Current and future directions in network biology

Marinka Zitnik; Michelle M. Li; Aydin Wells; Kimberly Glass; Deisy Morselli Gysi; Arjun Krishnan; T. M. Murali; Predrag Radivojac; Sushmita Roy; Anaïs Baudot; Serdar Bozdag; Danny Z. Chen; Lenore Cowen; Kapil Devkota; Anthony Gitter; Sara J.C. Gosline; Pengfei Gu; Pietro H. Guzzi; Heng Huang; Meng Jiang; Ziynet Nesibe Kesimoglu; Mehmet Koyuturk; Jian Ma; Alexander R. Pico; Natasa Przulj; Teresa M. Przytycka; Benjamin J. Raphael; Anna Ritz; Roded Sharan; Yang Shen; Mona Singh; Donna K. Slonim; Hanghang Tong; Xinan Holly Yang; Byung Jun Yoon; Haiyuan Yu; Tijana Milenkovic

doi:10.1093/bioadv/vbae099

Current and future directions in network biology

Marinka Zitnik, Michelle M. Li, Aydin Wells, Kimberly Glass, Deisy Morselli Gysi, Arjun Krishnan, T. M. Murali, Predrag Radivojac, Sushmita Roy, Anaïs Baudot, Serdar Bozdag, Danny Z. Chen, Lenore Cowen, Kapil Devkota, Anthony Gitter, Sara J.C. Gosline, Pengfei Gu, Pietro H. Guzzi, Heng Huang, Meng JiangZiynet Nesibe Kesimoglu, Mehmet Koyuturk, Jian Ma, Alexander R. Pico, Natasa Przulj, Teresa M. Przytycka, Benjamin J. Raphael, Anna Ritz, Roded Sharan, Yang Shen, Mona Singh, Donna K. Slonim, Hanghang Tong, Xinan Holly Yang, Byung Jun Yoon, Haiyuan Yu, Tijana Milenkovic^*

^*Corresponding author for this work

School of Computer Science

Research output: Contribution to journal › Review article › peer-review

7 Scopus citations

Abstract

Summary: Network biology is an interdisciplinary field bridging computational and biological sciences that has proved pivotal in advancing the understanding of cellular functions and diseases across biological systems and scales. Although the field has been around for two decades, it remains nascent. It has witnessed rapid evolution, accompanied by emerging challenges. These stem from various factors, notably the growing complexity and volume of data together with the increased diversity of data types describing different tiers of biological organization. We discuss prevailing research directions in network biology, focusing on molecular/cellular networks but also on other biological network types such as biomedical knowledge graphs, patient similarity networks, brain networks, and social/contact networks relevant to disease spread. In more detail, we highlight areas of inference and comparison of biological networks, multimodal data integration and heterogeneous networks, higher-order network analysis, machine learning on networks, and network-based personalized medicine. Following the overview of recent breakthroughs across these five areas, we offer a perspective on future directions of network biology. Additionally, we discuss scientific communities, educational initiatives, and the importance of fostering diversity within the field. This article establishes a roadmap for an immediate and long-term vision for network biology.

Original language	English
Article number	vbae099
Journal	Bioinformatics Advances
Volume	4
Issue number	1
DOIs	https://doi.org/10.1093/bioadv/vbae099
State	Published - 2024

Funding

Funders	Funder number
U.S. National Library of Medicine
National Science Foundation	CCF-1941447
U.S. Department of Energy	DE-AC05
National Institutes of Health	LM200887-16

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/bioadv/vbae099

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Zitnik, M., Li, M. M., Wells, A., Glass, K., Gysi, D. M., Krishnan, A., Murali, T. M., Radivojac, P., Roy, S., Baudot, A., Bozdag, S., Chen, D. Z., Cowen, L., Devkota, K., Gitter, A., Gosline, S. J. C., Gu, P., Guzzi, P. H., Huang, H., ... Milenkovic, T. (2024). Current and future directions in network biology. Bioinformatics Advances, 4(1), Article vbae099. https://doi.org/10.1093/bioadv/vbae099

@article{3212f73942c043c99b62e55942a9c631,

title = "Current and future directions in network biology",

abstract = "Summary: Network biology is an interdisciplinary field bridging computational and biological sciences that has proved pivotal in advancing the understanding of cellular functions and diseases across biological systems and scales. Although the field has been around for two decades, it remains nascent. It has witnessed rapid evolution, accompanied by emerging challenges. These stem from various factors, notably the growing complexity and volume of data together with the increased diversity of data types describing different tiers of biological organization. We discuss prevailing research directions in network biology, focusing on molecular/cellular networks but also on other biological network types such as biomedical knowledge graphs, patient similarity networks, brain networks, and social/contact networks relevant to disease spread. In more detail, we highlight areas of inference and comparison of biological networks, multimodal data integration and heterogeneous networks, higher-order network analysis, machine learning on networks, and network-based personalized medicine. Following the overview of recent breakthroughs across these five areas, we offer a perspective on future directions of network biology. Additionally, we discuss scientific communities, educational initiatives, and the importance of fostering diversity within the field. This article establishes a roadmap for an immediate and long-term vision for network biology.",

