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  1. No Access

    Protocol

    Proteome Diversification by RNA Editing

    手机体育投注平台 RNA editing is an RNA modification that alters the RNA sequence relative to its genomic blueprint. The most common type of RNA editing is A-to-I editing by double-stranded RNA-specific adenosine deaminase (ADA...

    Eli Eisenberg in RNA Editing (2021)

  2. 手机体育投注平台 Article

    Open Access

    Purifying selection of long dsRNA is the first line of defense against false activation of innate immunity

    Mobile elements comprise a large fraction of metazoan genomes. Accumulation of mobile elements is bound to produce multiple putative double-stranded RNA (dsRNA) structures within the transcriptome. These endog...

    Michal Barak, Hagit T. Porath, Gilad Finkelstein, Binyamin A. Knisbacher in Genome Biology (2020)

  3. Article

    Open Access

    Massive A-to-I RNA editing is common across the Metazoa and correlates with dsRNA abundance

    手机体育投注平台 Adenosine to inosine (A-to-I) RNA editing is a post-transcriptional modification catalyzed by the ADAR (adenosine deaminase that acts on RNA) enzymes, which are ubiquitously expressed among metazoans. Technica...

    Hagit T. Porath, Binyamin A. Knisbacher, Eli Eisenberg, Erez Y. Levanon in Genome Biology (2017)

  4. Article

    Open Access

    Proteome diversification by genomic parasites

    Alu手机体育投注平台 elements can integrate into human genes and lead to the generation of primate-specific isoforms. A new study examines their contribution to the human proteome.

    Eli Eisenberg in Genome Biology (2016)

  5. Article

    Open Access

    Modulation of microRNA editing, expression and processing by ADAR2 deaminase in glioblastoma

    手机体育投注平台 ADAR enzymes convert adenosines to inosines within double-stranded RNAs, including microRNA (miRNA) precursors, with important consequences on miRNA retargeting and expression. ADAR2 activity is impaired in gl...

    Sara Tomaselli, Federica Galeano, Shahar Alon, Susanna Raho in Genome Biology (2015)

  6. No Access手机体育投注平台

    手机体育投注平台 Protocol

    Using Deep Sequencing Data for Identification of Editing Sites in Mature miRNAs

    手机体育投注平台 Deep sequencing has many possible applications; one of them is the identification and quantification of RNA editing sites. The most common type of RNA editing is adenosine to inosine (A-to-I) editing. A prereq...

    Shahar Alon, Eli Eisenberg in RNA Bioinformatics (2015)

  7. No Access

    手机体育投注平台 Protocol

    Identifying RNA Editing Sites in miRNAs by Deep Sequencing

    Deep sequencing has many possible applications; one of them is the identification and quantification of RNA editing sites. The most common type of RNA editing is adenosine to inosine (A-to-I) editing. A prereq...

    Shahar Alon, Eli Eisenberg in Deep Sequencing Data Analysis (2013)

  8. No Access手机体育投注平台

    手机体育投注平台 Chapter

    Bioinformatic Approaches for Identification of A-to-I Editing Sites

    The first discoveries of mammalian A-to-I RNA editing have been serendipitous. In conjunction with the fast advancement in sequencing technology, systematic methods for prediction and detection of editing site...

    Eli Eisenberg in Adenosine Deaminases Acting on RNA (ADARs) and A-to-I Editing (2012)

  9. 手机体育投注平台 Article

    Open Access

    Consistent levels of A-to-I RNA editing across individuals in coding sequences and non-conserved Alu repeats

    手机体育投注平台 Adenosine to inosine (A-to-I) RNA-editing is an essential post-transcriptional mechanism that occurs in numerous sites in the human transcriptome, mainly within Alu repeats. It has been shown to have consisten...

    Shoshana Greenberger, Erez Y Levanon, Nurit Paz-Yaacov, Aviv Barzilai in BMC Genomics (2010)

  10. 手机体育投注平台 Article

    Open Access

    Large-scale analysis of structural, sequence and thermodynamic characteristics of A-to-I RNA editing sites in human Alu repeats

    Alu repeats in the human transcriptome undergo massive adenosine to inosine RNA editing. This process is selective, as editing efficiency varies greatly among different adenosines. Several studies have identif...

    Yoav Kleinberger, Eli Eisenberg in BMC Genomics (2010)

  11. 手机体育投注平台 Article

    Open Access

    Efficiency of complex production in changing environment

    手机体育投注平台 Cell function necessitates the assemblage of proteins into complexes, a process which requires further regulation on top of the fairly understood mechanisms used to control the transcription and translation of...

    Shai Carmi, Erez Y Levanon, Eli Eisenberg in BMC Systems Biology (2009)

  12. Article

    Open Access

    RNA-editing-mediated exon evolution

    Alu retroelements are specific to primates and abundant in the human genome. Through mutations that create functional splice sites within intronic Alus, these elements can become new exons in a process denoted ex...

    Galit Lev-Maor, Rotem Sorek, Erez Y Levanon, Nurit Paz, Eli Eisenberg in Genome Biology (2007)

  13. 手机体育投注平台 Article

    Open Access

    Evidence for abundant transcription of non-coding regions in the Saccharomyces cerevisiae genome

    Recent studies in a growing number of organisms have yielded accumulating evidence that a significant portion of the non-coding region in the genome is transcribed. We address this issue in the yeast Saccharomyce...

    Moshe Havilio, Erez Y Levanon, Galia Lerman, Martin Kupiec, Eli Eisenberg in BMC Genomics (2005)

  14. No Access

    手机体育投注平台 Article

    Limited sensitivity to analyticity: a manifestation of quantum chaos

    Classical Hamiltonian systems generally exhibit an intricate mixture of regular and chaotic motions on all scales of phase space. As a nonintegrability parameter K (the “strength of chaos”) is gradually increa...

    Eli Eisenberg, Itzhack Dana in Foundations of Physics (1997)

  15. No Access

    手机体育投注平台 Chapter and Conference Paper

    Development and Implementation of a Model for Technology Education in South Africa - The ORT-STEP Experience

    手机体育投注平台 In May 1993 the ORT-STEP Institute opened its door and officially stepped into South Africa to implement and advance technology education. ORT-STEP’s philosophy of providing a meaningful education that will ul...

    Eli Eisenberg in Technology Education, Innovation, and Management (1995)