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Advancing 2D fluorescence online monitoring in microtiter plates by separating scattered light and fluorescence measurement, using a tunable emission monochromator

dc.contributor.authorBerg, Christoph
dc.contributor.authorBusch, Selma
dc.contributor.authorAlawiyah, Muthia Dewi
dc.contributor.authorFinger, Maurice
dc.contributor.authorIhling, Nina
dc.contributor.authorPaquet-Durand, Olivier
dc.contributor.authorHitzmann, Bernd
dc.contributor.authorBüchs, Jochen
dc.date.accessioned2024-09-03T07:30:25Z
dc.date.available2024-09-03T07:30:25Z
dc.date.issued2023de
dc.description.abstractOnline fluorescence monitoring has become a key technology in modern bioprocess development, as it provides in‐depth process knowledge at comparably low costs. In particular, the technology is widely established for high‐throughput microbioreactor cultivation systems, due to its noninvasive character. For microtiter plates, previously also multi‐wavelength 2D fluorescence monitoring was developed. To overcome an observed limitation of fluorescence sensitivity, this study presents a modified spectroscopic setup, including a tunable emission monochromator. The new optical component enables the separation of the scattered and fluorescent light measurements, which allows for the adjustment of integration times of the charge‐coupled device detector. The resulting increased fluorescence sensitivity positively affected the performance of principal component analysis for spectral data of Escherichia coli batch cultivation experiments with varying sorbitol concentration supplementation. In direct comparison with spectral data recorded at short integration times, more biologically consistent signal dynamics were calculated. Furthermore, during partial least square regression for E. coli cultivation experiments with varying glucose concentrations, improved modeling performance was observed. Especially, for the growth‐uncoupled acetate concentration, a considerable improvement of the root‐mean‐square error from 0.25 to 0.17 g/L was achieved. In conclusion, the modified setup represents another important step in advancing 2D fluorescence monitoring in microtiter plates.en
dc.identifier.urihttps://hohpublica.uni-hohenheim.de/handle/123456789/16187
dc.identifier.urihttps://doi.org/10.1002/bit.28474
dc.language.isoengde
dc.rights.licensecc_byde
dc.source1097-0290de
dc.sourceBiotechnology and Bioengineering; Vol. 120, No. 10 (2023), 2925-2939de
dc.subject2D fluorescence spectroscopy
dc.subjectEscherichia coli
dc.subjectHigh‐throughput
dc.subjectMicrotiter plate
dc.subjectMultivariate data analysis
dc.subjectOnline monitoring
dc.subject.ddc660
dc.titleAdvancing 2D fluorescence online monitoring in microtiter plates by separating scattered light and fluorescence measurement, using a tunable emission monochromatoren
dc.type.diniArticle
dcterms.bibliographicCitationBiotechnology and bioengineering, 120 (2023), 10, 2925-2939. https://doi.org/10.1002/bit.28474. ISSN: 1097-0290
dcterms.bibliographicCitation.issn1097-0290
dcterms.bibliographicCitation.issue10
dcterms.bibliographicCitation.journaltitleBiotechnology and bioengineering
dcterms.bibliographicCitation.volume120
local.export.bibtex@article{Berg2023, url = {https://hohpublica.uni-hohenheim.de/handle/123456789/16187}, doi = {10.1002/bit.28474}, author = {Berg, Christoph and Busch, Selma and Alawiyah, Muthia Dewi et al.}, title = {Advancing 2D fluorescence online monitoring in microtiter plates by separating scattered light and fluorescence measurement, using a tunable emission monochromator}, journal = {Biotechnology and bioengineering}, year = {2023}, volume = {120}, number = {10}, }
local.export.bibtexAuthorBerg, Christoph and Busch, Selma and Alawiyah, Muthia Dewi et al.
local.export.bibtexKeyBerg2023
local.export.bibtexType@article

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