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Peptide Synthesis Services

An overview of peptide synthesis methods, quality control, and service categories — including custom peptide synthesis, difficult peptides, modifications, GMP peptides, and application-focused peptides.

Request a Quote Overview
Custom Peptide Synthesis
Difficult Peptides
Modifications & Labels
GMP & Documentation
HPLC/MS Analytics
Overview Methods Service Categories Analytics & QC Research vs GMP Applications Handling & Storage FAQs Contact

Overview

What Is Peptide Synthesis?

Peptide synthesis is the chemical assembly of amino acids into a defined sequence, most commonly performed using solid-phase peptide synthesis (SPPS). In SPPS, amino acids are added stepwise while the growing peptide remains attached to a solid resin support, enabling precise sequence control, efficient purification, and compatibility with a wide range of chemical modifications.

Bio-Synthesis peptide synthesis supports applications ranging from microgram-scale research peptides to larger production programs, with flexibility in sequence design, purity targets, and analytical characterization.

This overview page serves as a navigation hub. For sequence-defined quoting and ordering, visit Custom Peptide Synthesis.

Sequence & Specs
Length · Purity · Scale · Mods
Synthesis (SPPS)
Strategy · Chemistry
Purification
Prep HPLC · Desalting
Analytics & QC
HPLC · MS · Identity
Delivery & Support
COA · Guidance
What We Deliver

Custom peptides aligned to your goals—sequence, purity, scale, modifications, and analytics selected for fitness-for-purpose.

Quality & Transparency

Analytical characterization (e.g., HPLC/MS) with documentation to support reproducibility and downstream use.

Realistic Expectations

Difficult sequences require tailored strategies. We flag risks early and recommend practical specifications.

Technical Notes — What Drives Peptide Cost, Yield, and Purity
COST DRIVERS
  • Length, modifications, and purity level (prep HPLC vs desalting).
  • Sequence complexity (aggregation, deletions, oxidation-sensitive residues).
  • Scale and documentation requirements (research vs GMP workflows).
SUCCESS DRIVERS
  • Solubility planning and counter-ion selection appropriate to the chemistry.
  • Appropriate analytics (HPLC + MS at minimum for identity/purity confirmation).
  • Handling guidance aligned to peptide properties (label sensitivity, oxidation risk, etc.).

Need a quote for a specific sequence? Go to Custom Peptide Synthesis.

Peptide Synthesis Methods

Solid-Phase Peptide Synthesis (SPPS)

SPPS assembles peptides on a solid resin using iterative coupling and deprotection cycles. This approach supports high sequence control and broad compatibility with modifications.

  • Efficient synthesis for custom sequences
  • Compatible with labels and chemical modifications
  • Scales from micrograms to larger production needs
Solution-Phase & Hybrid Approaches

Some long or difficult sequences benefit from alternative strategies to reduce aggregation, improve coupling efficiency, or support special chemistries.

  • Options for long peptides and challenging motifs
  • Hybrid approaches to manage solubility and yield
  • Tailored purification plans (desalting vs prep HPLC)

For challenging sequences, see Difficult Peptide Synthesis.

solid phase peptide synthesis

Figure: The solid-phase peptide synthesis (SPPS) cycle consists of iterative deprotection, amino acid activation, and
coupling steps performed while the peptide remains anchored to a solid resin support.

Service Categories

Custom Peptide Synthesis

Sequence-defined peptides with specification-driven purity, scale, and analytics.

Explore Custom Peptide Synthesis →

Difficult Peptides

Strategies for hydrophobic, long, cysteine-rich, aggregation-prone, and highly charged sequences.

Explore Difficult Peptides →

Peptide Modifications

Phosphorylation, cyclization, labels, PEGylation, lipidation, biotin, isotopes, and more.

Explore Modifications →

GMP Peptides

Controlled systems with enhanced documentation, traceability, and compliance support.

Explore GMP Peptides →

Analytics & QC

HPLC purity, MS identity confirmation, and optional testing aligned to application needs.

Explore Analytics & QC →

Applications

Peptides for antibody production, vaccines, epitope mapping, diagnostics, and drug discovery.

Explore Applications →

Design & Optimization

Guidance to improve synthesis success, solubility, and stability (where design flexibility exists).

Explore Design & Optimization →

Handling & Storage

Reconstitution, solubility, storage, and stability best practices to protect peptide integrity.

Explore Handling & Storage →

Resource Center

FAQs, COA interpretation, purity guidance, and ordering best practices.

Explore Resources →

This overview targets “peptide synthesis” (educational intent) and funnels high-intent users to Custom Peptide Synthesis.

