The field of RNA biology has seen significant clinical development activity and technological advancement in recent years. Coding RNAs, in particular, act as messengers on behalf of DNA to induce expression of the more than 20,000 proteins that provide most of the structure and function in human cell biology.

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The ability to facilitate the growth and expansion of mammalian cells in vitro has been at the backbone of a wave of therapeutic innovations in the biotech space. Increasingly the know-how, materials, and equipment to harness cells as factories to produce complex proteins for therapeutic uses is being directed toward consumer applications. 

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A growing body of pre-clinical and clinical research has implicated the influence of bacteria on human health which over the last decade led to a flurry of venture capital and biopharma interest. The collection of non-human cells living within the gut, skin, and other tissues (collectively referred to as “microbiota” or the “microbiome”) has a profound influence on maintaining normal physiologic function (homeostasis).

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A growing body of pre-clinical and clinical research has implicated the influence of bacteria on human health which over the last decade led to a flurry of venture capital and biopharma interest. The collection of non-human cells living within the gut, skin, and other tissues (collectively referred to as “microbiota” or the “microbiome”) has a profound influence on maintaining normal physiologic function (homeostasis).

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Over the last five years, multiple gene therapies have been approved by regulatory agencies and a bolus of late-stage pipeline assets are approaching the market. As the first few gene therapies realize their potential as transformative treatments for the genetic rare diseases, the space is seen as a crucial part of growth for the biopharmaceutical industry. However, as the first gene therapies began to post early wins, several technical and commercial challenges emerged.

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