Add to ORKGBiological products, especially proteins, have numerous applications including prevention, diagnosis, and treating diseases. Advances in biotechnology in recent years have opened up many ways to manufacture these products in large scales. To engineer biopharmaceuticals, often pro and/or eukaryotic sustainable resources are used. Selection of the cellular factory depends on the type and application of protein needed. In this review, we explore current resources used to produce biologics, examine these resources critically for their biological output, and finally highlight impact of using sustainable resources in modern medicine
The next healthcare revolution will apply regenerative medicines using human cells and tissues. The ...
Future manufacturing will focus on new, improved products as well as on new and enhanced production ...
Stem cells have emerged as the starting material of choice for bioprocesses to produce cells and tis...
Biological products, especially proteins, have numerous applications including prevention, diagnosis...
The last decades witnessed a strong growth in several areas of biotechnology, especially in fields r...
Current, very fast development of genetic engineering and protein engineering (main segments of mode...
Modern biotechnology is a direction designed to find ways of industrial application of biological ag...
The manufacturing of recombinant protein is traditionally undertaken in mammalian cell culture. Toda...
Most of the hosts used to produce the 151 recombinant pharmaceuticals so far approved for human use ...
Modern biotechnology became possible because of the ability to clone genes and produce gene products...
The combination of synthetic and systems biology is a powerful framework to study fundamental questi...
Biotechnology has scaled many hurdles of advancement into a science that now covers all realms of hu...
Biotechnology is a broad area of biology, involving the use of living systems and organisms to devel...
Biotechnology plays an increasingly important role in the twenty-first century. In the past few deca...
[EN] The use of genetically modified organisms (GMOs) as biofactories for the production of recombin...
The next healthcare revolution will apply regenerative medicines using human cells and tissues. The ...
Future manufacturing will focus on new, improved products as well as on new and enhanced production ...
Stem cells have emerged as the starting material of choice for bioprocesses to produce cells and tis...
Biological products, especially proteins, have numerous applications including prevention, diagnosis...
The last decades witnessed a strong growth in several areas of biotechnology, especially in fields r...
Current, very fast development of genetic engineering and protein engineering (main segments of mode...
Modern biotechnology is a direction designed to find ways of industrial application of biological ag...
The manufacturing of recombinant protein is traditionally undertaken in mammalian cell culture. Toda...
Most of the hosts used to produce the 151 recombinant pharmaceuticals so far approved for human use ...
Modern biotechnology became possible because of the ability to clone genes and produce gene products...
The combination of synthetic and systems biology is a powerful framework to study fundamental questi...
Biotechnology has scaled many hurdles of advancement into a science that now covers all realms of hu...
Biotechnology is a broad area of biology, involving the use of living systems and organisms to devel...
Biotechnology plays an increasingly important role in the twenty-first century. In the past few deca...
[EN] The use of genetically modified organisms (GMOs) as biofactories for the production of recombin...
The next healthcare revolution will apply regenerative medicines using human cells and tissues. The ...
Future manufacturing will focus on new, improved products as well as on new and enhanced production ...
Stem cells have emerged as the starting material of choice for bioprocesses to produce cells and tis...