Jazmin Ozsvar scite author profile

Elastic fibers are an important component of the extracellular matrix, providing stretch, resilience, and cell interactivity to a broad range of elastic tissues. Elastin makes up the majority of elastic fibers and is formed by the hierarchical assembly of its monomer, tropoelastin. Our understanding of key aspects of the assembly process have been unclear due to the intrinsic properties of elastin and tropoelastin that render them difficult to study. This review focuses on recent developments that have shaped our current knowledge of elastin assembly through understanding the relationship between tropoelastin’s structure and function.

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Freestanding hierarchical vascular structures engineered from ice

Wang

Ozsvar

Aghaei-Ghareh-Bolagh

et al. 2019

Biomaterials

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SmoXYB1C1Z of Mycobacterium sp. Strain NBB4: a Soluble Methane Monooxygenase (sMMO)-Like Enzyme, Active on C ₂ to C ₄ Alkanes and Alkenes

Martin

Ozsvar

Coleman

2014

Appl Environ Microbiol

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Elastin-based biomaterials and mesenchymal stem cells

et al. 2015

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Elastin is the dominant mammalian elastic protein found in soft tissue. Elastin-based biomaterials have the potential to repair elastic tissues by improving local elasticity and providing appropriate cellular interactions and signaling. Studies that combine these biomaterials with mesenchymal stem cells have demonstrated their capacity to also regenerate non-elastic tissue. Mesenchymal stem cell differentiation can be controlled by their immediate environment, and their sensitivity to elasticity makes them an ideal candidate for combining with elastin-based biomaterials. With the growing accessibility of the elastin precursor, tropoelastin, and elastin-derived materials, the amount of research interest in combining these two fields has increased and, subsequently, is leading to the realization of a potentially new strategy for regenerative medicine.

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Jazmin Ozsvar

Tropoelastin and Elastin Assembly

Freestanding hierarchical vascular structures engineered from ice

SmoXYB1C1Z of Mycobacterium sp. Strain NBB4: a Soluble Methane Monooxygenase (sMMO)-Like Enzyme, Active on C ₂ to C ₄ Alkanes and Alkenes

Elastin-based biomaterials and mesenchymal stem cells

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Resources

About

Jazmin Ozsvar

Tropoelastin and Elastin Assembly

Freestanding hierarchical vascular structures engineered from ice

SmoXYB1C1Z of Mycobacterium sp. Strain NBB4: a Soluble Methane Monooxygenase (sMMO)-Like Enzyme, Active on C 2 to C 4 Alkanes and Alkenes

Elastin-based biomaterials and mesenchymal stem cells

Contact Info

Product

Resources

About

SmoXYB1C1Z of Mycobacterium sp. Strain NBB4: a Soluble Methane Monooxygenase (sMMO)-Like Enzyme, Active on C ₂ to C ₄ Alkanes and Alkenes