Shoba Reginald scite author profile

The neurofibromatosis type 1 (NF1) tumor suppressor protein is thought to restrict cell proliferation by functioning as a Ras-specific guanosine triphosphatase-activating protein. However, Drosophila homozygous for null mutations of an NF1 homolog showed no obvious signs of perturbed Ras1-mediated signaling. Loss of NF1 resulted in a reduction in size of larvae, pupae, and adults. This size defect was not modified by manipulating Ras1 signaling but was restored by expression of activated adenosine 3', 5'-monophosphate-dependent protein kinase (PKA). Thus, NF1 and PKA appear to interact in a pathway that controls the overall growth of Drosophila.

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Topology analysis of the colicin V export protein CvaA in Escherichia coli

Skvirsky

Reginald

Shen

1995

J Bacteriol

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The antibacterial protein toxin colicin V is secreted from Escherichia coli cells by a dedicated export system that is a member of the multicomponent ATP-binding cassette (ABC) transporter family. At least three proteins, CvaA, CvaB, and TolC, are required for secretion via this signal sequence-independent pathway. In this study, the subcellular location and transmembrane organization of membrane fusion protein CvaA were investigated. First, a series of CvaA-alkaline phosphatase (AP) protein fusions was constructed. Inner and outer membrane fractionations of cells bearing these fusions indicated that CvaA is inner membrane associated. To localize the fusion junctions, the relative activities of the fusion proteins, i.e., the amounts of phosphatase activity normalized to the rate of synthesis of each protein, as well as the stability of each fusion, were determined. These results indicated that all of the fusion junctions occur on the same side of the inner membrane. In addition, the relative activities were compared with that of native AP, and the protease accessibility of the AP moieties in spheroplasts and whole cells was analyzed. The results of these experiments suggested that the fusion junctions occur within periplasmic regions of CvaA. We conclude that CvaA is an inner membrane protein with a single transmembrane domain near its N terminus; the large C-terminal region extends into the periplasm. This study demonstrates the application of AP fusion analysis to elucidate the topology of a membrane-associated protein having only a single transmembrane domain.

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Is the CvaA* protein, encoded within the colicin V export genecvaA, required for colicin V transport?

Skvirsky

Shen

Reginald

1996

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The antibacterial peptide toxin colicin V is exported from Escherichia coli cells by a signal sequence-independent, ABC export system. Export requires at least three proteins-membrane fusion protein CvaA, ABC export protein CvaB, and outer membrane protein TolC. The cvaA gene also encodes a second protein, CvaA, initiated from an in-frame translational re-start within the cvaA coding sequence. To determine whether the internally encoded CvaA protein also functions in the export pathway, the putative start codons for CvaA were mutagenized, while maintaining CvaA function. Elimination of CvaA translation caused no change in colicin V export levels, indicating that the CvaA protein is not required in the secretion pathway.

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Shoba Reginald

Rescue of a Drosophila NF1 Mutant Phenotype by Protein Kinase A

Topology analysis of the colicin V export protein CvaA in Escherichia coli

Is the CvaA* protein, encoded within the colicin V export genecvaA, required for colicin V transport?

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