Center for Advanced Protein Studies (CAPS) is a collaboration between Syngene and the Biotechnology Industry Research Assistance Council (BIRAC) to offer analytical support for emerging Indian biotech entrepreneurs, micro small and medium enterprises (MSMEs), and academics engaged in advancing protein research. This national facility helps your complex biological molecules move closer to regulatory approval by providing advanced Analytical services for assessing physicochemical characteristics, efficacy, immunogenicity, contamination, and strength.
Centre for Advanced Protein Studies (CAPS) helps your complex biological molecules move closer to regulatory approval by providing advanced analytical services for the assessment of physicochemical characteristics, efficacy, immunogenicity, contamination, and strength.
Centre for Advanced Protein Studies (CAPS) helps your complex biological molecules move closer to regulatory approval by providing advanced analytical services for the assessment of physicochemical characteristics, efficacy, immunogenicity, contamination, and strength.
Centre for Advanced Protein Studies [CAPS] is a state-of-the-art advanced national facility located in the Syngene campus, Bangalore. Established with funding from BIRAC-DBT, CAPS is part of the National Biopharma Mission program to advance product development in India. National Biopharma Mission aims to enable and nurture India’s technological and product development capabilities in biopharmaceuticals to be globally competitive over the next decade and transform the health standards of India’s population through affordable product development.
CAPS is a unique partnership between Government of India and Syngene International Ltd. to provide technical and regulatory guidance to Indian start-up companies, academic labs and Indian biopharma companies.
CAPS laboratory spans over 2000 sq. Ft and is located in the S1 building on the Syngene campus. It offers the unique advantage of providing both end-to-end as well as modular analytical characterization services for both development and regulatory projects. Offering subsidized pricing to all start-ups and MSMEs, CAPs makes available a diverse range of analytical modules, including method familiarization, method development, sample analysis and method qualification studies at par with global standards. It also provides advanced analytical equipment and a GLP environment for performing in-depth protein characterization and Bioassay studies. The experienced scientists at CAPS provide technical guidance and timely delivery of analytical solutions, all the way from early project inception to completion.
CE-MS combines the resolving power of MS with separation abilities of CE thereby providing higher quantification accuracy with minimal sample requirements.
Endosafe®-nexgen PTS™ delivers rapid and convenient USP/BET–compliant quantitative endotoxin testing.
MALS is an advanced analytical absolute technique used for the determination of molecular weight of an analyte in solution using basic physical equations.
High-performance liquid chromatography (HPLC) or Ultra-performance liquid chromatography is an analytical technique widely used for separation, identification and quantification of various biological analytes.
Analytical ultracentrifugation provides particle sedimentation with the functionality of optical modules to detect the sedimentation of analyte over time.
SpectraMax® i3x Multi-Mode Microplate Reader measures absorbance, fluorescence, luminescence and HTRF detection modes.
Biacore T200 works on the principle of Surface Plasmon Resonance (SPR), Surface plasmon resonance (SPR) allows real-time, label-free detection of biomolecular interactions.
Bioanalyser(Sciex C100 HT) is a high throughput glycan screening platform consisiting of prefilled multicapillary cartridge enabling to process multiple samples in a short time.
Capillary electrophoresis and image Capillary Electrophoresis (iCE) are widely used analytical techniques for the characterization of biomolecules
Agilent 6545 XT QTOF-MS offers a suitable improved resolution for the measurement of biomolecules up to 30000 m/z and accurate mass measurement up to low ppm levels.
Bruker MaXis II QTOF-MS coupled with ETD (Electron Transfer Dissociation) fragmentation offers distinct advantage of high resolution capabilities along with enhanced fragmentation techniques.
07th Feb 2020
24th Feb 2020
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