Add to ORKGearly-branching flowering plants: pilot studies on angiosperm-wide coexistence of editing sites and their nuclear specificity factors Anke Hein, Monika Polsakiewicz and Volker Knoop* Background: RNA editing by cytidine-to-uridine conversions is an essential step of RNA maturation in plant organelles. Some 30–50 sites of C-to-U RNA editing exist in chloroplasts of flowering plant models like Arabidopsis, rice or tobacco. We now predicted significantly more RNA editing in chloroplasts of early-branching angiosperm genera like Amborella
Background: RNA editing in chloroplasts of angiosperms proceeds by C-to-U conversions at specific si...
RNA editing is a widespread epitranscriptomic mechanism by which primary RNAs are specifically modif...
<div><p>RNA editing is the post-transcriptional conversion from C to U before translation, providing...
RNA editing by cytidine (C) to uridine (U) conversions is widespread in plant mitochondria and chlor...
RNA editing is the post-transcriptional conversion from C to U before translation, providing a uniqu...
Although more than 9100 plant plastomes have been sequenced, RNA editing sites of the whole plastome...
The distinct distribution and abundance of C-to-U and U-to-C RNA editing among land plants suggest t...
Organellar transcripts of angiosperms contain cytidines that are specifically edited to uridines. Al...
RNA editing events identified in Amborella trichopoda chloroplast mRNAs sorted by gene names. (DOCX ...
RNA editing in land plant organelles is a process primarily involving the conversion of cytidine to ...
RNA editing is an important way to convert cytidine (C) to uridine (U) at specific sites within RNA ...
Key message: Our understanding of the dynamic and evolution of RNA editing in angiosperms is in part...
RNA editing is one of several post-transcriptional RNA processes. This process generates RNA and pro...
Phylogenetic tree of angiosperm homologues to Arabidopsis thaliana CRR28. (DOCX 22Â kb
<div><p>In flowering plants, mitochondrial and chloroplast mRNAs are edited by C-to-U base modificat...
Background: RNA editing in chloroplasts of angiosperms proceeds by C-to-U conversions at specific si...
RNA editing is a widespread epitranscriptomic mechanism by which primary RNAs are specifically modif...
<div><p>RNA editing is the post-transcriptional conversion from C to U before translation, providing...
RNA editing by cytidine (C) to uridine (U) conversions is widespread in plant mitochondria and chlor...
RNA editing is the post-transcriptional conversion from C to U before translation, providing a uniqu...
Although more than 9100 plant plastomes have been sequenced, RNA editing sites of the whole plastome...
The distinct distribution and abundance of C-to-U and U-to-C RNA editing among land plants suggest t...
Organellar transcripts of angiosperms contain cytidines that are specifically edited to uridines. Al...
RNA editing events identified in Amborella trichopoda chloroplast mRNAs sorted by gene names. (DOCX ...
RNA editing in land plant organelles is a process primarily involving the conversion of cytidine to ...
RNA editing is an important way to convert cytidine (C) to uridine (U) at specific sites within RNA ...
Key message: Our understanding of the dynamic and evolution of RNA editing in angiosperms is in part...
RNA editing is one of several post-transcriptional RNA processes. This process generates RNA and pro...
Phylogenetic tree of angiosperm homologues to Arabidopsis thaliana CRR28. (DOCX 22Â kb
<div><p>In flowering plants, mitochondrial and chloroplast mRNAs are edited by C-to-U base modificat...
Background: RNA editing in chloroplasts of angiosperms proceeds by C-to-U conversions at specific si...
RNA editing is a widespread epitranscriptomic mechanism by which primary RNAs are specifically modif...
<div><p>RNA editing is the post-transcriptional conversion from C to U before translation, providing...