By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
.
Analyzers of amino acids aid in the hunt for novel biotherapeutics. A considerable shift has been made towards the discovery and development of novel therapeutic proteins and peptides as a result of the increasing number of biologic medications that are being approved by regulatory authorities around the world.
The success of peptide medications for the treatment of metabolic disorders and chronic pain, as well as monoclonal antibodies for the treatment of diseases including cancer, inflammation, and autoimmune disorders, show how biologic drugs have changed therapies for difficult-to-treat diseases.
The focus of peptide drug development has traditionally been on peptides that are already present in humans, but as more diseases and infections develop drug resistance, scientists are looking for biologically active molecules in more unusual sources.
By utilising continuous flow ion exchange liquid chromatography,amino acid analyzers provide qualitative and quantitative information about the amino acid composition of a protein or peptide hydrolysate. It’s difficult to recognise and purify such chemicals. It entails fractionating organism extracts and profiling their biological activity using tests.
In order to obtain the bioactive compound, samples that exhibit promising levels of activity must undergo numerous rounds of purification.”Working with very limited sample amounts and determining the three-dimensional structure of the bioactive peptide, which is crucial for its function, are major challenges.
The Global High-Speed Amino Acid Analyzer Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The cutting-edge automated Amino Acid Analyzer combines the benefits of high performance liquid chromatography with the traditional ion exchange separation method.
The ideal solution for any routine challenge in amino acid determination is created by the comprehensive set of advanced apparatus, a large range of pre-packed and proven separation columns, along with optimised ready-to-use buffer solutions and reagents.
One of the most popular techniques used for quantitative amino acid analysis is in exchange chromatography with post-column Ninhydrin detection.
The S433 system includes a refrigerated reagent organiser with an integrated inert gas application system, a 4-channel vacuum de-gasser, a 2-plunger buffer pump, a dual beam photometer, a column oven with active cooling capabilities,a Ninhydrin pump, and an autosampler with cooled sample storage and partial loop fill technique without sample loss.
Multiple-step separation, chilled reagent storage, an integrated autosampler, an integrated vacuum de-gasser, a separation column oven, a high temperature reactor, an integrated reagent dosing pump, a fully inert design, and safety devices Simple software controls for full control of reactor temperature, column temperature, and gradient programme.
A programmable sample sequence with unique run times, gradients, and temperature profiles, automatic use control of buffer and reagent solutions, an SOS feature in case of pressure faults, and manual control of each individual unit are all included.
