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Full-Text Articles in Viruses
Viruses Infecting Marine Picoplancton Encode Functional Potassium Ion Channels, Fenja Siotto, Corinna Martin, Oliver Rauh, James L. Van Etten, Indra Schroeder, Anna Moroni, Gerhard Thiel
Viruses Infecting Marine Picoplancton Encode Functional Potassium Ion Channels, Fenja Siotto, Corinna Martin, Oliver Rauh, James L. Van Etten, Indra Schroeder, Anna Moroni, Gerhard Thiel
James Van Etten Publications
Phycodnaviruses are dsDNA viruses, which infect algae. Their large genomes encode many gene products, like small K+ channels, with homologs in prokaryotes and eukaryotes. Screening for K+ channels revealed their abundance in viruses from fresh-water habitats. Recent sequencing of viruses from marine algae or from salt water in Antarctica revealed sequences with the predicted characteristics of K+ channels but with some unexpected features. Two genes encode either 78 or 79 amino acid proteins, which are the smallest known K+ channels. Also of interest is an unusual sequence in the canonical α-helixes in K+ channels. Structural prediction algorithms indicate that the …
Transmembrane Domain Length Of Viral K+ Channels Is A Signal For Mitochondria Targeting, Jorg Balss, Panagiotis Papatheodorou, Mario Mehmel, Dirk Baumeister, Brigitte Hertel, Nicolas Delaroque, Frank C. Chatelain, Daniel L. Minor Jr., James L. Van Etten, Joachim Rassow, Anna Moroni, Gerhard Thiel
Transmembrane Domain Length Of Viral K+ Channels Is A Signal For Mitochondria Targeting, Jorg Balss, Panagiotis Papatheodorou, Mario Mehmel, Dirk Baumeister, Brigitte Hertel, Nicolas Delaroque, Frank C. Chatelain, Daniel L. Minor Jr., James L. Van Etten, Joachim Rassow, Anna Moroni, Gerhard Thiel
James Van Etten Publications
K+ channels operate in the plasma membrane and in membranes of organelles including mitochondria. The mechanisms and topogenic information for their differential synthesis and targeting is unknown. This article describes 2 similar viral K+ channels that are differentially sorted; one protein (Kesv) is imported by the Tom complex into the mitochondria, the other (Kcv) to the plasma membrane. By creating chimeras we discovered that mitochondrial sorting of Kesv depends on a hierarchical combination of N- and C-terminal signals. Crucial is the length of the second transmembrane domain; extending its C terminus by >2 hydrophobic amino acids redirects Kesv …