Your search keyword '"Ranjith Papareddy"' showing total 5 results

1. Regulatory logic of endogenous RNAi in silencing de novo genomic conflicts.

Author

Jeffrey Vedanayagam, Ching-Jung Lin, Ranjith Papareddy, Michael Nodine, Alex S Flynt, Jiayu Wen, and Eric C Lai

Subjects

Genetics, QH426-470

Abstract

Although the biological utilities of endogenous RNAi (endo-RNAi) have been largely elusive, recent studies reveal its critical role in the non-model fruitfly Drosophila simulans to suppress selfish genes, whose unchecked activities can severely impair spermatogenesis. In particular, hairpin RNA (hpRNA) loci generate endo-siRNAs that suppress evolutionary novel, X-linked, meiotic drive loci. The consequences of deleting even a single hpRNA (Nmy) in males are profound, as such individuals are nearly incapable of siring male progeny. Here, comparative genomic analyses of D. simulans and D. melanogaster mutants of the core RNAi factor dcr-2 reveal a substantially expanded network of recently-emerged hpRNA-target interactions in the former species. The de novo hpRNA regulatory network in D. simulans provides insight into molecular strategies that underlie hpRNA emergence and their potential roles in sex chromosome conflict. In particular, our data support the existence of ongoing rapid evolution of Nmy/Dox-related networks, and recurrent targeting of testis HMG-box loci by hpRNAs. Importantly, the impact of the endo-RNAi network on gene expression flips the convention for regulatory networks, since we observe strong derepression of targets of the youngest hpRNAs, but only mild effects on the targets of the oldest hpRNAs. These data suggest that endo-RNAi are especially critical during incipient stages of intrinsic sex chromosome conflicts, and that continual cycles of distortion and resolution may contribute to speciation.

Published

2023

2. Correction: Hyperosmotic stress memory in Arabidopsis is mediated by distinct epigenetically labile sites in the genome and is restricted in the male germline by DNA glycosylase activity

Author

Anjar Wibowo, Claude Becker, Gianpiero Marconi, Julius Durr, Jonathan Price, Jörg Hagmann, Ranjith Papareddy, Hadi Putra, Jorge Kageyama, Jorg Becker, Detlef Weigel, and Jose Gutierrez-Marcos

Subjects

Medicine, Science, Biology (General), QH301-705.5

Published

2018

3. Hyperosmotic stress memory in Arabidopsis is mediated by distinct epigenetically labile sites in the genome and is restricted in the male germline by DNA glycosylase activity

Author

Anjar Wibowo, Claude Becker, Gianpiero Marconi, Julius Durr, Jonathan Price, Jorg Hagmann, Ranjith Papareddy, Hadi Putra, Jorge Kageyama, Jorg Becker, Detlef Weigel, and Jose Gutierrez-Marcos

Subjects

memory, environment, epigenetic, adaptation, Medicine, Science, Biology (General), QH301-705.5

Abstract

Inducible epigenetic changes in eukaryotes are believed to enable rapid adaptation to environmental fluctuations. We have found distinct regions of the Arabidopsis genome that are susceptible to DNA (de)methylation in response to hyperosmotic stress. The stress-induced epigenetic changes are associated with conditionally heritable adaptive phenotypic stress responses. However, these stress responses are primarily transmitted to the next generation through the female lineage due to widespread DNA glycosylase activity in the male germline, and extensively reset in the absence of stress. Using the CNI1/ATL31 locus as an example, we demonstrate that epigenetically targeted sequences function as distantly-acting control elements of antisense long non-coding RNAs, which in turn regulate targeted gene expression in response to stress. Collectively, our findings reveal that plants use a highly dynamic maternal ‘short-term stress memory’ with which to respond to adverse external conditions. This transient memory relies on the DNA methylation machinery and associated transcriptional changes to extend the phenotypic plasticity accessible to the immediate offspring.

Published

2016

4. Endogenous RNAi silences a burgeoning sex chromosome arms race

Author

Jeffrey Vedanayagam, Ching-Jung Lin, Ranjith Papareddy, Michael Nodine, Alex S. Flynt, Jiayu Wen, and Eric C. Lai

Abstract

Although the biological utilities of endogenous RNAi (endo-RNAi) have been largely elusive, recent studies reveal its critical role in the non-model fruitfly Drosophila simulans to suppress selfish genes, whose unchecked activities can severely impair spermatogenesis. In particular, hairpin RNA (hpRNA) loci generate endo-siRNAs that suppress evolutionary novel, X-linked, meiotic drive loci. The consequences of deleting even a single hpRNA (Nmy) in males are profound, as such individuals are nearly incapable of siring male progeny. Here, comparative genomic analyses of D. simulans and D. melanogaster mutants of the core RNAi factor dcr-2 reveal a substantially expanded network of recently-emerged hpRNA-target interactions in the former species. The de novo hpRNA regulatory network in D. simulans bears compelling signatures of sex chromosome conflict and provides insight into molecular strategies that underlie hpRNA emergence. In particular, our data support the existence of ongoing rapid evolution of Nmy/Dox-related networks, recurrent targeting of testis HMG Box loci by hpRNAs, and connections to the piRNA pathway. Importantly, the impact of the endo-RNAi network on gene expression flips the convention for regulatory networks, since we observe strong derepression of targets of the youngest hpRNAs, but only mild effects on the targets of the oldest hpRNAs. These data suggest that endo-RNAi are especially critical during incipient stages of intrinsic sex chromosome conflicts, and that continual cycles of distortion and resolution may contribute to the segregation of species.

Published

2022

5. Author response: Hyperosmotic stress memory in Arabidopsis is mediated by distinct epigenetically labile sites in the genome and is restricted in the male germline by DNA glycosylase activity

Author

Anjar Wibowo, Claude Becker, Gianpiero Marconi, Julius Durr, Jonathan Price, Jorg Hagmann, Ranjith Papareddy, Hadi Putra, Jorge Kageyama, Jorg Becker, Detlef Weigel, and Jose Gutierrez-Marcos

Published

2016