of EMAP II with Rapamycin in Human Glioblastoma. Frontiers in Molecular Neuroscience. 8. 74–74. 18 indexed citations

14.

Ma, Jun, Yilong Yao, Ping Wang, et al.. (2014). MiR-152 functions as a tumor suppressor in glioblastoma stem cells by targeting Krüppel-like factor 4. Cancer Letters. 355(1). 85–95. 82 indexed citations

15.

Zhao, Yingyu, Lini Zhao, Ping Wang, et al.. (2014). MiR-18a increased the permeability of BTB via RUNX1 mediated down-regulation of ZO-1, occludin and claudin-5. Cellular Signalling. 27(1). 156–167. 41 indexed citations

16.

Zhao, Lini, Ping Wang, Yunhui Liu, Jun Ma, & Yixue Xue. (2014). miR‐34c Regulates the Permeability of Blood–Tumor Barrier via MAZ‐Mediated Expression Changes of ZO‐1, Occludin, and Claudin‐5. Journal of Cellular Physiology. 230(3). 716–731. 35 indexed citations

17.

Ma, Jun, Yilong Yao, Ping Wang, et al.. (2014). MiR-181a Regulates Blood-Tumor Barrier Permeability by Targeting Krüppel-Like Factor 6. Journal of Cerebral Blood Flow & Metabolism. 34(11). 1826–1836. 56 indexed citations

18.

Liu, Libo, et al.. (2014). Permeability of the blood–tumor barrier is enhanced by combining vascular endothelial growth factor with papaverine. Journal of Neuroscience Research. 92(6). 703–713. 16 indexed citations

19.

Zhao, Lini, et al.. (2010). Vascular Endothelial Growth Factor Increases Permeability of the Blood–Tumor Barrier via Caveolae-Mediated Transcellular Pathway. Journal of Molecular Neuroscience. 44(2). 122–129. 33 indexed citations

20.

Wang, Wei, et al.. (2009). [Effect of volatile oil from nutmeg on liver microsomal cytochrome P450 in mice].. PubMed. 34(4). 447–9. 1 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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