India’s proteomics landscape is rapidly transforming, driven by growing demand for biomarker discovery, translational research, precision medicine, and systems biology approaches. However owing to inherent complexity of proteins the workflows are demanding involving multiple technologies to address sample preparation challenges, functional aspects, analytical variability and comparability, orthogonal techniques that can impact quality, sensitivity, reproducibility and biological insights.
At Spinco, through globally leading technologies, we deliver integrated, end-to-end proteomics workflows designed to support the complete spectrum of protein research — from sample preparation, protein extraction, purification, biomolecular interactions, and quantitation to advanced characterization, spatial proteomics, and high-resolution data analysis. reagents, consumables, and analytical platforms, we enable researchers to generate deeper, more reproducible insights into complex biological systems.
As a trusted proteomics solutions partner in India, Spinco goes beyond supplying individual instruments to build cohesive, scalable workflows enabling high-quality data generation, streamlined workflows, and accelerated discovery across diverse proteomics applications.
A unified portfolio of advanced proteomics technologies covering the entire workflow from protein isolation to biomarker identification, delivering high-sensitivity, reproducible, and scalable solutions for in-depth protein characterization and analysis.
MSD enables highly sensitive, multiplexed protein analysis through electrochemiluminescence (ECL) technology, delivering broad dynamic range, exceptional reproducibility, and low background. Its robust immunoassay platforms support biomarker discovery, translational research, and clinical applications with confidence.
Syncell enables spatial proteomics at subcellular resolution through its Microscoop platform, allowing precise protein analysis from targeted microscopic regions. By combining imaging with proteomic extraction, the technology reveals localized biology previously inaccessible through bulk proteomics approaches.
Shimadzu’s PPSQ series delivers automated Edman degradation-based protein sequencing for precise N-terminal amino acid analysis, supporting protein characterization, peptide sequencing, biomarker studies, and biopharmaceutical research workflows.
Postnova Analytics specializes in Field-Flow Fractionation (FFF) for gentle, high-resolution separation and characterization of proteins, nanoparticles, exosomes, and complex biomolecules. Combined with Light Scattering and ICP-MS, it enables advanced analysis beyond conventional chromatography.
Quantum-Si democratizes proteomics through next-generation protein sequencing technology designed for accessible, benchtop analysis. It's Platinum platform enables direct protein identification and characterization, accelerating biomarker discovery and advancing precision proteomics beyond traditional mass spectrometry workflows.
HORIBA provides advanced analytical solutions for particle characterization, molecular spectroscopy, and biomolecular analysis. Its portfolio includes Raman spectroscopy, fluorescence spectrometry, and dynamic light scattering technologies for protein characterization, molecular interaction studies, nanoparticle sizing, and reaction monitoring across biologics, proteomics, and pharmaceutical research workflows.
Cytiva supports end-to-end protein research workflows through advanced sample preparation, protein purification, chromatography, filtration, and characterization solutions designed for reproducibility, scalability, and workflow efficiency. The portfolio enables reliable protein purification and characterization to support biomarker discovery, translational research and biopharmaceutical proteomics applications.
Refeyn pioneers mass photometry, enabling rapid, label-free characterization of biomolecules at the single-particle level. The technology delivers precise molecular mass measurement, oligomer analysis, and AAV characterization in solution, without requiring extensive sample preparation or calibration standards.
AAPPTec delivers advanced peptide synthesis supporting proteomics, and therapeutic workflows. From fully automated peptide synthesis systems spanning lab to pilot scale to custom peptides and reagents the portfolio enables flexible, large scale manufacturing.
Sepragen delivers high-throughput chromatography systems engineered for efficient purification of proteins, biologics, and viral vectors. Its radial flow chromatography technology enables scalable processing, reduced footprint, and enhanced productivity across bioprocessing and proteomics workflows.
Alamar combines attomolar-level sensitivity with high-plex proteomics through its NULISA, enabling ultra-sensitive fluid biomarker detection from minimal sample volumes. Designed for translational and precision medicine research, the platform advances deeper insights into neurodegenerative diseases such as Alzheimer’s, alongside immunology and oncology applications.
Standard BioTools transforms high-dimensional biology through mass cytometry and multiomics technologies, enabling deep single-cell proteomic analysis with minimal signal overlap. Its platforms empower comprehensive immune profiling, systems biology, and translational research at unprecedented cellular resolution.
Shimadzu's Advanced MALDI platforms enable rapid, high-sensitivity protein profiling, peptide mapping, and imaging capabilities for complex biological samples. Complementing this, the UFMS systems deliver highly selective and quantitative analysis for targeted proteomics, metabolomics, biomarker validation, and biotherapeutic studies. Together, these integrated solutions provide exceptional sensitivity, speed, and reproducibility, supporting high-throughput workflows from discovery research to translational applications.
An integrated proteomics workflow designed to deliver high-sensitivity, scalable, and reproducible solutions spanning protein characterization, structural analysis, and biomarker discovery.
Advanced proteomics workflows begin with sensitive biomarker discovery, target identification, and molecular screening to support translational and therapeutic research. High-sensitivity assay platforms and spatial proteomics technologies enable deeper biological insight and improved target validation across complex protein landscapes.
ARGO™ HT, Microscoop® Mint, MSD Multiplex Platforms, Focus XC Series
Accurate protein expression analysis and analytical screening are essential for evaluating purification feasibility, protein integrity, and workflow reproducibility. Integrated electrophoresis, imaging, and purification workflows support reliable characterization during early-stage proteomics development.
ÄKTA™ Start, Hoefer Electrophoresis Systems, ImageQuant™ Systems
Scalable protein purification and peptide synthesis workflows are critical for biologics production, process optimization, and downstream analytical consistency. Advanced chromatography and synthesis technologies enable efficient purification, scalability, and reproducible manufacturing workflows.
QuantaSep®, Focus XC Series
Comprehensive structural and biophysical characterization workflows provide detailed insight into protein identity, aggregation, higher-order structure, molecular interactions, and functional activity. These technologies support advanced proteomics, biologics characterization, and process-related impurity analysis across research and therapeutic development workflows.
Platinum® Pro, PPSQ-51A/53A, MALDI/MS, MMS, AF2000, DLS & Raman Spectroscopy Systems, TwoMP, LabChip® CE Systems, SPR Platforms
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