Evolution of hematophagy in ticks: common origins for blood coagulation and platelet aggregation inhibitors from soft ticks of the genus Ornithodoros

Identification and characterization of antihemostatic components from hematophagous organisms are useful for the elucidation of the evolutionary mechanisms involved in adaptation to a highly complex host hemostatic system. Although many bioactive components involved in the regulation of the host...

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Published in:Molecular biology and evolution 2002-10, Vol.19 (10), p.1695-1705
Main Authors: Mans, Ben J, Louw, Abraham I, Neitz, Albert W H
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Anticoagulants - chemistry
Anticoagulants - isolation & purification
Aprotinin - genetics
Evolution, Molecular
Models, Molecular
Molecular Sequence Data
Molecular Structure
Phylogeny
Platelet Aggregation Inhibitors - chemistry
Platelet Aggregation Inhibitors - isolation & purification
Protein Folding
Proteins - chemistry
Proteins - genetics
Proteins - isolation & purification
Sequence Homology, Amino Acid
Ticks - classification
Ticks - genetics
Ticks - pathogenicity
Ticks - physiology
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container_title Molecular biology and evolution
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creator Mans, Ben J
Louw, Abraham I
Neitz, Albert W H
description Identification and characterization of antihemostatic components from hematophagous organisms are useful for the elucidation of the evolutionary mechanisms involved in adaptation to a highly complex host hemostatic system. Although many bioactive components involved in the regulation of the host's hemostatic system have been described, the evolutionary mechanisms of how arthropods adapted to a blood-feeding environment have not been elucidated. This study describes common origins of both blood coagulation inhibitors and platelet aggregation inhibitors (PAIs) from soft ticks of the genus Ornithodoros. Neighbor-joining analysis indicates that fXa, thrombin, and PAIs share a common ancestor. Maximum parsimony analysis and a phylogeny based on root mean square deviation values of alpha-carbon backbone structures suggest a novel evolutionary pathway by which different antihemostatic functions have evolved through a series of paralogous gene duplication events. In this scenario, the thrombin inhibitors preceded the fXa and PAIs. This evolutionary model explains why the tick serine protease inhibitors have inhibition mechanisms that differ from that of the canonical bovine pancreatic trypsin inhibitor (BPTI)-like inhibitors. Higher nonsynonymous-to-synonymous substitution rates indicate positive Darwinian selection for the fXa and PAIs. Comparison with hemostatic inhibitors of hard ticks suggests that the two main tick families have independently evolved novel antihemostatic mechanisms. Independent evolution of these mechanisms in ticks points to a rapid divergence between tick families that could be dated between 120 and 92 MYA. This coincides with current molecular phylogeny views on the early divergence of modern birds and placental mammals in the Late Cretaceous, which suggests that this event might have been a driving force in the evolution of hematophagy in ticks.
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source Full-Text Journals in Chemistry (Open access); Oxford University Press Open Access
subjects Amino Acid Sequence
Animals
Anticoagulants - chemistry
Anticoagulants - isolation & purification
Aprotinin - genetics
Evolution, Molecular
Models, Molecular
Molecular Sequence Data
Molecular Structure
Phylogeny
Platelet Aggregation Inhibitors - chemistry
Platelet Aggregation Inhibitors - isolation & purification
Protein Folding
Proteins - chemistry
Proteins - genetics
Proteins - isolation & purification
Sequence Homology, Amino Acid
Ticks - classification
Ticks - genetics
Ticks - pathogenicity
Ticks - physiology
title Evolution of hematophagy in ticks: common origins for blood coagulation and platelet aggregation inhibitors from soft ticks of the genus Ornithodoros
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