Roland Madadjim scite author profile

Roland Madadjim

3Publications

1Citation Statement Received

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104

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University of Nebraska–Lincoln

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Elucidation of dynamic microRNA regulations in cancer progression using integrative machine learning

Dogan

Hakguder

Madadjim

et al. 2021

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Motivation Empowered by advanced genomics discovery tools, recent biomedical research has produced a massive amount of genomic data on (post-)transcriptional regulations related to transcription factors, microRNAs, long non-coding RNAs, epigenetic modifications and genetic variations. Computational modeling, as an essential research method, has generated promising testable quantitative models that represent complex interplay among different gene regulatory mechanisms based on these data in many biological systems. However, given the dynamic changes of interactome in chaotic systems such as cancers, and the dramatic growth of heterogeneous data on this topic, such promise has encountered unprecedented challenges in terms of model complexity and scalability. In this study, we introduce a new integrative machine learning approach that can infer multifaceted gene regulations in cancers with a particular focus on microRNA regulation. In addition to new strategies for data integration and graphical model fusion, a supervised deep learning model was integrated to identify conditional microRNA-mRNA interactions across different cancer stages. Results In a case study of human breast cancer, we have identified distinct gene regulatory networks associated with four progressive stages. The subsequent functional analysis focusing on microRNA-mediated dysregulation across stages has revealed significant changes in major cancer hallmarks, as well as novel pathological signaling and metabolic processes, which shed light on microRNAs’ regulatory roles in breast cancer progression. We believe this integrative model can be a robust and effective discovery tool to understand key regulatory characteristics in complex biological systems. Availability http://sbbi-panda.unl.edu/pin/

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Computational learning of small RNA regulation in pancreatic cancer progression

Madadjim

Dogan

Cui

2022

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Implicit Dedupe Learning Method on Contextual Data Quality Problems

Ngueilbaye

Wang

Mahamat

et al. 2021

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Roland Madadjim

Elucidation of dynamic microRNA regulations in cancer progression using integrative machine learning

Computational learning of small RNA regulation in pancreatic cancer progression

Implicit Dedupe Learning Method on Contextual Data Quality Problems

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