Kim Lan Sim scite author profile

Kim Lan Sim

4Publications

64Citation Statements Received

166Citation Statements Given

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Affiliations

University of Kentucky, The University of Tokyo

Publications

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Abundance and Distributions of Eukaryote Protein Simple Sequences

Sim

Creamer

2002

Molecular & Cellular Proteomics

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Protein simple sequences are a subclass of low complexity regions of sequence that are highly enriched in one or a few residue types. Such sequences are common in transcription regulatory proteins, in structural proteins, in proteins involved in nucleic acid interactions, and in mediating protein-protein interactions. Simple sequences of 10 or more residues, containing >50% of a single residue type are surveyed in this work. Both eukaryote and prokaryote proteomes are investigated with emphasis on the eukaryotes. Very large numbers of such sequences are found in all organisms surveyed. It is found that eukaryotes possess far more simple sequences per protein than do the prokaryotes. Prokaryotes display a linear relationship between number of proteins containing simple sequences and proteome size, whereas it is not clear that such a relationship holds for eukaryotes. Strikingly, it is found that each eukaryote possesses its own unique distribution of simple sequences. Within those distributions it is found that simple sequences enriched in certain residue types are clearly favored, whereas others are just as clearly discriminated against. The preferences observed are not correlated with residue occurrence. An analysis of classes of proteins of known function suggests that simple sequence occurrence and distribution may be related to protein function. Based upon this analysis, the large number of simple sequences found above that would be expected from a simple statistical model, plus the known functional importance of numerous such sequences, it is postulated that eukaryotes have evolved to not only tolerate large numbers of simple sequences but also to require them.

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Protein simple sequence conservation

Sim

Creamer

2004

Proteins

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Protein simple sequences, a subset of low-complexity sequences, are regions of sequence highly enriched in one or a few residue types. Simple sequences are exceedingly common, the average being more than one per protein sequence. Despite being so common, such sequences are not well-studied. The simple sequences that have been subjected to detailed study are often found to possess important functions. Here we present a survey of protein simple sequences, generally enriched in a single residue type, with the aim of studying their conservation. We find that the majority of such simple sequences are not conserved. However, conserved protein simple sequences are relatively common, with approximately 11% of the surveyed protein families possessing a conserved simple sequence. The data obtained in this study support the idea that simple sequences are conserved for functional reasons. Such functions can range from substrate binding, to mediating protein-protein interactions, to structural integrity. A perhaps surprising finding is that the residue enriching a conserved simple sequence is itself not necessarily conserved. Neither is the length of many of the highly conserved simple sequences. In the few cases where structural and functional data is available it is found that the conserved simple sequences are consistent with both local structure and function. The data presented support the idea that protein simple sequences can be conserved and have important roles in protein structure and function.

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ProDDO: a database of disordered proteins from the Protein Data Bank (PDB)

Sim¹,

Uchida²,

Miyano³

2001

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Designing Views in HypothesisCreator: System for Assisting in Discovery

Maruyama

Uchida

Sim

et al. 1999

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Kim Lan Sim

Abundance and Distributions of Eukaryote Protein Simple Sequences

Protein simple sequence conservation

ProDDO: a database of disordered proteins from the Protein Data Bank (PDB)

Designing Views in HypothesisCreator: System for Assisting in Discovery

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