Objective:

To explore and revive slalom chromatography (SC) for the separation of large DNA and RNA macromolecules in cell and gene therapy development, addressing current challenges in the field.

Key Findings:

• Entropic elastic stretching occurs for double-stranded DNA but not for single-stranded DNA, allowing for the potential separation of single-stranded RNA from double-stranded RNA impurities.
• Developed a solid understanding of the separation mechanisms governing DNA and RNA biopolymers in SC columns.
• Waters became the first company to commercialize an SC column, a significant milestone that could transform chromatographic separation science.

Interpretation:

The revival of slalom chromatography presents a promising advancement in the efficient separation of large biomolecules, crucial for overcoming current limitations in biopharmaceutical development.

Limitations:

• The initial understanding of SC mechanisms was limited and required extensive interdisciplinary research.
• Practical questions regarding optimal chromatographic conditions, such as specific mobile phase compositions and flow rates, remained unresolved until experimental investigations were conducted.

Conclusion:

The journey of reviving slalom chromatography underscores the importance of interdisciplinary collaboration and curiosity in scientific research, paving the way for future advancements in cell and gene therapies and their potential impact on biopharmaceuticals.