Multi-scale cellular engineering: From molecules to organ-on-a-chip | Zendy

Ngan F. Huang | Zendy; Ovijit Chaudhuri | Zendy; Patrick Cahan | Zendy; Aijun Wang | Zendy; Adam J. Engler | Zendy; Yingxiao Wang | Zendy; Sanjay Kumar | Zendy; Ali Khademhosseini | Zendy; Song Li | Zendy

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Multi-scale cellular engineering: From molecules to organ-on-a-chip

Author(s) -

Ngan F. Huang,

Ovijit Chaudhuri,

Patrick Cahan,

Aijun Wang,

Adam J. Engler,

Yingxiao Wang,

Sanjay Kumar,

Ali Khademhosseini,

Song Li

Publication year - 2020

Publication title -

apl bioengineering

Language(s) - English

Resource type - Journals

ISSN - 2473-2877

DOI - 10.1063/1.5129788

Subject(s) - computer science , synthetic biology , nanotechnology , computational biology , biochemical engineering , data science , biology , engineering , materials science

Recent technological advances in cellular and molecular engineering have provided new insights into biology and enabled the design, manufacturing, and manipulation of complex living systems. Here, we summarize the state of advances at the molecular, cellular, and multi-cellular levels using experimental and computational tools. The areas of focus include intrinsically disordered proteins, synthetic proteins, spatiotemporally dynamic extracellular matrices, organ-on-a-chip approaches, and computational modeling, which all have tremendous potential for advancing fundamental and translational science. Perspectives on the current limitations and future directions are also described, with the goal of stimulating interest to overcome these hurdles using multi-disciplinary approaches.

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