Shelly Rozen scite author profile

The highly conserved COP9 signalosome (CSN) complex is a key regulator of all cullin-RING-ubiquitin ligases (CRLs), the largest family of E3 ubiquitin ligases. Until now, it was accepted that the CSN is composed of eight canonical components. Here, we report the discovery of an additional integral and stoichiometric subunit that had thus far evaded detection, and we named it CSNAP (CSN acidic protein). We show that CSNAP binds CSN3, CSN5, and CSN6, and its incorporation into the CSN complex is mediated through the C-terminal region involving conserved aromatic residues. Moreover, depletion of this small protein leads to reduced proliferation and a flattened and enlarged morphology. Finally, on the basis of sequence and structural properties shared by both CSNAP and DSS1, a component of the related 19S lid proteasome complex, we propose that CSNAP, the ninth CSN subunit, is the missing paralogous subunit of DSS1.

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The Evolutionary Potential of Phenotypic Mutations

Yanagida

Gispan

Kadouri

et al. 2015

PLoS Genet

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Errors in protein synthesis, so-called phenotypic mutations, are orders-of-magnitude more frequent than genetic mutations. Here, we provide direct evidence that alternative protein forms and phenotypic variability derived from translational errors paved the path to genetic, evolutionary adaptations via gene duplication. We explored the evolutionary origins of Saccharomyces cerevisiae IDP3 - an NADP-dependent isocitrate dehydrogenase mediating fatty acids ß-oxidation in the peroxisome. Following the yeast whole genome duplication, IDP3 diverged from a cytosolic ancestral gene by acquisition of a C-terminal peroxisomal targeting signal. We discovered that the pre-duplicated cytosolic IDPs are partially localized to the peroxisome owing to +1 translational frameshifts that bypass the stop codon and unveil cryptic peroxisomal targeting signals within the 3’-UTR. Exploring putative cryptic signals in all 3’-UTRs of yeast genomes, we found that other enzymes related to NADPH production such as pyruvate carboxylase 1 (PYC1) might be prone to peroxisomal localization via cryptic signals. Using laboratory evolution we found that these translational frameshifts are rapidly imprinted via genetic single base deletions occurring within the very same gene location. Further, as exemplified here, the sequences that promote translational frameshifts are also more prone to genetic deletions. Thus, genotypes conferring higher phenotypic variability not only meet immediate challenges by unveiling cryptic 3’-UTR sequences, but also boost the potential for future genetic adaptations.

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Exposing the subunit diversity within protein complexes: A mass spectrometry approach

Rozen

Tieri

Ridner

et al. 2013

Methods

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The role of the 3′ region of mammalian gonadotropin β subunit gene in the luteinizing hormone to chorionic gonadotropin evolution

Gabay

Rozen

Samokovlisky³

et al. 2014

Molecular and Cellular Endocrinology

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Yanagida¹,

Gispan²,

Kadouri³

et al.

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Shelly Rozen

CSNAP Is a Stoichiometric Subunit of the COP9 Signalosome

The Evolutionary Potential of Phenotypic Mutations

Exposing the subunit diversity within protein complexes: A mass spectrometry approach

The role of the 3′ region of mammalian gonadotropin β subunit gene in the luteinizing hormone to chorionic gonadotropin evolution

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