During the manufacture of the chemotherapeutic enzyme Erwinia chrysanthemi l-asparaginase, a small proportion (approximately 5–15%) of acidic variants, including deamidated species, are observed. Although the deamidated forms appear to have similar specific activity and quaternary structure to the unmodified enzyme, monitoring and control of these forms is important from a regulatory perspective. The extent of Asn to Asp deamidation directly correlates with the time taken to thaw the Erwinia cells. Erwinia l-asparaginase is a tetrameric enzyme containing one site, Asn 281 , theoretically very labile to deamidation due to the sequence Asn-Gly. Structurally, this part of the protein sequence is completely buried inside the tetramer, but solvent-exposed upon tetramer dissociation. During the cell thawing and alkaline lysis sequence of the process, lengthening the cell thaw times by up to 24h allowed tetramer to reassociate, protected Asn 281 from deamidation and reduced the acidic species content of the l-asparaginase from approximately 17% to 9% as measured by weak cation-exchange (WCX) HPLC. The correlation of cell thaw time with acidic species content was also confirmed using capillary zone electrophoresis (CZE) and peptide mapping. These studies demonstrate that cell thaw time is an important, if unexpected, control variable for l-asparaginase deamidation.