2006
DOI: 10.1186/1741-7007-4-39
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The effects of incomplete protein interaction data on structural and evolutionary inferences

Abstract: Background: Present protein interaction network data sets include only interactions among subsets of the proteins in an organism. Previously this has been ignored, but in principle any global network analysis that only looks at partial data may be biased. Here we demonstrate the need to consider network sampling properties explicitly and from the outset in any analysis.

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Cited by 60 publications
(43 citation statements)
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“…The correlations between phenomic variables are typically positive (for example, highly expressed proteins also tend to interact with many other proteins and have many paralogues), whereas the correlations between phenomic and evolutionary variables are generally negative (for example, highly expressed genes on average evolve more slowly than those expressed at a low level). Most of these correlations are statistically significant but relatively weak, so caution is required (experimental biases should be investigated as potential causes 98-100 ), but the overall pattern of positive and negative correlations seems to be undeniable 97,101 . Thus, constraints on the ranges of phenomic variables partly seem to constrain the evolution of gene sequences, gene repertoires and genome architectures, as shown by the model of protein evolution discussed above.…”
Section: Constraints On Molecular Phenotypesmentioning
confidence: 99%
“…The correlations between phenomic variables are typically positive (for example, highly expressed proteins also tend to interact with many other proteins and have many paralogues), whereas the correlations between phenomic and evolutionary variables are generally negative (for example, highly expressed genes on average evolve more slowly than those expressed at a low level). Most of these correlations are statistically significant but relatively weak, so caution is required (experimental biases should be investigated as potential causes 98-100 ), but the overall pattern of positive and negative correlations seems to be undeniable 97,101 . Thus, constraints on the ranges of phenomic variables partly seem to constrain the evolution of gene sequences, gene repertoires and genome architectures, as shown by the model of protein evolution discussed above.…”
Section: Constraints On Molecular Phenotypesmentioning
confidence: 99%
“…(iv) PPI detection methods are associated with technical biases and the choice of proteins tested for interaction partners introduces a study bias (10,1213). The noisy and biased nature of the PPI networks can severely impact the biological hypotheses generated from these data (1416). …”
Section: Introductionmentioning
confidence: 99%
“…falciparum is displayed in Figure 5. De Silva et al [22] proposed a simple estimator of the network size based on the sampling fraction ρ of proteins that are present in the dataset. Applied to H.…”
Section: Resultsmentioning
confidence: 99%