A Pan-cancer Analysis Reveals the Tissue Specificity and Prognostic Impact
of Angiogenesis-associated Genes in Human Cancers

Liu, Wenbin; Bao, Zhenshen; Liao, Meilin; Wang, Dong; Huo, Yanhao; Li, Xianbin; Xu, Peng

doi:10.2174/1574893618666230518163353

CBIO

2023

DOI: 10.2174/1574893618666230518163353

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A Pan-cancer Analysis Reveals the Tissue Specificity and Prognostic Impact of Angiogenesis-associated Genes in Human Cancers

Wenbin Liu

Zhenshen Bao

Meilin Liao

et al.

Abstract: Introduction: Angiogenesis is one of the hallmarks of cancer and can impact the processes of cancer initiation, progression, and response to therapy. Background: Anti-angiogenic therapy is thus an encouraging therapeutic option to treat cancers, but the detailed angiogenic mechanisms and the association between angiogenesis and clinical outcome remain unknown in different cancers. Method: Here, we systematically assess the impacts of 82 angiogenesis-associated genes (AAGs) in tumor tissue specificity and p… Show more

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2024

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Gene expression ranking change based single sample pre-disease state detection

Bao,

Li,

et al. 2024

Front. Genet.

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IntroductionTo prevent disease, it is of great importance to detect the critical point (pre-disease state) when the biological system abruptly transforms from normal to disease state. However, rapid and accurate pre-disease state detection is still a challenge when there is only a single sample available. The state transition of the biological system is driven by the variation in regulations between genes.MethodsIn this study, we propose a rapid single-sample pre-disease state-identifying method based on the change in gene expression ranking, which can reflect the coordinated shifts between genes, that is, S-PCR. The R codes of S-PCR can be accessed at https://github.com/ZhenshenBao/S-PCR.ResultsThis model-free method is validated by the successful identification of pre-disease state for both simulated and five real datasets. The functional analyses of the pre-disease state-related genes identified by S-PCR also demonstrate the effectiveness of this computational approach. Furthermore, the time efficiency of S-PCR is much better than that of its peers.DiscussionHence, the proposed S-PCR approach holds immense potential for clinical applications in personalized disease diagnosis.

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Gene expression ranking change based single sample pre-disease state detection

Bao,

Li,

et al. 2024

Front. Genet.

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show abstract

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A Pan-cancer Analysis Reveals the Tissue Specificity and Prognostic Impact of Angiogenesis-associated Genes in Human Cancers

Cited by 1 publication

References 42 publications

Gene expression ranking change based single sample pre-disease state detection

Gene expression ranking change based single sample pre-disease state detection

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