In this Review, we discuss synthetic-biology tools, including genetic circuits, model organisms and design parameters, which can be applied for the construction of smart living materials. We investigate non-living and living self-organizing multifunctional materials, such as intracellular structures and ...
Article Open access 23 November 2021 Three-dimensional printing of mycelium hydrogels into living complex materials Article 22 December 2022 Materials design by synthetic biology Article 23 December 2020 Data availability The data that supports the findings of this study are available from the corres...
In this Review, we discuss synthetic-biology tools, including genetic circuits, model organisms and design parameters, which can be applied for the construction of smart living materials. We investigate non-living and living self-organizing multifunctional materials, such as intracellular structures and ...
In the context of materials, this has led to higher production titers due to reprogrammed natural biosynthesis and has enabled design of novel materials by combining desired domains in vivo. Here, we highlight recent applications of synthetic biology to bio-derived ribosomal and nonribosomal polymer ...
The engineering of synthetic living materials requires inclusive design strategies and an understanding of how cancer affects humans from all racial and ethnic backgrounds, skin colours, sexes and genders. log in via an institution Materials design by synthetic biology ...
The intertwined adoption of synthetic biology and bioprinting techniques has the potential of realizing engineered living materials (ELMs) with unprecedented complexity, made by the integration of abiotic components and living cells [1,2]. Complexity is enabled by the design of novel biological functions...
We define syn-bio materials as materials produced by organisms that have been genetically engineered using the synthetic biology design-build-test-learn approach. (See the exhibit below.) These organisms are typically fermented (bacteria and yeast, for example) but can also be grown (examp...
This is the next frontier for making use of biological know-how in materi- DOV V\QWKHVLV DQG GLVFRYHU\ ³, EHOLHYH that the future of manufacturing will be, LQ ODUJH SDUW GULYHQ E\ ELRORJ\´ VDLG Patrick Boyle, head of design at Gingko Figure 1. Silk...
We will briefly explore different types of vaccines, key considerations in antigen design, and the emerging role of antigens in cutting-edge cancer vaccines. Read More May 9, 2025 PNGase F and EndoH: Endoglycosidases Advancing The Li... ...
Biomaterials have been persistently focused owing to their intricate design and efficient operation. In order to satisfy the demands of life and medical sciences, large amounts of biomaterials capable of interacting with living systems have been created, thereby achieving the diagnosis, treatment or ...