Abstract
Sialic acid (Sia) is considered as one of the most important biomolecules of life since its derivatives and terminal orientations on cell membranes and macromolecules play a major role in many biological and pathological processes. To date, there is only a limited number of active molecules that can selectively bind to Sia and this limitation has made the study of this glycan challenging. The lectin superfamily is a well-known family of glycan binding proteins, which encompasses many strong glycan binding peptides with diverse glycan affinities. Mistletoe lectin (ML) is considered one of the most active members of lectin family which was initially classified in early studies as a galactose binding lectin; more recent studies have suggested that the peptide can also actively bind to Sia. However, the details with respect to Sia binding of ML and the domain responsible for this binding are left unanswered because no comprehensive studies have been instigated. In this study, we sought to identify the binding domain responsible for the sialic acid affinity of mistletoe lectin isoform I (MLI) in comparison to the binding activity of elderberry lectin isoform I (SNA), which has long been identified as a potent Sia binding lectin. In order to execute this, we performed computational carbohydrate-protein docking for MLB and SNA with Neu5Ac and β-Galactose. We further analyzed the coding sequence of both lectins and identified their glycan binding domains, which were later cloned upstream and downstream to green fluorescent protein (GFP) and expressed in Escherichia coli (E. coli). Finally, the glycan affinity of the expressed fusion proteins was assessed by using different biochemical and cell-based assays and the Sia binding domains were identified.
Highlights
The plant kingdom is a rich of source of glycan binding peptides with vast diversity spread throughout the kingdom and the occurrence of a specific peptide is not often restricted to a specific plant family
The backbone NH of Asp 47 was found H-bonded to O9 atom of Neu5Ac but its backbone CO was found H-bonded to O6 atom of Gal. These results suggest that the sialic acid and galactose binding sites on MLB are located on two different areas of the same pocket, which allows the protein to bind to both glycans simultaneously
In order to further study the biological functions of Sialic acid (Sia), selective efficient sialic sialic acid binding molecules need toneed be identified in orderintoorder be able and efficient acid binding molecules to be identified to to becompreable to hensively study the undiscovered functions of the glycan
Summary
The plant kingdom is a rich of source of glycan binding peptides with vast diversity spread throughout the kingdom and the occurrence of a specific peptide is not often restricted to a specific plant family. Lectins can agglutinate cells because of their divalent or oligovalent structures, which provides each lectin molecule at least two glycan binding sites. This provides the lectin molecules with an ability to bind to membrane polysaccharides and glycoproteins and helps cross-linking between cells via their cell surface carbohydrates or between other molecules bearing carbohydrates [5]. Despite the fact that these three isoforms have very similar primary coding sequences, they possess different carbohydrate binding affinities. The main and major isoform of mistletoe lectin is isoform one (MLI), which provides immunomodulatory potency to the lectin and it is a type II ribosome-inactivating protein (RIPII).
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