Dietmar A. Lang scite author profile

The atomic structures of two proteins in the histidine biosynthesis pathway consist of beta/alpha barrels with a twofold repeat pattern. It is likely that these proteins evolved by twofold gene duplication and gene fusion from a common half-barrel ancestor. These ancestral domains are not visible as independent domains in the extant proteins but can be inferred from a combination of sequence and structural analysis. The detection of subdomain structures may be useful in efforts to search genome sequences for functionally and structurally related proteins.

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Aggregates in monoclonal antibody manufacturing processes

Vázquez-Rey¹,

Lang

2011

Biotech & Bioengineering

417

304

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Monoclonal antibodies have proved to be a highly successful class of therapeutic products. Large-scale manufacturing of pharmaceutical antibodies is a complex activity that requires considerable effort in both process and analytical development. If a therapeutic protein cannot be stabilized adequately, it will lose partially or totally its therapeutic properties or even cause immunogenic reactions thus potentially further endangering the patients' health. The phenomenon of protein aggregation is a common issue that compromises the quality, safety, and efficacy of antibodies and can happen at different steps of the manufacturing process, including fermentation, purification, final formulation, and storage. Aggregate levels in drug substance and final drug product are a key factor when assessing quality attributes of the molecule, since aggregation might impact biological activity of the biopharmaceutical. In this review it is analyzed how aggregates are formed during monoclonal antibody industrial production, why they have to be removed and the manufacturing process steps that are designed to either minimize or remove aggregates in the final product.

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The open conformation of a Pseudomonas lipase

et al. 1997

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. The interfacial activation of Pseudomonas lipases involves conformational rearrangements of surface loops and appears to conform to models of activation deduced from the structures of fungal and mammalian lipases. Factors controlling the conformational rearrangement are not understood, but a comparison of crystallization conditions and observed conformation suggests that the conformation of the protein is determined by the solution conditions, perhaps by the dielectric constant.

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Crystal Structure of Pseudomonas aeruginosa Lipase in the Open Conformation

Nardini¹,

Lang²,

Liebeton³

et al. 2000

Journal of Biological Chemistry

266

210

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Dietmar A. Lang

Structural Evidence for Evolution of the β/α Barrel Scaffold by Gene Duplication and Fusion

Aggregates in monoclonal antibody manufacturing processes

The open conformation of a Pseudomonas lipase

Crystal Structure of Pseudomonas aeruginosa Lipase in the Open Conformation

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