Mona Weiss scite author profile

Although protein expression is regulated both temporally and spatially, most proteins have an intrinsic, “typical” range of functionally effective abundance levels. These extend from a few molecules per cell for signaling proteins, to millions of molecules for structural proteins. When addressing fundamental questions related to protein evolution, translation and folding, but also in routine laboratory work, a simple rough estimate of the average wild type abundance of each detectable protein in an organism is often desirable. Here, we introduce a meta-resource dedicated to integrating information on absolute protein abundance levels; we place particular emphasis on deep coverage, consistent post-processing and comparability across different organisms. Publicly available experimental data are mapped onto a common namespace and, in the case of tandem mass spectrometry data, re-processed using a standardized spectral counting pipeline. By aggregating and averaging over the various samples, conditions and cell-types, the resulting integrated data set achieves increased coverage and a high dynamic range. We score and rank each contributing, individual data set by assessing its consistency against externally provided protein-network information, and demonstrate that our weighted integration exhibits more consistency than the data sets individually. The current PaxDb-release 2.1 (at http://pax-db.org/) presents whole-organism data as well as tissue-resolved data, and covers 85,000 proteins in 12 model organisms. All values can be seamlessly compared across organisms via pre-computed orthology relationships.

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Arabidopsis Female Gametophyte Gene Expression Map Reveals Similarities between Plant and Animal Gametes

Wuest

et al. 2010

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The development of multicellular organisms is controlled by differential gene expression whereby cells adopt distinct fates. A spatially resolved view of gene expression allows the elucidation of transcriptional networks that are linked to cellular identity and function. The haploid female gametophyte of flowering plants is a highly reduced organism: at maturity, it often consists of as few as three cell types derived from a common precursor [1, 2]. However, because of its inaccessibility and small size, we know little about the molecular basis of cell specification and differentiation in the female gametophyte. Here we report expression profiles of all cell types in the mature Arabidopsis female gametophyte. Differentially expressed posttranscriptional regulatory modules and metabolic pathways characterize the distinct cell types. Several transcription factor families are overrepresented in the female gametophyte in comparison to other plant tissues, e.g., type I MADS domain, RWP-RK, and reproductive meristem transcription factors. PAZ/Piwi-domain encoding genes are upregulated in the egg, indicating a role of epigenetic regulation through small RNA pathways-a feature paralleled in the germline of animals [3]. A comparison of human and Arabidopsis egg cells for enrichment of functional groups identified several similarities that may represent a consequence of coevolution or ancestral gametic features.

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Comparative Functional Analysis of the Caenorhabditis elegans and Drosophila melanogaster Proteomes

et al. 2009

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The nematode Caenorhabditis elegans is a popular model system in genetics, not least because a majority of human disease genes are conserved in C. elegans. To generate a comprehensive inventory of its expressed proteome, we performed extensive shotgun proteomics and identified more than half of all predicted C. elegans proteins. This allowed us to confirm and extend genome annotations, characterize the role of operons in C. elegans, and semiquantitatively infer abundance levels for thousands of proteins. Furthermore, for the first time to our knowledge, we were able to compare two animal proteomes (C. elegans and Drosophila melanogaster). We found that the abundances of orthologous proteins in metazoans correlate remarkably well, better than protein abundance versus transcript abundance within each organism or transcript abundances across organisms; this suggests that changes in transcript abundance may have been partially offset during evolution by opposing changes in protein abundance.

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Speaking up and moving up: How voice can enhance employees' social status

2018

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A central argument in the literature on employee voice is that speaking up at work carries image risk. Challenging this assumption, we propose that voice can in fact positively affect how employees are viewed by others, thereby enhancing their social status. Using theory on status attainment and the fundamental social perception dimensions of agency and communion, we suggest that employee voice will result in higher status evaluations by increasing the extent to which an employee is judged as confident/competent (agency) and other-oriented/helpful (communion). We conducted a survey study and two experiments to test these hypotheses.The results supported our predictions. Employees who voiced were ascribed higher status than those who did not, and this effect was mediated by judgments of agency (in all three studies) and communion (in two studies). These results highlight the implications of voice behavior for status enhancement within organizations. KEYWORDS agency and communion, employee voice, proactive behavior, social status

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Mona Weiss

PaxDb, a Database of Protein Abundance Averages Across All Three Domains of Life

Arabidopsis Female Gametophyte Gene Expression Map Reveals Similarities between Plant and Animal Gametes

Comparative Functional Analysis of the Caenorhabditis elegans and Drosophila melanogaster Proteomes

Speaking up and moving up: How voice can enhance employees' social status

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