Recombinant antibodies can be used for industrial applications as well as for research or diagnostics and therapeutics. Recombinant antibody production with recombinant antibody technology – which is considered the next level in antibody production – since it brings advantages in terms of speed and quality. Find here all articles on the topic, recombinant production, application areas and general insights into the world of recombinant antibodies. If you are ready, view our Recombinant antibody expression service.
Recombinant DNA is not only essential in the creation of recombinant antibodies. In this article, we will discover many other fields of application for rDNA.
There are several ways to produce recombinant proteins. In this article, we will have a look at some of them, and will focus on recombinant protein expression in mammalian cells.
In this text, we want to highlight five formidable examples of such groundbreaking utilizations of rDNA technology and the resulting recombinant proteins. Read more!
Recombinant DNA is the basis for a variety of techniques, which is why one frequently comes across the term. But what is rDNA, precisely?
Recombinant DNA has a considerable amount of advantages, but also some downsides – discover both aspects in this article!
Recombinant antibody production is vital in drug development as well as for therapeutic and research purposes. In this article, we will discuss methods and benefits of recombinant antibody production.
Antibody sequencing is a complex procedure, where dedicated service providers often come into place. In this article, we will give you more information on antibody sequencing services.
Advantages of recombinant antibodies are the fast production and high quality. Due to the in vitro method, the production is easily scalable and takes place without animals. A disadvantage are the higher costs.
There are some major differences between monoclonal and recombinant monoclonal antibodies – discover the most important ones in this article!
Proteins are a keystone in countless biological processes, and their recombination has allowed huge leaps in life sciences. But how are proteins changed to recombinant proteins?