Studies on G-protein α·βγ heterotrimer formation reveal a putative S-prenyl-binding site in the α subunit

Dietrich, Alexander; Scheer, Alexander; Illenberger, Daria; Kloog, Yoel; Henis, Yoav I.; Gierschik, Peter

doi:10.1042/bj20030578

Cited by 26 publications

(18 citation statements)

References 53 publications

(81 reference statements)

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“…Although protein prenylation may facilitate anchoring of proteins to lipid membranes, data suggesting its role in protein interaction and activation are accumulating (12,17,19,28,30,38). Our data support the proposition of Magee and Seabra (26), which stresses the role of prenyl groups in protein- protein FIG.…”

Section: Discussionsupporting

confidence: 83%

Prenylation of Saccharomyces cerevisiae Chs4p Affects Chitin Synthase III Activity and Chitin Chain Length

2007

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Chs4p (Cal2/Csd4/Skt5) was identified as a protein factor physically interacting with Chs3p, the catalytic subunit of chitin synthase III (CSIII), and is indispensable for its enzymatic activity in vivo. Chs4p contains a putative farnesyl attachment site at the C-terminal end (CVIM motif) conserved in Chs4p of Saccharomyces cerevisiae and other fungi. Several previous reports questioned the role of Chs4p prenylation in chitin biosynthesis. In this study we reinvestigated the function of Chs4p prenylation. We provide evidence that Chs4p is farnesylated by showing that purified Chs4p is recognized by anti-farnesyl antibody and is a substrate for farnesyl transferase (FTase) in vitro and that inactivation of FTase increases the amount of unmodified Chs4p in yeast cells. We demonstrate that abolition of Chs4p prenylation causes a ϳ60% decrease in CSIII activity, which is correlated with a ϳ30% decrease in chitin content and with increased resistance to the chitin binding compound calcofluor white. Furthermore, we show that lack of Chs4p prenylation decreases the average chain length of the chitin polymer. Prenylation of Chs4p, however, is not a factor that mediates plasma membrane association of the protein. Our results provide evidence that the prenyl moiety attached to Chs4p is a factor modulating the activity of CSIII both in vivo and in vitro.

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Section: Discussionsupporting

confidence: 83%

Prenylation of Saccharomyces cerevisiae Chs4p Affects Chitin Synthase III Activity and Chitin Chain Length

2007

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“…The prenyltransferases contain a common ␣ subunit and one of two different ␤ subunits that confer specificity for either farnesyl or geranylgeranyl addition. Although the prenyl group typically anchors the protein to the plasma membrane, recent studies showed that it can also act as a "greasy finger" to enhance protein-protein interactions (23). Scans of various eukaryotic genomes indicate that many proteins are potential prenylation targets (Ͼ100 in Arabidopsis thaliana (24)).…”

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confidence: 99%

MUBs, a Family of Ubiquitin-fold Proteins That Are Plasma Membrane-anchored by Prenylation

Downes

Saracco

Lee

et al. 2006

Journal of Biological Chemistry

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Ubiquitin (Ub)-fold proteins are rapidly emerging as an important class of eukaryotic modifiers, which often exert their influence by post-translational addition to other intracellular proteins. Despite assuming a common ␤-grasp threedimensional structure, their functions are highly diverse because of distinct surface features and targets and include tagging proteins for selective breakdown, nuclear import, autophagic recycling, vesicular trafficking, polarized morphogenesis, and the stress response. Here we describe a novel family of Membrane-anchored Ub-fold (MUB) proteins that are present in animals, filamentous fungi, and plants. Extending from the C terminus of the Ub-fold is typically a cysteinecontaining CAAX (where A indicates aliphatic amino acid) sequence that can direct the attachment of either a 15-carbon farnesyl or a 20-carbon geranylgeranyl moiety in vitro. Modified forms of several MUBs were detected in transgenic Arabidopsis thaliana, suggesting that these MUBs are prenylated in vivo. Both cell fractionation and confocal microscopic analyses of Arabidopsis plants expressing GFP-MUB fusions showed that the modified forms are membrane-anchored with a significant enrichment on the plasma membrane. This plasma membrane location was blocked in vivo in prenyltransferase mutants and by mevinolin, which inhibits the synthesis of prenyl groups. In addition to the five MUBs with CAAX boxes, Arabidopsis has one MUB variant with a cysteine-rich C terminus distinct from the CAAX box that is also membrane-anchored, possibly through the attachment of a long chain acyl group. Although the physiological role(s) of MUBs remain unknown, the discovery of these prenylated forms further expands the diversity and potential functions of Ub-fold proteins in eukaryotic biology.The superfamily of ubiquitin (Ub) 4 -type proteins has emerged over the last decade as an influential set of post-translational modifiers in eukaryotes. These small proteins (ϳ75-180 amino acids) contain a signature ␤-grasp (or Ub-fold) core domain, created by an ␣-helix transversing a groove created by an arched four-strand ␤-sheet (1). Extending from the core is a short flexible C-terminal extension that enables their attachment to other molecules through the terminal carboxyl group. The first and best-known member of this family is Ub (2, 3). It functions by becoming ligated to other proteins through an isopeptide bond between the C-terminal glycine of Ub and free lysine ⑀-amino groups in the target. The main role of Ub is to direct selective proteolysis by assembling chains of Ub monomers linked internally through Lys-48 onto various target proteins to promote their recognition by the 26 S proteasome. Others include roles in DNA repair via attachment of Lys-63-linked chains and endomembrane trafficking, transcription, and chromatin remodeling via attachment of Ub monomers (2, 3).Since the discovery of Ub, a number of related modifiers have been found, including Related to Ub-1 (RUB1 or NEDD8), Small-Ub-like Modifier (SUMO), Autophagy (ATG)-8 an...

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“…In this issue of the Biochemical Journal, Dietrich et al [31] report a similar approach, where prenylcysteine analogues have been shown to directly inhibit interaction between transducin α-subunit and the geranylgeranyl group of the γ -subunit. Both farnesyl and geranylgeranyl derivatives were effective, and inhibition was competitive and reversible.…”

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confidence: 99%

Are prenyl groups on proteins sticky fingers or greasy handles?

Magee

Seabra

2003

Biochemical Journal

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Studies on G-protein α·βγ heterotrimer formation reveal a putative S-prenyl-binding site in the α subunit

Cited by 26 publications

References 53 publications

Prenylation of Saccharomyces cerevisiae Chs4p Affects Chitin Synthase III Activity and Chitin Chain Length

Prenylation of Saccharomyces cerevisiae Chs4p Affects Chitin Synthase III Activity and Chitin Chain Length

MUBs, a Family of Ubiquitin-fold Proteins That Are Plasma Membrane-anchored by Prenylation

Are prenyl groups on proteins sticky fingers or greasy handles?

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