Proteomics
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Cytochrome c oxidase (COX), the terminal enzyme of the mitochondrial electron transport chain, is regulated by isozyme expression, allosteric effectors such as the ATP/ADP ratio, and reversible phosphorylation. Of particular interest is the "allosteric ATP-inhibition," which has been hypothesized to keep the mitochondrial membrane potential at low healthy values (<140 mV), thus preventing the formation of superoxide radical anions, which have been implicated in multiple degenerative diseases. It has been proposed that the "allosteric ATP-inhibition" is switched on by the protein kinase A-dependent phosphorylation of COX. ⋯ The identified phosphorylation sites include Tyr-218 in subunit II, Ser-1 in subunit Va, Ser-2 in subunit Vb, and Ser-1 in subunit VIIc. With the exception of Ser-2 in subunit Vb, the identified phosphorylation sites were found in enzyme samples with and without "allosteric ATP inhibition," making Ser-2 of subunit Vb a candidate site enabling allosteric regulation. We therefore hypothesize that additional phosphorylation(s) may be required for the "allosteric ATP-inhibition," and that these sites may be easily dephosphorylated or difficult to identify by mass spectrometry.
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We have previously shown that the dinuclear zinc(II) complex Phos-tag and its derivatives act as phosphate-capture molecules in aqueous solution under conditions of neutral pH. In this study, our aim was to develop more-advanced applications for the detection of phosphopeptides and phosphoproteins by using several newly synthesized Phos-tag derivatives, including a bisbiotinylated Phos-tag (BTL-108), a tetrakisbiotinylated Phos-tag (BTL-109), and a monobiotinylated Phos-tag with a dodeca(ethylene glycol) spacer (BTL-111), as well as the commercially available product BTL-104. ⋯ In addition, in a quartz-crystal microbalance analysis of a phosphoprotein, the presence of the long hydrophilic dodeca(ethylene glycol) spacer in a novel Phos-tag sensor chip coated with BTL-111 resulted in a greater sensitivity than was achieved with a similar chip coated with BTL-104. Moreover, a peptide microarray technique using the ECL system and BTL-111 permitted high-throughput assays for the specific and highly sensitive detection of protein kinase activities in cell lysates.