Abstract
BackgroundAlthough the human genome database has been completed a decade ago, ∼50% of the proteome remains hypothetical as their functions are unknown. The elucidation of the functions of these hypothetical proteins can lead to additional protein pathways and revelation of new cascades. However, many of these inferences are limited to proteins with substantial sequence similarity. Of particular interest here is the Tectonin domain-containing family of proteins.Methodology/Principal FindingsWe have identified hTectonin, a hypothetical protein in the human genome database, as a distant ortholog of the limulus galactose binding protein (GBP). Phylogenetic analysis revealed strong evolutionary conservation of hTectonin homologues from parasite to human. By computational analysis, we showed that both the hTectonin and GBP form β-propeller structures with multiple Tectonin domains, each containing β-sheets of 4 strands per β-sheet. hTectonin is present in the human leukocyte cDNA library and immune-related cell lines. It interacts with M-ficolin, a known human complement protein whose ancient homolog, carcinolectin (CL5), is the functional protein partner of GBP during infection. Yeast 2-hybrid assay showed that only the Tectonin domains of hTectonin recognize the fibrinogen-like domain of the M-ficolin. Surface plasmon resonance analysis showed real-time interaction between the Tectonin domains 6 & 11 and bacterial LPS, indicating that despite forming 2 β-propellers with its different Tectonin domains, the hTectonin molecule could precisely employ domains 6 & 11 to recognise bacteria.Conclusions/SignificanceBy virtue of a recent finding of another Tectonin protein, leukolectin, in the human leukocyte, and our structure-function analysis of the hypothetical hTectonin, we propose that Tectonin domains of proteins could play a vital role in innate immune defense, and that this function has been conserved over several hundred million years, from invertebrates to vertebrates. Furthermore, the approach we have used could be employed in unraveling the characteristics and functions of other hypothetical proteins in the human proteome.
Highlights
Advances in sequence genomics have resulted in an accumulation of a large number of protein sequences derived from genome sequences
A distance PSI-BLAST sequence matching indicates that the hTectonin shows low sequence homology, it is phylogenetically related to known proteins with Tectonin domains, functioning as immune proteins
By SMART domain comparison, we show that hTectonin contains multiple homologs widespread in the vertebrate kingdom, implying that it is not a one-off protein in the human proteome, but rather, an important one conserved throughout many species
Summary
Advances in sequence genomics have resulted in an accumulation of a large number of protein sequences derived from genome sequences. The elucidation of the functions of these hypothetical proteins can lead to additional protein pathways and revelation of new cascades, completing our fragmentary knowledge on the proteome complex. An alternate approach is to examine the proteins of invertebrates that do not have homologs in the vertebrate system One example of such a group of proteins is the Tectonin domain-containing proteins in humans. The human genome database has been completed a decade ago, ,50% of the proteome remains hypothetical as their functions are unknown. The elucidation of the functions of these hypothetical proteins can lead to additional protein pathways and revelation of new cascades. Many of these inferences are limited to proteins with substantial sequence similarity. Of particular interest here is the Tectonin domain-containing family of proteins
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