A enterprise focused to giving significant functionality, minimal-price tag techniques for biopolymer research. Pro2Kem was established in Dundee Uk to commercialise a variety of novel micro-engineered research methods for the perseverance of biopolymer construction formulated by Dr Roger White. These will include things like higher functionality multi-channel laser light-scattering detectors and a assortment of significant-velocity measurement separation devices for measuring molar mass, size, & conformation distributions. Near interaction with users will ensure that item innovation evolves at a pace that matches market place expectations. All merchandise will be upgradeable at lower expense to be sure that buyers can reward completely from advancements in overall performance. Pro2Kem specialises in the design and enhancement of instrumentation for biopolymer examination. Primarily based in Dundee – a single of the UK's important biotechnology clusters, the business was established by Roger White in Might 2002 to commercialise the benefits of even more than 17 years promotion and advancement encounter in the study of intricate macromolecules. The enterprise is doing work on the style and design of many novel laser mild-scattering and separation devices for the research of protein/biopolymer molecular construction. These incorporate many ideas taken from recent Lab-on-a-Chip investigate to give unrivalled amounts of overall performance at considerably lower value than regular instruments. AggreKem was then officially released in Washington DC at BIO 2003 – the worlds biggest biotech convention. AggreKem is a compact, stand-alone mild-scattering detector specially designed to display screen protein alternatives for proof of aggregation and has considerable features for applications such as protein crystallography. Advancement of state of the art biochip technological know-how to provide large performance solutions at low price tag, making it possible for gentle scattering to grow to be a conventional tool for the analysis of the molar mass, dimensions, & conformation of biopolymers.