The transcriptional silencing of one of the female X-chromosomes is a finely regulated process that requires accumulation in cis of the long non-coding RNA X-inactive-specific transcript (Xist) followed by a series of epigenetic modifications. Little is known about the molecular machinery regulating initiation and maintenance of chromosomal silencing. Here, we introduce a new version of our algorithm catRAPID to investigate Xist associations with a number of proteins involved in epigenetic regulation, nuclear scaffolding, transcription and splicing processes. Our method correctly identifies binding regions and affinities of protein interactions, providing a powerful theoretical framework for the study of X-chromosome inactivation and other events mediated by ribonucleoprotein associations. © 2012 The Author(s). Published by Oxford University Press.
Principles of self-organization in biological pathways: a hypothesis on the autogenous association of alpha-synuclein / Zanzoni, Andreas; Marchese, Domenica; Agostini, Federico; Bolognesi, Benedetta; Cirillo, Davide; Botta-Orfila, Maria; Livi, Carmen Maria; Rodriguez-Mulero, Silvia; Tartaglia, Gian Gaetano. - In: NUCLEIC ACIDS RESEARCH. - ISSN 0305-1048. - 41:22(2013), pp. 9987-9998. [10.1093/nar/gkt794]
Principles of self-organization in biological pathways: a hypothesis on the autogenous association of alpha-synuclein
Marchese, Domenica;Tartaglia, Gian Gaetano
2013
Abstract
The transcriptional silencing of one of the female X-chromosomes is a finely regulated process that requires accumulation in cis of the long non-coding RNA X-inactive-specific transcript (Xist) followed by a series of epigenetic modifications. Little is known about the molecular machinery regulating initiation and maintenance of chromosomal silencing. Here, we introduce a new version of our algorithm catRAPID to investigate Xist associations with a number of proteins involved in epigenetic regulation, nuclear scaffolding, transcription and splicing processes. Our method correctly identifies binding regions and affinities of protein interactions, providing a powerful theoretical framework for the study of X-chromosome inactivation and other events mediated by ribonucleoprotein associations. © 2012 The Author(s). Published by Oxford University Press.| File | Dimensione | Formato | |
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