AbstractThe source of the enzyme activity responsible for the transposition of retrotransposons of the type that lack terminal repeats has at last been identified: in L1Hs elements, it is encoded by the second open reading frame and is a nuclease related to the apurinic repair endonucleases
AbstractL1 elements (LINE-1s) account for 17% of the human genome and have achieved this abundance b...
The eukaryotic genome has undergone a series of epidemics of amplification of mobile elements that h...
AbstractRetroviruses and many retrotransposons are flanked by sequence repeats called long terminal ...
AbstractThe source of the enzyme activity responsible for the transposition of retrotransposons of t...
AbstractHuman L1 elements are highly abundant poly(A) (non-LTR) retrotransposons whose second open r...
Transposable element derived sequences comprise -40% of the human genome. Long Interspersed Elements...
Transposable element derived sequences comprise -40% of the human genome. Long Interspersed Elements...
SummaryJune 27, 1970 was a significant day for our understanding of both the flow of information in ...
Retrotransposons are present in essentially all eukaryotic genomes and come in two basic flavors: th...
Retrotransposons represent a significant part of the genome in eukaryote organisms. With DNA transpo...
Long interspersed element-1 (LINE-1 or L1) elements are abundant, non-long-terminal-repeat (non-LTR)...
AbstractThe human L1 endonuclease (L1-EN) is encoded by the non-LTR retrotransposon LINE-1 (L1). L1 ...
AbstractWe previously isolated two human L1 elements (L1.2 and LRE2) as the progenitors of disease-p...
Almost half of our genome is occupied by transposable elements. Although most of them are inactive, ...
The reverse transcription of the genetic code of an RNA molecule back into a complementary DNA copy ...
AbstractL1 elements (LINE-1s) account for 17% of the human genome and have achieved this abundance b...
The eukaryotic genome has undergone a series of epidemics of amplification of mobile elements that h...
AbstractRetroviruses and many retrotransposons are flanked by sequence repeats called long terminal ...
AbstractThe source of the enzyme activity responsible for the transposition of retrotransposons of t...
AbstractHuman L1 elements are highly abundant poly(A) (non-LTR) retrotransposons whose second open r...
Transposable element derived sequences comprise -40% of the human genome. Long Interspersed Elements...
Transposable element derived sequences comprise -40% of the human genome. Long Interspersed Elements...
SummaryJune 27, 1970 was a significant day for our understanding of both the flow of information in ...
Retrotransposons are present in essentially all eukaryotic genomes and come in two basic flavors: th...
Retrotransposons represent a significant part of the genome in eukaryote organisms. With DNA transpo...
Long interspersed element-1 (LINE-1 or L1) elements are abundant, non-long-terminal-repeat (non-LTR)...
AbstractThe human L1 endonuclease (L1-EN) is encoded by the non-LTR retrotransposon LINE-1 (L1). L1 ...
AbstractWe previously isolated two human L1 elements (L1.2 and LRE2) as the progenitors of disease-p...
Almost half of our genome is occupied by transposable elements. Although most of them are inactive, ...
The reverse transcription of the genetic code of an RNA molecule back into a complementary DNA copy ...
AbstractL1 elements (LINE-1s) account for 17% of the human genome and have achieved this abundance b...
The eukaryotic genome has undergone a series of epidemics of amplification of mobile elements that h...
AbstractRetroviruses and many retrotransposons are flanked by sequence repeats called long terminal ...