Abstract
The formation of protein structural domains requires that biochemical functions, defined by conserved amino acid sequence motifs, be embedded into a structural scaffold. Here we trace domain history onto a bipartite network of elementary functional loop sequences and domain structures defined at the fold superfamily level of SCOP classification. The resulting ‘elementary functionome’ network and its loop motif and structural domain graph projections create evolutionary ‘waterfalls’ describing the emergence of primordial functions. Waterfalls reveal how ancient loops are shared by domain structures in two initial waves of functional innovation that involve founder ‘p-loop’ and ‘winged helix’ domain structures. They also uncover a dynamics of modular motif embedding in domain structures that is ongoing, which transfers ‘preferential’ cooption properties of ancient loops to emerging domains. Remarkably, we find that the emergence of molecular functions induces hierarchical modularity and power law behavior in network evolution as the network of motifs and structures expand metabolic pathways and translation.
Highlights
Remarkable patterns of emergence of molecular functions and network connectivity in the mappings of loops and domains that are likely of very ancient origin
We mapped the evolutionary age of domain structures onto a bipartite graph-theoretic representation of domains and associated loop prototypes, which we decomposed into its dual network projections using mathematical properties of finite graphs[18]
It is remarkable that the first two waves uncovered by the elementary functionomes’ (EFs) network and its projections involve the same primordial sandwich α /β /α -layered structures, β -barrels and helical bundle structures we identified as part of the first 54 domain families that appeared in evolution[3]
Summary
Remarkable patterns of emergence of molecular functions and network connectivity in the mappings of loops and domains that are likely of very ancient origin. The EF bipartite network per se and its domain and loop graph projections can only display evolutionary information if an age can be assigned to its node and link components.
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