Automatic amide I frequency selection for rapid quantification of protein secondary structure from Fourier transform infrared spectra of proteins

Hering, Joachim A.; Innocent, Peter R.; Haris, Parvez I.

doi:10.1002/1615-9861(200207)2:7<839::aid-prot839>3.0.co;2-l

Cited by 37 publications

(16 citation statements)

References 53 publications

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“…For quantifying protein levels in the low microgram scale per milliliter in cell culture against a HCP and media background, this approach has been successfully employed already 37. Likewise, the approach quantifying HCP against a mAb and media background should be achievable and was shown in previous experiments38; particularly since protein secondary structure can be compared using IR and antibody secondary structure exhibits exceptionally high content of beta‐sheet 44…”

Section: Resultsmentioning

confidence: 99%

“…Wavenumber range was then narrowed in 10 cm −1 intervals covering the Amide I band between 1,600 and 1,700 cm −1 . As antibodies are known to show a high beta‐sheet content, the wavenumber ranges indicative for elevated beta‐sheet content in proteins (1,620–1,635 cm −1 and 1,675–1,695 cm −1 ) were evaluated for mAb quantification 44. Furthermore, different optimization strategies using first and second derivative and visual inspection of peaks that correlated with mAb levels were used.…”

Section: Methodsmentioning

confidence: 99%

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Matrix effects during monitoring of antibody and host cell proteins using attenuated total reflection spectroscopy

Capito

Skudas

Stanislawski

et al. 2012

Biotechnology Progress

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Production of recombinant proteins, e.g. antibodies, requires constant real-time monitoring to optimize yield and quality attributes and to respond to changing production conditions, such as host cell protein (HCP) titers. To date, this monitoring of mammalian cell culture-based processes is done using laborious and time consuming enzyme-linked immunosorbent assays (ELISA), two-dimensional sodium dodecylsulphate polyacrylamide gel electrophoresis, and chromatography-based systems. Measurements are usually performed off-line, requiring regular sample withdrawal associated with increased contamination risk. As information is obtained retrospectively, the reaction time to adapt to process changes is too long, leading to lower yield and higher costs. To address the resulting demand for continuous online-monitoring systems, we present a feasibility study using attenuated total reflection spectroscopy (ATR) to monitor mAb and HCP levels of NS0 cell culture in situ, taking matrix effects into account. Fifty-six NS0 cell culture samples were treated with polyelectrolytes for semi-selective protein precipitation. Additionally, part of the samples was subjected to filtration prior to analysis, to change the background matrix and evaluate effects on chemometric quantification models. General models to quantify HCP and mAb in both filtered and unfiltered matrix showed lower prediction accuracy compared to models designed for a specific matrix. HCP quantification in the range of 2,000-55,000 ng mL(-1) using specific models was accurate for most samples, with results within the accepted limit of an ELISA assay. In contrast, mAb prediction was less accurate, predicting mAb in the range of 0.2-1.7 g L(-1) . As some samples deviated substantially from reference values, further investigations elucidating the suitability of ATR for monitoring are required.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Matrix effects during monitoring of antibody and host cell proteins using attenuated total reflection spectroscopy

Capito

Skudas

Stanislawski

et al. 2012

Biotechnology Progress

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“…In addition to GlpF and MstX, both full-length MBP and E. coli thioredoxin (TxrA) can enhance production of membrane POIs [ 62 ]. If a fusion protein is undesirable for a given membrane POI, the following plasmids have been used successfully to produce membrane proteins in E. coli due to tight regulation of their promoters: pASK75, regulated by anhydrous tetracycline [ 43 ], and pRHA-67 (Xbrane Bioscience), tightly regulated by L -rhamnose [ 63 ].…”

Section: Preparation Of Fractions For Sds-pagementioning

confidence: 99%

“…haloplanktis TAC125 versatility has been improved by the development of genetically engineered strains with improved features as cell factories [ 59 , 60 ]. P. haloplanktis TAC125 was also the fi rst Antarctic bacterium in which an effi cient gene expression technology was set up, by the proper assembly of psychrophilic molecular signals [ 58 , 61 ] into a modifi ed E. coli cloning vector [ 62 ]. Several generations of cold-adapted expression vectors allow the production of recombinant proteins either by constitutive [ 61 ] or inducible profi les [ 63 ] and address the product toward any cell compartment or to the extracellular medium [ 64 ].…”

Section: General Introduction: Insoluble Recombinant Proteinsmentioning

confidence: 99%

Insoluble Proteins

García‐Fruitós¹

2015

Methods in Molecular Biology

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“…Specific regions in MIR spectra of proteins indicate secondary structures; in particular the amide I band (1700−1600 cm ‐1 ), belonging to the C‐O stretch vibration of the peptide linkage, is highly significant (9, 10) (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Fast Quantification of Recombinant Protein Inclusion Bodies within Intact Cells by FT-IR Spectroscopy

Groß-Selbeck

Margreiter

Obinger

et al. 2008

Biotechnol Progress

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The accomplishment of the quantification of the recombinant protein content of whole bacterial cells by FT-IR spectroscopy by application of chemometrics is shown. Recombinant Escherichia coli cells expressing an inclusion body forming fusion protein were dried on a 96-well silicon plate for the analysis in a high-throughput FT-IR spectrometer. Acquired spectra of additionally conventionally quantified samples were used to establish a multivariate calibration. The obtained method was tested by predicting inclusion body contents of samples not used for the multivariate model. Results from FT-IR spectra coincided well with the data of universalized electrophoresis analysis. Hence FT-IR spectroscopy could prove as a fast and simple alternative to conventional quantification methods.

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Automatic amide I frequency selection for rapid quantification of protein secondary structure from Fourier transform infrared spectra of proteins

Cited by 37 publications

References 53 publications

Matrix effects during monitoring of antibody and host cell proteins using attenuated total reflection spectroscopy

Matrix effects during monitoring of antibody and host cell proteins using attenuated total reflection spectroscopy

Insoluble Proteins

Fast Quantification of Recombinant Protein Inclusion Bodies within Intact Cells by FT-IR Spectroscopy

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