Analytics & Quality Control (QC)

Peptide purity and identity directly impact reproducibility. Analytics should be selected based on the application (screening vs quantitative assays vs regulated workflows), not arbitrary purity targets.

Typical Characterization
  • HPLC purity profiling
  • Mass spectrometry (MS) identity confirmation
  • Identity checks aligned to peptide chemistry and application
Optional Add-On Testing
  • Counter-ion analysis
  • Water content / hygroscopicity
  • Stability testing (application-dependent)

For details, see Peptide Analytics & QC.

Research-Grade vs GMP Peptides

Peptide purity and identity directly impact reproducibility. Analytics should be selected based on the application (screening vs quantitative assays vs regulated workflows), not arbitrary purity targets.

Research-Grade Peptides
  • Designed for discovery and preclinical research
  • Appropriate analytics for experimental needs
  • Fast iteration for screening and optimization
GMP Peptides
  • Controlled manufacturing systems
  • Enhanced documentation and traceability
  • Specifications aligned to regulated workflows

Research-grade vs GMP peptides: The table below summarizes the practical differences between research-grade and GMP peptide synthesis, including intended use, documentation requirements, cost considerations, and typical lead times.

Table: Comparison of research-grade and GMP peptide synthesis, highlighting differences in intended use, documentation, cost, and lead time.
Aspect Research-Grade Peptides GMP Peptides
Typical use Discovery, screening, preclinical research Regulated and clinical programs
Documentation Standard certificate of analysis (COA) Full batch records and traceability
Cost Lower Higher
Lead time Shorter Longer (controlled release)

Explore GMP Peptide Synthesis →
Compare Research vs GMP →

Peptide Applications

Application context determines recommended purity, modifications, analytics, and handling. Bio-Synthesis supports peptides across common workflows.

  • Antibody production peptides (conjugation-ready options)
  • Vaccine peptides (epitopes and immunogenic regions)
  • Epitope mapping peptides (overlapping libraries)
  • Diagnostic peptides (assay-consistent lots)
  • Drug discovery peptides (SAR series and variants)
  • Receptor/enzyme study peptides (functional fragments)

Explore Peptide Applications →

Peptide Handling, Solubility & Storage

Many “peptide problems” occur after delivery—during reconstitution, storage, or repeated freeze-thaw cycles. Handling guidance is especially important for hydrophobic peptides, charged sequences, and modified peptides.

Common Handling Topics
  • Solubility planning and reconstitution approach
  • Aliquoting to reduce freeze-thaw cycles
  • Storage temperature and light sensitivity for labels
Stability Considerations
  • Oxidation-prone residues and disulfide handling
  • Aggregation risk with hydrophobic sequences
  • Counter-ion choice and hygroscopicity

Explore Handling & Storage →

FAQ

Can peptides be scaled from research to GMP?

Yes. Many peptide sequences are first produced at research scale and later transitioned to larger or GMP-compliant production. Early consideration of sequence complexity, modifications, and purity targets helps ensure smooth scalability.

Can you synthesize difficult peptides?

Yes. Difficult sequences (hydrophobic, long, cysteine-rich, aggregation-prone) often require tailored strategies and realistic expectations around yield/purity. See Difficult Peptides. 

What purity do I need for my peptide?

Purity should be chosen based on your application (screening vs quantitative assays vs regulated work). Share your use case and we’ll recommend a practical specification.

What analytics are typically provided?

Common characterization includes HPLC purity and mass spectrometry identity confirmation, with additional testing available upon request. See Analytics & QC.

Do you offer GMP peptides?

Yes. GMP peptides are produced under controlled systems with enhanced documentation and traceability. See GMP Peptides.

What is the difference between research-grade and GMP peptides?

Research-grade peptides are intended for discovery and preclinical research and are supplied with standard analytical documentation such as a certificate of analysis. GMP peptides are manufactured under controlled systems with enhanced documentation, traceability, and quality controls required for regulated programs.

More FAQ'sAll FAQ's
CONTACT

Speak to a Peptide Scientist

Share your sequence (or target region), intended application, purity/scale needs, and required modifications. We’ll recommend practical specifications and provide a quote.

Request a Quote Contact Form

Tip: If the peptide is hydrophobic/long/cysteine-rich, include that context so we can route the request to the right synthesis strategy.

Why Choose Bio-Synthesis

Trusted by biotech leaders worldwide for over 40+ years of delivering high quality, fast and scalable synthetic biology solutions.

Greetings Researchers,

Please be advised that any information, guidelines, writeups, and oral/video/graphic content on our website are intended solely as general guidelines.
It is the researcher's sole responsibility to conduct thorough research on the designs of the products intended for their experiments before submitting
their designs to Biosynthesis for review of production feasibility.
Thank you for your understanding.

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