AbstractThe ‘introns-late’ theory holds that spliceosomal introns have been added to genes during eukaryotic evolution. Few clear examples of recent intron gains have been well documented, but two such cases have now been reported, one with possible identification of the source of the intron
<div><p>The evolution of spliceosomal introns remains poorly understood. Although many approaches ha...
AbstractClose analysis of intron phase – the position of introns within codons – is claimed to pro...
AbstractWhat are the roles of ‘classical’ introns in the evolution of nuclear genes, and what was th...
AbstractThe ‘introns-late’ theory holds that spliceosomal introns have been added to genes during eu...
The ‘introns-late ’ theory holds that spliceosomal introns have been added to genes during eukaryoti...
AbstractThe evolutionary origin of spliceosomal introns remains elusive. The startling success of a ...
AbstractA comparison of the nucleotide sequences around the splice junctions that flank old (shared ...
Eukaryotic genes consist of exons that contain the coding sequence, and of introns that are non-codi...
Spliceosomal introns, a hallmark of eukaryotic gene organization, were an unexpected discovery. Afte...
Abstract Background Ever since the discovery of 'genes in pieces' and mRNA splicing in eukaryotes, o...
Over 30 years since their discovery, the origin of spliceosomal introns remains uncertain. One nearl...
Continued improvements in Next-Generation DNA/RNA sequencing coupled with advances in gene annotatio...
Over 30 years since their discovery, the origin of spliceosomal introns remains uncertain. One nearl...
AbstractA new genome-wide analysis of spliceosomal introns indicates massive loss and gain of intron...
Ragg H, Kumar A, Köster K, et al. Multiple gains of spliceosomal introns in a superfamily of vertebr...
<div><p>The evolution of spliceosomal introns remains poorly understood. Although many approaches ha...
AbstractClose analysis of intron phase – the position of introns within codons – is claimed to pro...
AbstractWhat are the roles of ‘classical’ introns in the evolution of nuclear genes, and what was th...
AbstractThe ‘introns-late’ theory holds that spliceosomal introns have been added to genes during eu...
The ‘introns-late ’ theory holds that spliceosomal introns have been added to genes during eukaryoti...
AbstractThe evolutionary origin of spliceosomal introns remains elusive. The startling success of a ...
AbstractA comparison of the nucleotide sequences around the splice junctions that flank old (shared ...
Eukaryotic genes consist of exons that contain the coding sequence, and of introns that are non-codi...
Spliceosomal introns, a hallmark of eukaryotic gene organization, were an unexpected discovery. Afte...
Abstract Background Ever since the discovery of 'genes in pieces' and mRNA splicing in eukaryotes, o...
Over 30 years since their discovery, the origin of spliceosomal introns remains uncertain. One nearl...
Continued improvements in Next-Generation DNA/RNA sequencing coupled with advances in gene annotatio...
Over 30 years since their discovery, the origin of spliceosomal introns remains uncertain. One nearl...
AbstractA new genome-wide analysis of spliceosomal introns indicates massive loss and gain of intron...
Ragg H, Kumar A, Köster K, et al. Multiple gains of spliceosomal introns in a superfamily of vertebr...
<div><p>The evolution of spliceosomal introns remains poorly understood. Although many approaches ha...
AbstractClose analysis of intron phase – the position of introns within codons – is claimed to pro...
AbstractWhat are the roles of ‘classical’ introns in the evolution of nuclear genes, and what was th...
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