Khushboo Rani scite author profile

The untangling or overwinding of genetic material is an inevitable part of DNA replication, repair, recombination, and transcription. Topoisomerases belong to a conserved enzyme family that amends DNA topology during various processes of DNA metabolism. To relax the genetic material, topoisomerases transiently break the phosphodiester bond on one or both DNA strands and remain associated with the cleavage site by forming a covalent enzyme–DNA intermediate. This releases torsional stress and allows the broken DNA to be re-ligated by the enzyme. The biological function of topoisomerases ranges from the separation of sister chromatids following DNA replication to the aiding of chromosome condensation and segregation during mitosis. Topoisomerases are also actively involved in meiotic recombination. The unicellular apicomplexan parasite, Plasmodium falciparum, harbors different topoisomerase subtypes, some of which have substantially different sequences and functions from their human counterparts. This review highlights the biological function of each identified Plasmodium topoisomerase along with a comparative analysis of their orthologs in human or other model organisms. There is also a focus on recent advancements towards the development of topoisomerase chemical inhibitors, underscoring the druggability of unique topoisomerase subunits that are absent in humans. Plasmodium harbors three distinct genomes in the nucleus, apicoplast, and mitochondria, respectively, and undergoes non-canonical cell division during the schizont stage of development. This review emphasizes the specific developmental stages of Plasmodium on which future topoisomerase research should focus.

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DNA damage-induced nuclear import of HSP90α is promoted by Aha1

Fangaria

Rani

Singh

et al. 2022

MBoC

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The interplay between yHSP90α (Hsp82) and Rad51 has been implicated in the DNA double strand break repair (DSB) pathway in yeast. Here, we report that nuclear translocation of yHSP90α and its recruitment to the DSB end are essential for homologous recombination (HR) mediated DNA repair in yeast. The HsHSP90α possesses an amino-terminal extension which is phosphorylated upon DNA damage. We find that the absence of the amino-terminal extension in yHSP90α does not compromise its nuclear import, and the nonphosphorylatable-mutant HsHSP90αT7A could be imported to the yeast nucleus upon DNA damage. Interestingly, the flexible charged-linker (CL) domains of both yHSP90α and HsHSP90α play a critical role during their nuclear translocation. The conformational restricted CL mutant yHSP90α∆(211-259), but not a shorter deletion version yHSP90α∆(211-242), fails to reach the nucleus. As the CL domain of yHSP90α is critical for its interaction with Aha1, we investigated whether Aha1 promotes the nuclear import of yHSP90α. We found that the nuclear import of yHSP90α is severely affected in ∆aha1 strain. Moreover, Aha1 is accumulated in the nucleus during DNA damage. Hence, Aha1 may serve as a potential target for inhibiting nuclear function of yHSP90α. The increased sensitivity of ∆aha1 strain to genotoxic agents strengthens this notion.

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A conserved molecular action of native and recombinant Epap-1 in inhibition of HIV-1 gp120 mediated viral entry

Rani

Pelluru

Kondapi

2006

Archives of Biochemistry and Biophysics

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Khushboo Rani

High frequency of G to A transition mutation in the stromal cell derived factor-1 gene in India, a chemokine that blocks HIV-1 (X4) infection: multiple proteins bind to 3′-untranslated region of SDF-1 RNA

A tale of topoisomerases and the knotty genetic material in the backdrop of Plasmodium biology

DNA damage-induced nuclear import of HSP90α is promoted by Aha1

A conserved molecular action of native and recombinant Epap-1 in inhibition of HIV-1 gp120 mediated viral entry

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