Martha Stapels scite author profile

Proteorhodopsins are light-dependent proton pumps that are predicted to have an important role in the ecology of the oceans by supplying energy for microbial metabolism. Proteorhodopsin genes were first discovered through the cloning and sequencing of large genomic DNA fragments from seawater. They were later shown to be widely distributed, phylogenetically diverse, and active in the oceans. Proteorhodopsin genes have not been found in cultured bacteria, and on the basis of environmental sequence data, it has not yet been possible to reconstruct the genomes of uncultured bacterial strains that have proteorhodopsin genes. Although the metabolic effect of proteorhodopsins is uncertain, they are thought to function in cells for which the primary mode of metabolism is the heterotrophic assimilation of dissolved organic carbon. Here we report that SAR11 strain HTCC1062 ('Pelagibacter ubique'), the first cultivated member of the extraordinarily abundant SAR11 clade, expresses a proteorhodopsin gene when cultured in autoclaved seawater and in its natural environment, the ocean. The Pelagibacter proteorhodopsin functions as a light-dependent proton pump. The gene is expressed by cells grown in either diurnal light or in darkness, and there is no difference between the growth rates or cell yields of cultures grown in light or darkness.

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Analysis of host-cell proteins in biotherapeutic proteins by comprehensive online two-dimensional liquid chromatography/mass spectrometry

Doneanu

Xenopoulos

Fadgen

et al. 2012

mAbs

154

150

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Polycomb Group Proteins as Epigenetic Mediators of Neuroprotection in Ischemic Tolerance

et al. 2010

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Exposing the brain to sublethal ischemia affects the response to a subsequent, otherwise injurious ischemia, resulting in transcriptional suppression and neuroprotection, a response called ischemic tolerance. Here, we show that the proteomic signature of the ischemic-tolerant brain is characterized by increased abundance of transcriptional repressors, particularly polycomb group (PcG) proteins. Knocking down PcG proteins precluded the induction of ischemic tolerance, whereas in an in vitro model, overexpressing the PcG proteins SCMH1 or BMI1 induced tolerance to ischemia without preconditioning. We found that PcG proteins are associated with the promoter regions of genes encoding two potassium channel proteins that show decreased abundance in ischemic-tolerant brains. Furthermore, PcG proteins decreased potassium currents in cultured neuronal cells and knocking down potassium channels elicited tolerance without preconditioning. These findings reveal a previously unknown mechanism of neuroprotection that involves gene repressors of the PcG family.

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Complementary Use of MALDI and ESI for the HPLC-MS/MS Analysis of DNA-Binding Proteins

Stapels

Barofsky

2004

Anal. Chem.

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Proteins from Escherichia coli were isolated based on their ability to bind DNA and digested in-solution with trypsin; the resulting peptides were separated using HPLC and subsequently analyzed using MALDI TOF/TOF and ESI Q-TOF instruments. Various properties of the peptides observed with the two ionization techniques were compared taking into account the differences between the mass analyzers. This empirical analysis of a data set containing hundreds of peptides and thousands of individual amino acids supports some of the currently held notions regarding the complementary nature of the two ionization processes. Specifically, ESI tends to favor the identification of hydrophobic peptides whereas MALDI tends to lead to the identification of basic and aromatic species. Findings from the present study suggest that ESI and MALDI may be complementary due to the biases of the two ionization techniques for certain classes of amino acids. From a practical standpoint, these biases indicate that, for the present at least, analyses must be performed on both types of instruments in order to gain the most information possible out of a given set of samples in a proteomics study.

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Martha Stapels

Proteorhodopsin in the ubiquitous marine bacterium SAR11

Analysis of host-cell proteins in biotherapeutic proteins by comprehensive online two-dimensional liquid chromatography/mass spectrometry

Polycomb Group Proteins as Epigenetic Mediators of Neuroprotection in Ischemic Tolerance

Complementary Use of MALDI and ESI for the HPLC-MS/MS Analysis of DNA-Binding Proteins

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