Rima M. Sakhawala scite author profile

Rima M. Sakhawala

3Publications

91Citation Statements Received

442Citation Statements Given

How they've been cited

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323

420

Affiliations

National Institute of Diabetes and Digestive and Kidney Diseases, Johns Hopkins University, Eunice Kennedy Shriver National Institute of Child Health and Human Development

Publications

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Identification of Essential Genes and Fluconazole Susceptibility Genes inCandida glabrataby ProfilingHermesTransposon Insertions

Gale

Sakhawala

Levitan

et al. 2020

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Within the budding yeasts, the opportunistic pathogen Candida glabrata and other members of the Nakaseomyces clade have developed virulence traits independently from C. albicans and C. auris. To begin exploring the genetic basis of C. glabrata virulence and its innate resistance to antifungals, we launched the Hermes transposon from a plasmid and sequenced more than 500,000 different semi-random insertions throughout the genome. With machine learning, we identified 1278 protein-encoding genes (25% of total) that could not tolerate transposon insertions and are likely essential for C. glabrata fitness in vitro. Interestingly, genes involved in mRNA splicing were less likely to be essential in C. glabrata than their orthologs in S. cerevisiae, whereas the opposite is true for genes involved in kinetochore function and chromosome segregation. When a pool of insertion mutants was challenged with the first-line antifungal fluconazole, insertions in several known resistance genes (e.g. PDR1, CDR1, PDR16, PDR17, UPC2A, DAP1, STV1) and 15 additional genes (including KGD1, KGD2, YHR045W) became hypersensitive to fluconazole. Insertions in 200 other genes conferred significant resistance to fluconazole, two-thirds of which function in mitochondria and likely down-regulate Pdr1 expression or function. Knockout mutants of KGD2 and IDH2, which consume and generate alpha-ketoglutarate in mitochondria, exhibited increased and decreased resistance to fluconazole through a process that depended on Pdr1. These findings establish the utility of transposon insertion profiling in forward genetic investigations of this important pathogen of humans.

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Mechanism of RNA polymerase III termination-associated reinitiation-recycling conferred by the essential function of the N terminal-and-linker domain of the C11 subunit

et al. 2021

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RNA polymerase III achieves high level tRNA synthesis by termination-associated reinitiation-recycling that involves the essential C11 subunit and heterodimeric C37/53. The C11-CTD (C-terminal domain) promotes Pol III active center-intrinsic RNA 3′-cleavage although deciphering function for this activity has been complicated. We show that the isolated NTD (N-terminal domain) of C11 stimulates Pol III termination by C37/53 but not reinitiation-recycling which requires the NTD-linker (NTD-L). By an approach different from what led to current belief that RNA 3′-cleavage activity is essential, we show that NTD-L can provide the essential function of Saccharomyces cerevisiae C11 whereas classic point mutations that block cleavage, interfere with active site function and are toxic to growth. Biochemical and in vivo analysis including of the C11 invariant central linker led to a model for Pol III termination-associated reinitiation-recycling. The C11 NTD and CTD stimulate termination and RNA 3′-cleavage, respectively, whereas reinitiation-recycling activity unique to Pol III requires only the NTD-linker. RNA 3′-cleavage activity increases growth rate but is nonessential.

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The catalytic activity of microRNA Argonautes plays a modest role in microRNA star strand destabilization inC. elegans

Kotagama

Grimme

Yang

et al. 2023

Preprint

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Many Argonaute proteins can cleave RNA (″slicing″) as part of the microRNA-induced silencing complex (miRISC), even though miRNA-mediated target repression is generally independent of target cleavage. Here we useC. elegansto examine the role of miRNA-guided slicing in organismal development. We find that unwinding and decay of the miRNA star strand is weakly defective in the absence of slicing, with the largest effect observed in embryos. Argonaute-Like Gene 2 (ALG-2) is more dependent on slicing for unwinding than ALG-1. The miRNAs that displayed the greatest (albeit very minor) dependence on slicing for unwinding tend to form stable duplexes with their star strand, and in some cases, lowering duplex stability alleviates dependence on slicing. While a few miRNA guide strands are reduced in slicing mutants, the basis of this is unclear since changes were not dependent on EBAX-1, a factor in the Target-Directed miRNA Degradation (TDMD) pathway. Gene expression and gross phenotype were wild type in slicing mutants, indicating that 1) slicing is not required for target regulation and 2) the weak unwinding defect does not significantly reduce the pool of functional miRISC. Thus, in contrast to previous work, miRISC slicing inC. elegansis dispensable in standard laboratory conditions.

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Rima M. Sakhawala

Identification of Essential Genes and Fluconazole Susceptibility Genes inCandida glabrataby ProfilingHermesTransposon Insertions

Mechanism of RNA polymerase III termination-associated reinitiation-recycling conferred by the essential function of the N terminal-and-linker domain of the C11 subunit

The catalytic activity of microRNA Argonautes plays a modest role in microRNA star strand destabilization inC. elegans

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