Peptide therapeutics are a growing area, evolving from niche research tools into established therapeutic modalities. As biotech and pharma companies invest in this expansion in peptides, the choice of synthesis technology becomes critical for success. Automated peptide synthesis offers the precision, scalability, and reliability that peptide labs require to maintain a competitive edge.
Whether you are developing peptide drug candidates, scaling up for clinical trials, or evaluating the transition from outsourcing to in-house synthesis, understanding how to implement automation effectively can determine project success and timelines.
This blog gives you a high-level overview of what you should know when getting started with automated peptide synthesis.
Automated peptide synthesis has advanced significantly since Bruce Merrifield's breakthrough in solid-phase peptide synthesis (SPPS) in 1963. What began as a manual, time-intensive process has evolved into automated systems that can synthesize multiple peptides simultaneously with high precision.
Modern automated synthesizers build on Merrifield's foundational chemistry while incorporating critical innovations like precise fluid handling, real-time monitoring, and advanced heating technologies. These systems transform complex chemistry into controlled, repeatable steps: deprotection, coupling, and washing—each precisely monitored and executed.
Reliability
Efficient peptide synthesis relies on continuous, disruption-free workflows to maintain operational consistency in laboratories. Automation is key to achieving this consistency by minimizing human errors and delivering reproducible results across multiple syntheses. Our proprietary PurePep® Pathway technology utilizes a microfluidic design that ensures zero dead volume and reduces the risk of cross-contamination.
Flexibility
Automated systems streamline synthesis processes, significantly reducing the time required compared to manual methods or outsourced solutions. For instance, advanced platforms, such as Gyros Protein Technologies PurePep® Chorus, can complete synthesis cycles in just minutes using induction-heating technology. This capability leads to faster project turnaround, lower labor costs, and enhanced control over development timelines.
Advanced synthesizer technology combining reliable fluid handling capabilities with flexible software control to automate synthesis processes. Reproducible, scalable protocols reduce human error and increase consistency.
Comprehensive service ensures success from first synthesis through long-term maintenance and implementation of advanced applications. This ongoing support encompasses expert training, rapid troubleshooting, method development, and continuous optimization guidance.
Advanced peptide synthesis requires precise input variables to ensure high-quality results. Developing a synthesis design involves detailed consideration of materials, process optimization, and systematic troubleshooting.
Key Steps in Designing a Synthesis
Successful peptide synthesis begins with choosing appropriate reagents and optimizing reaction conditions. The following components are foundational:
1. Starting materials
Are you ready for a hands-on session? View our on-demand webinar by Chloe Mitchell and Luisa Aguiar about Getting Started with Automated Peptide Synthesis.
Automated peptide synthesis represents a technological advancement. By eliminating the manual aspects of synthesis, automation enables scientists to focus on discovering and developing peptide therapeutics.
Success depends on selecting the appropriate synthesizer and support service partner for your specific requirements. Whether you require the research flexibility of the PurePep Chorus, the high-throughput capability of Symphony X, or the large-scale production of PurePep Sonata+, proper support and services can transform your peptide development timeline, success rate, and workflow efficiency.
Please don't hesitate to contact our team to schedule a consultation.