Jaime So scite author profile

Jaime So

4Publications

77Citation Statements Received

379Citation Statements Given

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Affiliations

Bloomberg (United States), University of California, Santa Barbara

Publications

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Activation of contact-dependent antibacterial tRNase toxins by translation elongation factors

Jones

Garza-Sánchez

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Contact-dependent growth inhibition (CDI) is a mechanism by which bacteria exchange toxins via direct cell-to-cell contact. CDI systems are distributed widely among Gram-negative pathogens and are thought to mediate interstrain competition. Here, we describe tsf mutations that alter the coiled-coil domain of elongation factor Ts (EF-Ts) and confer resistance to the CdiA-CT EC869 tRNase toxin from enterohemorrhagic Escherichia coli EC869. Although EF-Ts is required for toxicity in vivo, our results indicate that it is dispensable for tRNase activity in vitro. We find that CdiA-CT EC869 binds to elongation factor Tu (EF-Tu) with high affinity and this interaction is critical for nuclease activity. Moreover, in vitro tRNase activity is GTP-dependent, suggesting that CdiA-CT EC869 only cleaves tRNA in the context of translationally active GTP·EF-Tu·tRNA ternary complexes. We propose that EF-Ts promotes the formation of GTP·EF-Tu·tRNA ternary complexes, thereby accelerating substrate turnover for rapid depletion of target-cell tRNA.cell communication | protein synthesis | toxin-immunity proteins | ribonuclease | bacterial competition

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VSGs Expressed during Natural T. b. gambiense Infection Exhibit Extensive Sequence Divergence and a Subspecies-Specific Bias towards Type B N-Terminal Domains

Sudlow

Sayeed

et al. 2022

mBio

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VSGs expressed during natural T. b. gambiense infection exhibit extensive sequence divergence and a subspecies-specific expression bias

Sudlow

Sayeed

et al. 2021

Preprint

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Trypanosoma brucei gambiense, an extracellular protozoan parasite, is the primary causative agent of human African Trypanosomiasis. T. b. gambiense is endemic to West and Central Africa where it is transmitted by the bite of infected tsetse flies. In the bloodstream of an infected host, the parasite evades antibody recognition by altering the Variant Surface Glycoprotein (VSG) that forms a dense coat on its cell surface through a process known as antigenic variation. Each VSG has a variable N-terminal domain that is exposed to the host and a less variable C-terminal domain that is at least partially hidden from host antibodies. Our lab developed VSG-seq, a targeted RNA-seq method, to study VSG expression in T. brucei. Studies using VSG-seq to characterize antigenic variation in a mouse model have revealed marked diversity in VSG expression within parasite populations, but this finding has not yet been validated in a natural human infection. Here, we used VSG-seq to analyze VSGs expressed in the blood of twelve patients infected with T. b. gambiense. The number of VSGs identified per patient ranged from one to fourteen and, notably, two VSGs were shared by more than one patient. Analysis of expressed VSG N-terminal domain types revealed that 82% of expressed VSGs encoded a type B N-terminus, a bias not seen in datasets from other T. brucei subspecies. C-terminal types in T. b. gambiense infection were also restricted. These results demonstrate a bias either in the underlying VSG repertoire of T. b. gambiense or in the selection of VSGs from the repertoire during infection. This work demonstrates the feasibility of using VSG-seq to study antigenic variation in human infections and highlights the importance of understanding VSG repertoires in the field.

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Author Reply to Peer Reviews of Trypanosomal variant surface glycoprotein expression in human African trypanosomiasis patients

Mugnier¹,

Lejon²,

Wickstead³

et al. 2022

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Jaime So

Activation of contact-dependent antibacterial tRNase toxins by translation elongation factors

VSGs Expressed during Natural T. b. gambiense Infection Exhibit Extensive Sequence Divergence and a Subspecies-Specific Bias towards Type B N-Terminal Domains

VSGs expressed during natural T. b. gambiense infection exhibit extensive sequence divergence and a subspecies-specific expression bias

Author Reply to Peer Reviews of Trypanosomal variant surface glycoprotein expression in human African trypanosomiasis patients

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