Shikha Shikha scite author profile

Besides their medical importance, the parasitic protozoan Trypanosoma brucei and its relatives are experimentally highly accessible model systems for many cell biological processes. Trypanosomes are phylogenetically essentially unrelated to the popular model eukaryotes, such as yeast and animals, and thus show several unique features, many of which are connected to RNA. Here we review the tRNA biology of trypanosomes. Even though tRNAs were already discovered 60 years ago, owing to current technological advances in the field, research on tRNA biology has seen a Renaissance in recent years. First we discuss the extensive mitochondrial tRNA import process and the consequences it has for the parasite. Next we focus on trypanosomal aminoacyl-tRNA synthetases, some of which may be exploited as drug targets. Furthermore, we summarize what is known about trypanosomal tRNA modifications in both the cytosol and the mitochondrion. Finally, we provide an overview on the emerging field of tRNA-derived fragments and their possible function as translation regulators.

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The single CCA-adding enzyme of T. brucei has distinct functions in the cytosol and in mitochondria

Shikha

Schneider

2020

Journal of Biological Chemistry

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tRNAs universally carry a CCA nucleotide triplet at their 3′-ends. In eukaryotes, the CCA is added post-transcriptionally by the CCA-adding enzyme (CAE). The mitochondrion of the parasitic protozoan Trypanosoma brucei lacks tRNA genes and therefore imports all of its tRNAs from the cytosol. This has generated interest in the tRNA modifications and their distribution in this organism, including how CCA is added to tRNAs. Here, using a BLAST search for genes encoding putative CAE proteins in T. brucei, we identified a single ORF, Tb927.9.8780, as a potential candidate. Knockdown of this putative protein, termed TbCAE, resulted in the accumulation of truncated tRNAs, abolished translation, and inhibited both total and mitochondrial CCA-adding activities, indicating that TbCAE is located both in the cytosol and mitochondrion. However, mitochondrially localized tRNAs were much less affected by the TbCAE ablation than the other tRNAs. Complementation assays revealed that the N-terminal 10 amino acids of TbCAE are dispensable for its activity and mitochondrial localization and that deletion of 10 further amino acids abolishes both. A growth arrest caused by the TbCAE knockdown was rescued by the expression of the cytosolic isoform of yeast CAE, even though it was not imported into mitochondria. This finding indicated that the yeast enzyme complements the essential function of TbCAE by adding CCA to the primary tRNA transcripts. Of note, ablation of the mitochondrial TbCAE activity, which likely has a repair function, only marginally affected growth.

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tRNA import across the mitochondrial inner membrane inT. bruceirequires TIM subunits but is independent of protein import

Shikha

Huot

Schneider

et al. 2020

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Mitochondrial tRNA import is widespread, but mechanistic insights of how tRNAs are translocated across mitochondrial membranes remain scarce. The parasitic protozoan T. brucei lacks mitochondrial tRNA genes. Consequently, it imports all organellar tRNAs from the cytosol. Here we investigated the connection between tRNA and protein translocation across the mitochondrial inner membrane. Trypanosomes have a single inner membrane protein translocase that consists of three heterooligomeric submodules, which all are required for import of matrix proteins. In vivo depletion of individual submodules shows that surprisingly only the integral membrane core module, including the protein import pore, but not the presequence-associated import motor are required for mitochondrial tRNA import. Thus we could uncouple import of matrix proteins from import of tRNAs even though both substrates are imported into the same mitochondrial subcompartment. This is reminiscent to the outer membrane where the main protein translocase but not on-going protein translocation is required for tRNA import. We also show that import of tRNAs across the outer and inner membranes are coupled to each other. Taken together, these data support the ‘alternate import model’, which states that tRNA and protein import while mechanistically independent use the same translocation pores but not at the same time.

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Inducible orthogonal aminoacylation demonstrates that charging is required for mitochondrial tRNA import in Trypanosoma brucei

Huot

Shikha

Schneider

2019

Sci Rep

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Orthogonal aminoacyl-tRNA synthetase/tRNA pairs have emerged as powerful means of site-specifically introducing non-standard amino acids into proteins in vivo . Using amino acids with crosslinking moieties this method allows the identification of transient protein-protein interactions. Here we have introduced a previously characterized evolved tyrosyl-tRNA synthetase/suppressor tRNA Tyr pair from E. coli into the parasitic protozoan Trypanosoma brucei . Upon addition of a suitable non-standard amino acid the suppressor tRNA Tyr was charged and allowed translation of a green fluorescent protein whose gene contained a nonsense mutation. - T. brucei is unusual in that its mitochondrion lacks tRNA genes indicating that all its organellar tRNAs are imported from the cytosol. Expression of the bacterial tyrosyl-tRNA synthetase in our system is tetracycline-inducible. We have therefore used it to demonstrate that cytosolic aminoacylation of the suppressor tRNA Tyr induces its import into the mitochondrion.

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Review on skin cancer using machine learning

Shikha¹,

Gayathri²

2022

ijhs

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Today, cancer is a deadly disease caused by a division that is unable to govern the abnormal cells in the human body. As a result, malignant cells grow rapidly and can invade and destroy nearby structures as well as spread to distant locations, ultimately leading to death. All live cells at all levels of the human body can be affected by cancer, regardless of gender. Skin cancer is on the rise these days as skin cells multiply and unrepaired DNA damage to those cells causes mutations. It has been established that basal cell, squamous, and melanomas are all separate types of skin cancer. Skin cancers of the melanoma and non-melanoma varieties are the most frequent. Melanocytes, the cells that produce the skin's colour, are malignant and capable of spreading to whole body. Additionally, it has the potential to spread throughout the body, posing a serious health risk or even resulting in death.

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Shikha Shikha

tRNA Biology in Trypanosomes

The single CCA-adding enzyme of T. brucei has distinct functions in the cytosol and in mitochondria

tRNA import across the mitochondrial inner membrane inT. bruceirequires TIM subunits but is independent of protein import

Inducible orthogonal aminoacylation demonstrates that charging is required for mitochondrial tRNA import in Trypanosoma brucei

Review on skin cancer using machine learning

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