In Silico Prediction and Analysis of Caenorhabditis EF-hand Containing Proteins

Manish Kumar,Ejaz Ahmad,Rizwan Hasan Khan,Shadab Ahmad,Muheet Alam Saifi

doi:10.1371/journal.pone.0036770

Manish Kumar, Ejaz Ahmad + Show 3 more

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https://doi.org/10.1371/journal.pone.0036770

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Abstract

Calcium (Ca+2) is a ubiquitous messenger in eukaryotes including Caenorhabditis. Ca+2-mediated signalling processes are usually carried out through well characterized proteins like calmodulin (CaM) and other Ca+2 binding proteins (CaBP). These proteins interact with different targets and activate it by bringing conformational changes. Majority of the EF-hand proteins in Caenorhabditis contain Ca+2 binding motifs. Here, we have performed homology modelling of CaM-like proteins using the crystal structure of Drosophila melanogaster CaM as a template. Molecular docking was applied to explore the binding mechanism of CaM-like proteins and IQ1 motif which is a ∼25 residues and conform to the consensus sequence (I, L, V)QXXXRXXXX(R,K) to serve as a binding site for different EF hand proteins. We made an attempt to identify all the EF-hand (a helix-loop-helix structure characterized by a 12 residues loop sequence involved in metal coordination) containing proteins and their Ca+2 binding affinity in Caenorhabditis by analysing the complete genome sequence. Docking studies revealed that F165, F169, L29, E33, F44, L57, M61, M96, M97, M108, G65, V115, F93, N104, E144 of CaM-like protein is involved in the interaction with IQ1 motif. A maximum of 170 EF-hand proteins and 39 non-EF-hand proteins with Ca+2/metal binding motif were identified. Diverse proteins including enzyme, transcription, translation and large number of unknown proteins have one or more putative EF-hands. Phylogenetic analysis revealed seven major classes/groups that contain some families of proteins. Various domains that we identified in the EF-hand proteins (uncharacterized) would help in elucidating their functions. It is the first report of its kind where calcium binding loop sequences of EF-hand proteins were analyzed to decipher their calcium affinities. Variation in Ca+2-binding affinity of EF-hand CaBP could be further used to study the behaviour of these proteins. Our analyses postulated that Ca+2 is likely to be key player in Caenorhabditis cell signalling.

Highlights

All living cells are required to have a cross talk with the environment where they reside
Closer molecular interaction between CaM-like protein and IQ1 motif is seen among CaM-like protein residues F165, F169, L29, E33, F44, L57, M61, M96, M97, M108, G65, V115, F93, N104, E144, and IQ1 motif residues A1, I2, L3, L4, Q5
In this study it was found that A112, A39, E36 of CaM-like protein are important for strong hydrogen binding interaction with IQ1 motif

Summary

Introduction

All living cells are required to have a cross talk with the environment where they reside This cellular communication is facilitated by a lot of messengers. Ca2+ buffers (e.g., calbindin D9K and parvalbumin) are a smaller subset of the EF-hand protein family which does not undergo a significant conformational change on binding to free Ca2+ [5,6]. These proteins respond to the Ca2+ signal either by transmitting the signal throughout the cell or helping the cell in getting rid of the free Ca2+ from the cytoplasm [5,6]. One of the well-studied CaBP is calmodulin (CaM), a four EF-hand highly conserved CaBP [4]

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