Cell Guidance Systems Blog

Karyotyping remains an important assay when working with any animal cell. Here we discuss the benefits and limitations.

Tropical climates yield high levels of biodiversity. So perhaps it is not surprising that the natural resources of many tropical islands have made significant contributions to the development of some very big (and some not so big) name drugs.

Using bioreactors to generate seafood or meat is horrific or exciting, depending on your point of view. As with genetically modified food, attitudes differ markedly between countries.

Chemokines are promising modalities in the treatment of disease. These small signaling proteins, primarily known for their role in directing the movement of immune cells, are now being explored for their therapeutic potential in a range of conditions, from cancer to chronic inflammatory diseases.

Creating a chemokine or growth factor concentration gradient is a crucial lab technique for studying cell migration, particularly in neuroscience, immunology and cancer research. Sustained release growth factors can simplify chemotaxis studies.

RADA16, the pioneer in the field of self-assembling peptide hydrogels, is inflexible (figuratively at least) and can be difficult to use. PeptiGel is winning out with clever refinement, bespoke formulation and a ready-to-use format.

Optimizing the formulation of drugs is critical to increase their stability and sustain bioavailability. Similarly, taking more care to formulate growth factors can transform their utility too.

GFOGER is a collagen sequence that primarily binds to specific integrins which not only anchor cells to the matrix but also influence cell behaviour, such as proliferation, migration, and differentiation.

The genomic instability of iPSCs is well documented. What is the impact of these genetic alterations on downstream applications and what can we do to mitigate their impact?

As well as causing the proliferation of cells, growth factors can promote differentiation and even the death of cells. For example, the differentiation of neuronal progenitor cells to functional neuronal cells is regulated by so-called neurotrophic growth factors. As with the proliferative growth factors, neurotrophic growth factors initiate a complex cascade of events by binding to receptor proteins that span the cell surface: