Intracellular protein and nucleic acid measured in eight cell types using deep‐ultraviolet mass mapping

Cheung, Monit; LaCroix, Rebecca; McKenna, Brian; Liu, Ling; Winkelman, James W.; Ehrlich, D. J.

doi:10.1002/cyto.a.22277

Cited by 65 publications

(57 citation statements)

References 25 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The protein content per cell remained unchanged at approximately 150 pg protein per cell (Fig. 4B), which corresponds well with published values using a CHO-K1 cell line 28 . Antibody productivity in cell pools was assayed in two ways: 1) by an antibody staining method and subsequent FACS analysis ( Fig.…”

Section: Antibody-producing Knockout Cell Lines Display Higher Producsupporting

confidence: 89%

Multiplex secretome engineering enhances recombinant protein production and purity

Kol

Ley

Wulff

et al. 2019

Preprint

View full text Add to dashboard Cite

AbstractHost cell proteins (HCPs) are process-related impurities generated during biotherapeutic protein production. HCPs can be problematic if they pose a significant metabolic demand, degrade product quality, or contaminate the final product. Here, we present an effort to create a “clean” Chinese hamster ovary (CHO) cell by disrupting multiple genes to eliminate HCPs. Using a model of CHO cell protein secretion, we predicted the elimination of unnecessary HCPs could have a non-negligible impact on protein production. We analyzed the total HCP content of 6-protein, 11-protein, and 14-protein knockout clones and characterized their growth in shake flasks and bioreactors. These cell lines exhibited a substantial reduction in total HCP content (40%-70%). We also observed higher productivity and improved growth characteristics, in specific clones. With the reduced HCP content, protein A and ion exchange chromatography more efficiently purified a monoclonal antibody (mAb) produced in these cells during a three-step purification process. Thus, substantial improvements can be made in protein titer and purity through large-scale HCP deletion, providing an avenue to increased quality and affordability of high-value biopharmaceuticals.

show abstract

Section: Antibody-producing Knockout Cell Lines Display Higher Producsupporting

confidence: 89%

Multiplex secretome engineering enhances recombinant protein production and purity

Kol

Ley

Wulff

et al. 2019

Preprint

View full text Add to dashboard Cite

show abstract

“…Recently, sensitive detectors have enabled quantitative absorption measurements in living mammalian cells in the deep UV range 64,65 . Successive images at two different wavelengths (for example, 260 and 280 nm) can be used to quantify the mass of protein and the mass of nucleic acids from the average extinction coefficients at these wavelengths.…”

Section: Optical Approachesmentioning

confidence: 99%

“…Successive images at two different wavelengths (for example, 260 and 280 nm) can be used to quantify the mass of protein and the mass of nucleic acids from the average extinction coefficients at these wavelengths. Live-cell imaging can be performed as well, within certain limits to avoid phototoxicity 65 . Live-cell UV absorption measurements indicate that the ratio of protein to nucleic acids is moderately consistent within individual cell lines across the cell cycle, or within cells from the same mouse embryo, although it is more highly variable among different cell lines or cells from different embryos.…”

Section: Optical Approachesmentioning

confidence: 99%

Live-cell mass profiling: an emerging approach in quantitative biophysics

2014

View full text Add to dashboard Cite

Cell mass, volume and growth rate are tightly controlled biophysical parameters in cellular development and homeostasis, and pathological cell growth defines cancer in metazoans. The first measurements of cell mass were made in the 1950s, but only recently have advances in computer science and microfabrication spurred the rapid development of precision mass-quantifying approaches. Here we discuss available techniques for quantifying the mass of single live cells with an emphasis on relative features, capabilities and drawbacks for different applications.

show abstract

“…Most protein biochemistry research is carried out at protein concentrations <10 g L −1 , yet Escherichia coli cells contain over 300 g L −1 of macromolecules . Eukaryotic cells contain a greater variety of macromolecules that participate in more complex cellular processes, and compartmentalization within organelles emphasizes the important of quinary structure . In 1984, Clegg asserted “it is no longer reasonable to assume that molecules in cells experience an aqueous cytoplasmic microenvironment comparable to the test tube.” Despite early observations that transient chemical interactions modulate protein behavior in cells, interest in quinary structure remained dormant, partially because technology to study proteins in cells did not yet exist.…”

Section: Characterizing Quinary Structurementioning

confidence: 99%

A cell is more than the sum of its (dilute) parts: A brief history of quinary structure

2017

View full text Add to dashboard Cite

Gary Pielak is the winner of the 2016 Carl Brand en Award.Abstract: Most knowledge of protein structure and function is derived from experiments performed with purified protein resuspended in dilute, buffered solutions. However, proteins function in the crowded, complex cellular environment. Although the first four levels of protein structure provide important information, a complete understanding requires consideration of quinary structure. Quinary structure comprises the transient interactions between macromolecules that provides organization and compartmentalization inside cells. We review the history of quinary structure in the context of several metabolic pathways, and the technological advances that have yielded recent insight into protein behavior in living cells. The evidence demonstrates that protein behavior in isolated solutions deviates from behavior in the physiological environment.

show abstract

Intracellular protein and nucleic acid measured in eight cell types using deep‐ultraviolet mass mapping

Cited by 65 publications

References 25 publications

Multiplex secretome engineering enhances recombinant protein production and purity

Multiplex secretome engineering enhances recombinant protein production and purity

Live-cell mass profiling: an emerging approach in quantitative biophysics

A cell is more than the sum of its (dilute) parts: A brief history of quinary structure

Contact Info

Product

Resources

About