author = "Marinka Zitnik and Li, {Michelle M.} and Aydin Wells and Kimberly Glass and Gysi, {Deisy Morselli} and Arjun Krishnan and Murali, {T. M.} and Predrag Radivojac and Sushmita Roy and Ana{\"i}s Baudot and Serdar Bozdag and Chen, {Danny Z.} and Lenore Cowen and Kapil Devkota and Anthony Gitter and Gosline, {Sara J.C.} and Pengfei Gu and Guzzi, {Pietro H.} and Heng Huang and Meng Jiang and Kesimoglu, {Ziynet Nesibe} and Mehmet Koyuturk and Jian Ma and Pico, {Alexander R.} and Natasa Przulj and Przytycka, {Teresa M.} and Raphael, {Benjamin J.} and Anna Ritz and Roded Sharan and Yang Shen and Mona Singh and Slonim, {Donna K.} and Hanghang Tong and Yang, {Xinan Holly} and Yoon, {Byung Jun} and Haiyuan Yu and Tijana Milenkovic",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024. Published by Oxford University Press.",

year = "2024",

doi = "10.1093/bioadv/vbae099",

language = "אנגלית",

volume = "4",

journal = "Bioinformatics Advances",

issn = "2635-0041",

publisher = "Oxford University Press",

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Zitnik, M, Li, MM, Wells, A, Glass, K, Gysi, DM, Krishnan, A, Murali, TM, Radivojac, P, Roy, S, Baudot, A, Bozdag, S, Chen, DZ, Cowen, L, Devkota, K, Gitter, A, Gosline, SJC, Gu, P, Guzzi, PH, Huang, H, Jiang, M, Kesimoglu, ZN, Koyuturk, M, Ma, J, Pico, AR, Przulj, N, Przytycka, TM, Raphael, BJ, Ritz, A, Sharan, R, Shen, Y, Singh, M, Slonim, DK, Tong, H, Yang, XH, Yoon, BJ, Yu, H & Milenkovic, T 2024, 'Current and future directions in network biology', Bioinformatics Advances, vol. 4, no. 1, vbae099. https://doi.org/10.1093/bioadv/vbae099

TY - JOUR

T1 - Current and future directions in network biology

AU - Zitnik, Marinka

AU - Li, Michelle M.

AU - Wells, Aydin

AU - Glass, Kimberly

AU - Gysi, Deisy Morselli

AU - Krishnan, Arjun

AU - Murali, T. M.

AU - Radivojac, Predrag

AU - Roy, Sushmita

AU - Baudot, Anaïs

AU - Bozdag, Serdar

AU - Chen, Danny Z.

AU - Cowen, Lenore

AU - Devkota, Kapil

AU - Gitter, Anthony

AU - Gosline, Sara J.C.

AU - Gu, Pengfei

AU - Guzzi, Pietro H.

AU - Huang, Heng

AU - Jiang, Meng

AU - Kesimoglu, Ziynet Nesibe

AU - Koyuturk, Mehmet

AU - Ma, Jian

AU - Pico, Alexander R.

AU - Przulj, Natasa

AU - Przytycka, Teresa M.

AU - Raphael, Benjamin J.

AU - Ritz, Anna

AU - Sharan, Roded

AU - Shen, Yang

AU - Singh, Mona

AU - Slonim, Donna K.

AU - Tong, Hanghang

AU - Yang, Xinan Holly

AU - Yoon, Byung Jun

AU - Yu, Haiyuan

AU - Milenkovic, Tijana

PY - 2024

Y1 - 2024

N2 - Summary: Network biology is an interdisciplinary field bridging computational and biological sciences that has proved pivotal in advancing the understanding of cellular functions and diseases across biological systems and scales. Although the field has been around for two decades, it remains nascent. It has witnessed rapid evolution, accompanied by emerging challenges. These stem from various factors, notably the growing complexity and volume of data together with the increased diversity of data types describing different tiers of biological organization. We discuss prevailing research directions in network biology, focusing on molecular/cellular networks but also on other biological network types such as biomedical knowledge graphs, patient similarity networks, brain networks, and social/contact networks relevant to disease spread. In more detail, we highlight areas of inference and comparison of biological networks, multimodal data integration and heterogeneous networks, higher-order network analysis, machine learning on networks, and network-based personalized medicine. Following the overview of recent breakthroughs across these five areas, we offer a perspective on future directions of network biology. Additionally, we discuss scientific communities, educational initiatives, and the importance of fostering diversity within the field. This article establishes a roadmap for an immediate and long-term vision for network biology.

AB - Summary: Network biology is an interdisciplinary field bridging computational and biological sciences that has proved pivotal in advancing the understanding of cellular functions and diseases across biological systems and scales. Although the field has been around for two decades, it remains nascent. It has witnessed rapid evolution, accompanied by emerging challenges. These stem from various factors, notably the growing complexity and volume of data together with the increased diversity of data types describing different tiers of biological organization. We discuss prevailing research directions in network biology, focusing on molecular/cellular networks but also on other biological network types such as biomedical knowledge graphs, patient similarity networks, brain networks, and social/contact networks relevant to disease spread. In more detail, we highlight areas of inference and comparison of biological networks, multimodal data integration and heterogeneous networks, higher-order network analysis, machine learning on networks, and network-based personalized medicine. Following the overview of recent breakthroughs across these five areas, we offer a perspective on future directions of network biology. Additionally, we discuss scientific communities, educational initiatives, and the importance of fostering diversity within the field. This article establishes a roadmap for an immediate and long-term vision for network biology.

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JO - Bioinformatics Advances

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ER -

Current and future directions in network biology

Abstract

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UN SDGs

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