Abstract
BackgroundCellular respiration is the process by which cells obtain energy from glucose and is a very important biological process in living cell. As cells do cellular respiration, they need a pathway to store and transport electrons, the electron transport chain. The function of the electron transport chain is to produce a trans-membrane proton electrochemical gradient as a result of oxidation–reduction reactions. In these oxidation–reduction reactions in electron transport chains, metal ions play very important role as electron donor and acceptor. For example, Fe ions are in complex I and complex II, and Cu ions are in complex IV. Therefore, to identify metal-binding sites in electron transporters is an important issue in helping biologists better understand the workings of the electron transport chain.MethodsWe propose a method based on Position Specific Scoring Matrix (PSSM) profiles and significant amino acid pairs to identify metal-binding residues in electron transport proteins.ResultsWe have selected a non-redundant set of 55 metal-binding electron transport proteins as our dataset. The proposed method can predict metal-binding sites in electron transport proteins with an average 10-fold cross-validation accuracy of 93.2% and 93.1% for metal-binding cysteine and histidine, respectively. Compared with the general metal-binding predictor from A. Passerini et al., the proposed method can improve over 9% of sensitivity, and 14% specificity on the independent dataset in identifying metal-binding cysteines. The proposed method can also improve almost 76% sensitivity with same specificity in metal-binding histidine, and MCC is also improved from 0.28 to 0.88.ConclusionsWe have developed a novel approach based on PSSM profiles and significant amino acid pairs for identifying metal-binding sites from electron transport proteins. The proposed approach achieved a significant improvement with independent test set of metal-binding electron transport proteins.
Highlights
Cellular respiration is the process by which cells obtain energy from glucose
As cells do cellular respiration, they need a pathway to store and transport electrons, the electron transport chain
We have developed a novel approach based on Position Specific Scoring Matrix (PSSM) profiles and significant amino acid pairs for identifying metal-binding sites from electron transport proteins
Summary
Cellular respiration is the process by which cells obtain energy from glucose. The point of cellular respiration is to harvest electrons from organic compounds such as glucose and use that energy to make a molecule called ATP (adenosine triphosphate). The function of the electron transport chain is to produce a trans-membrane proton electrochemical gradient as a result of oxidation-reduction reactions. As cells do cellular respiration, they need a pathway to store and transport electrons, the electron transport chain. In these oxidation–reduction reactions in electron transport chains, metal ions play very important role as electron donor and acceptor. To identify metal-binding sites in electron transporters is an important issue in helping biologists better understand the workings of the electron transport chain
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