Adi Raveh scite author profile

While cultural fit has been acknowledged to be a potentially important factor in mergers and acquisitions, the concept has been ill-defined, with no distinction drawn between the national and corporate levels of culture. By examining both international and domestic mergers, the present study assesses the relative role of national and corporate cultural fit in predicting effective integration between merger partners. The innovative, nonparametric co-plot method is introduced, and its main advantage---the simultaneous consideration of both variables and observations---is utilized to explore cultural fit in the two groups of mergers. The findings confirm that national and corporate culture are separate constructs with variable attitudinal and behavioral correlates.co-plot, graphic display, corporate cultural, national culture, international and domestics mergers and acquisitions, top management behavior

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SARAF Inactivates the Store Operated Calcium Entry Machinery to Prevent Excess Calcium Refilling

Palty

Raveh

Kaminsky

et al. 2012

Cell

251

301

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Store operated calcium entry (SOCE) is a principal cellular process by which cells regulate basal calcium, refill intracellular Ca(2+) stores, and execute a wide range of specialized activities. STIM and Orai proteins have been identified as the essential components enabling the reconstitution of Ca(2+) release-activated Ca(2+) (CRAC) channels that mediate SOCE. Here, we report the molecular identification of SARAF as a negative regulator of SOCE. Using heterologous expression, RNAi-mediated silencing and site directed mutagenesis combined with electrophysiological, biochemical and imaging techniques we show that SARAF is an endoplasmic reticulum membrane resident protein that associates with STIM to facilitate slow Ca(2+)-dependent inactivation of SOCE. SARAF plays a key role in shaping cytosolic Ca(2+) signals and determining the content of the major intracellular Ca(2+) stores, a role that is likely to be important in protecting cells from Ca(2+) overfilling.

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Modular composition and dynamics of native GABAB receptors identified by high-resolution proteomics

et al. 2015

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GABAB receptors, the most abundant inhibitory G protein-coupled receptors in the mammalian brain, display pronounced diversity in functional properties, cellular signaling and subcellular distribution. We used high-resolution functional proteomics to identify the building blocks of these receptors in the rodent brain. Our analyses revealed that native GABAB receptors are macromolecular complexes with defined architecture, but marked diversity in subunit composition: the receptor core is assembled from GABAB1a/b, GABAB2, four KCTD proteins and a distinct set of G-protein subunits, whereas the receptor's periphery is mostly formed by transmembrane proteins of different classes. In particular, the periphery-forming constituents include signaling effectors, such as Cav2 and HCN channels, and the proteins AJAP1 and amyloid-β A4, both of which tightly associate with the sushi domains of GABAB1a. Our results unravel the molecular diversity of GABAB receptors and their postnatal assembly dynamics and provide a roadmap for studying the cellular signaling of this inhibitory neurotransmitter receptor.

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Urban density and energy consumption: a new look at old statistics

Mindali

Raveh

Salomon

2004

Transportation Research Part A: Policy and Practice

181

107

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Complex formation of APP with GABAB receptors links axonal trafficking to amyloidogenic processing

et al. 2019

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GABAB receptors (GBRs) are key regulators of synaptic release but little is known about trafficking mechanisms that control their presynaptic abundance. We now show that sequence-related epitopes in APP, AJAP-1 and PIANP bind with nanomolar affinities to the N-terminal sushi-domain of presynaptic GBRs. Of the three interacting proteins, selectively the genetic loss of APP impaired GBR-mediated presynaptic inhibition and axonal GBR expression. Proteomic and functional analyses revealed that APP associates with JIP and calsyntenin proteins that link the APP/GBR complex in cargo vesicles to the axonal trafficking motor. Complex formation with GBRs stabilizes APP at the cell surface and reduces proteolysis of APP to Aβ, a component of senile plaques in Alzheimer’s disease patients. Thus, APP/GBR complex formation links presynaptic GBR trafficking to Aβ formation. Our findings support that dysfunctional axonal trafficking and reduced GBR expression in Alzheimer’s disease increases Aβ formation.

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Adi Raveh

National and Corporate Cultural Fit in Mergers/Acquisitions: An Exploratory Study

SARAF Inactivates the Store Operated Calcium Entry Machinery to Prevent Excess Calcium Refilling

Modular composition and dynamics of native GABAB receptors identified by high-resolution proteomics

Urban density and energy consumption: a new look at old statistics

Complex formation of APP with GABAB receptors links axonal trafficking to amyloidogenic processing

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