Giardia lamblia is a human gut parasite, and a representative of the
excavates, one of the earliest-branching of eukaryotic lineages. We
explored the kinomes of three strains of Giardia, and two other
excavates (Trichomonas vaginalis and Leishmania major) to peer back in
time to the early evolution of eukaryotic protein kinases, and to see
how the kinome may reflect Giardia's specialized cell cycle and
parasitic lifestyle. Our main findings are published in Genome Biology,
and through the KinBase database on this site:
The minimal kinome of Giardia lamblia
illuminates early kinase evolution and unique parasite biology.
Gerard Manning, David S Reiner, Tineke
Lauwaet, Michael Dacre, Alias Smith, Yufeng Zhai, Staffan Svard,
Frances D Gillin
Genome Biology 2011,12:R66 (Medline, PDF)
This work was a collaboration between the
Gillin lab at
UCSD (spearheaded by David Reiner) and the
Manning lab at the
Salk Institute.
Highlights
- Giardia lamblia strain WB has 278 protein kinases, but 198 of
these belong to a huge expansion of the Nek family, most of which are
catalytically active, and many of which are so divergent as to be at
the borderline of detectability.
- The remaining 80 (the "core kinome") come from just 49 kinase
classes found in other organisms, and a few small Giardia-specific
families and unique kinases. This is the smallest core kinome of any
organism known to survive in pure culture (i.e. omitting obligate
parasites that have lost basic cellular functions and kinases.
- The core kinome is identical between the three Giardia
strains (though the Neks are not). When we compare with the next
closest (but still very distant) relative, Trichomonas vaginalis, and
a more distant excavate, Leishmania major, we predict that early
excavates had more core kinase classes, but lost them, maybe due to
parasitism.
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