Shveta Bagga scite author profile

MicroRNAs (miRNAs) are approximately 22 nucleotide RNAs that negatively regulate the expression of protein-coding genes. In a present model of miRNA function in animals, miRNAs that form imperfect duplexes with their targets inhibit protein expression without affecting mRNA levels. Here, we report that in C. elegans, regulation by the let-7 miRNA results in degradation of its lin-41 target mRNA, despite the fact that its 3'UTR regulatory sequences can only partially base-pair with the miRNA. Furthermore, lin-14 and lin-28 are targets of the lin-4 miRNA, and we show that the mRNA levels for these protein-coding genes significantly decrease in response to lin-4 expression. This study reveals that mRNAs containing partial miRNA complementary sites can be targeted for degradation in vivo, raising the possibility that regulation at the level of mRNA stability may be more common than previously appreciated for the miRNA pathway.

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The Cytotoxic Activity of Ribosome-inactivating Protein Saporin-6 Is Attributed to Its rRNA N-Glycosidase and Internucleosomal DNA Fragmentation Activities

Bagga

Seth

Batra

2003

Journal of Biological Chemistry

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Saporin-6 produced by the plant Saponaria officinalis belongs to the family of single chain ribosome-inactivating proteins. It potently inhibits protein synthesis in eukaryotic cells, by cleaving the N-glycosidic bond of a specific adenine in 28 S rRNA, which results in the cell death. Saporin-6 has also been shown to be active on DNA and induces apoptosis. In the current study, we have investigated the roles of rRNA depurination and the activity of saporin-6 on genomic DNA in its cytotoxic activity. 16 and Arg 24 do not appear to be required for the DNA fragmentation. The study shows that saporin-6 possesses two catalytic activities, namely RNA N-glycosidase and genomic DNA fragmentation activity, and for its complete cytotoxic activity both activities are required.

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Identification and Analysis of Micrornas

Bagga

Pasquinelli

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Cytotoxicity of ribosome‐inactivating protein saporin is not mediated through α₂‐macroglobulin receptor

2003

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Saporin is a single chain ribosome-inactivating protein produced by the plant Saponaria o⁄cinalis. Several isoforms of saporin have been isolated from various parts of the plant. In the present study recombinant saporin isoforms 5 and 6 were produced in Escherichia coli. Saporin-6 was found to be more active than saporin-5 in its N-glycosidase, cytotoxic, and genomic DNA fragmentation activities. Earlier, saporin has been shown to bind low-density lipoprotein receptor-related protein (LRP), however, in this study the sensitivities of LRPnegative and LRP-positive cell lines were found to be similar towards saporin-6 toxicity suggesting the internalization of saporin not to be solely dependent on the expression of LRP on eukaryotic cells.

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Mechanism of Specific Target Recognition and RNA Hydrolysis by Ribonucleolytic Toxin Restrictocin

et al. 2001

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Restrictocin, a member of the fungal ribotoxin family, specifically cleaves a single phosphodiester bond in the 28S rRNA and potently inhibits eukaryotic protein synthesis. Residues Tyr47, His49, Glu95, Phe96, Pro97, Arg120, and His136 have been predicted to form the active site of restrictocin. In this study, we have individually mutated these amino acids to alanine to probe their role in restrictocin structure and function. The role of Tyr47, His49, Arg120, and His136 was further investigated by making additional mutants. Mutating Arg120 or His136 to alanine or the other amino acids rendered the toxin completely inactive, whereas mutating Glu95 to alanine only partially inactivated the toxin. Mutation of Phe96 and Pro97 to Ala had no effect on the activity of restrictocin. The Tyr47 to alanine mutant was inactive in inhibiting protein synthesis, and had a nonspecific ribonuclease activity on 28S rRNA similar to that shown previously for the His49 to Ala mutant. Unlike the His136 to Ala mutant, the double mutants containing Tyr47 or His49 mutated to alanine along with His136 did not compete with restrictocin to cause a significant reduction in the extent of cleavage of 28S rRNA. In a model of restrictocin and a 29-mer RNA substrate complex, residues Tyr47, His49, Glu95, Arg120, and His136 were found to be near the cleavage site on RNA. It is proposed that in restrictocin Glu95 and His136 are directly involved in catalysis, Arg120 is involved in the stabilization of the enzyme-substrate complex, Tyr47 provides structural stability to the active site, and His49 determines the substrate specificity.

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Expression of endogenous proteins in maize hybrids in a multi-location field trial in India

Gutha¹,

Purushottam²,

Veeramachaneni³

et al. 2018

Transgenic Res

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Genetically modified (GM) crops undergo large scale multi-location field trials to characterize agronomics, composition, and the concentration of newly expressed protein(s) [herein referred to as transgenic protein(s)]. The concentration of transgenic proteins in different plant tissues and across the developmental stages of the plant is considered in the safety assessment of GM crops. Reference or housekeeping proteins are expected to maintain a relatively stable expression pattern in healthy plants given their role in cellular functions. Understanding the effects of genotype, growth stage and location on the concentration of endogenous housekeeping proteins may provide insight into the contribution these factors could have on transgenic protein concentrations in GM crops. The concentrations of three endogenous proteins (actin, elongation factor 1-alpha, and glyceraldehyde 3-phosphate dehydrogenase) were measured in several different maize hybrids grown across multiple field locations over 2 years. Leaf samples were collected from healthy plants at three developmental stages across the growing seasons, and protein concentrations were quantified by indirect enzymelinked immunosorbent assay (ELISA) for each protein. In general, the concentrations of these three endogenous proteins were relatively consistent across hybrid backgrounds, when compared within one growth stage and location (2-26%CV), whereas the concentrations of proteins in the same hybrid and growth stage across different locations were more variable (12-64%CV). In general, the protein concentrations in 2013 and 2014 show similar trends in variability. Some degree of variability in protein concentrations should be expected for both transgenic and endogenous plant-expressed proteins. In the case of GM crops, the potential variation in protein 123Transgenic Res (2018) 27:331-342 https://doi.org/10.1007/s11248-018-0077-y( 0123456789().,-volV) (0123456789().,-volV) concentrations due to location effects is captured in the current model of multi-location field testing.

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Shveta Bagga

Regulation by let-7 and lin-4 miRNAs Results in Target mRNA Degradation

The Cytotoxic Activity of Ribosome-inactivating Protein Saporin-6 Is Attributed to Its rRNA N-Glycosidase and Internucleosomal DNA Fragmentation Activities

Identification and Analysis of Micrornas

Cytotoxicity of ribosome‐inactivating protein saporin is not mediated through α₂‐macroglobulin receptor

Mechanism of Specific Target Recognition and RNA Hydrolysis by Ribonucleolytic Toxin Restrictocin

Expression of endogenous proteins in maize hybrids in a multi-location field trial in India

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Shveta Bagga

Regulation by let-7 and lin-4 miRNAs Results in Target mRNA Degradation

The Cytotoxic Activity of Ribosome-inactivating Protein Saporin-6 Is Attributed to Its rRNA N-Glycosidase and Internucleosomal DNA Fragmentation Activities

Identification and Analysis of Micrornas

Cytotoxicity of ribosome‐inactivating protein saporin is not mediated through α2‐macroglobulin receptor

Mechanism of Specific Target Recognition and RNA Hydrolysis by Ribonucleolytic Toxin Restrictocin

Expression of endogenous proteins in maize hybrids in a multi-location field trial in India

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Product

Resources

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Cytotoxicity of ribosome‐inactivating protein saporin is not mediated through α₂‐macroglobulin receptor