TY - JOUR
T1 - Taming of transposable elements by homology-dependent gene silencing
AU - Jensen, Silke
AU - Gassama, Marie Pierre
AU - Heidmann, Thierry
PY - 1999/2/1
Y1 - 1999/2/1
N2 - Transposable elements can invade virgin genomes within a few generations, after which the elements are 'tamed' and retain only limited transpositional activity. Introduction of the 1 element, a transposon similar to mammalian LINE elements, into Drosophila melanogaster genomes devoid of such elements initially results in high-frequency transposition of the incoming transposon, high mutation rate, chromosomal nondisjunction and female sterility, a syndrome referred to as hybrid dysgenesis (for review, see refs 2-4); a related syndrome has also been described in mammals. High- frequency transposition is transient, as the number of I elements reaches a finite value and transposition ceases after approximately ten generations. It has been proposed that the I elements encode a factor that negatively regulates their own transcription, but evidence for such a mechanism is lacking. Using the hybrid dysgenesis syndrome in Drosophila as a model, we show here that transpositional activity of the I element can be repressed by prior introduction of transgenes expressing a small internal region of the I element. This autoregulation presents features characteristic of homology- dependent gene silencing, a process known as cosuppression. Repression does not require any translatable sequence, its severity correlates with transgene copy number and it develops in a generation-dependent manner via germline transmission of a silencing effector in females only. These results demonstrate that transposable elements are prone to and can be tamed by homology-dependent gene silencing, a process that may have emerged during the course of evolution as a specific defense mechanism against these elements.
AB - Transposable elements can invade virgin genomes within a few generations, after which the elements are 'tamed' and retain only limited transpositional activity. Introduction of the 1 element, a transposon similar to mammalian LINE elements, into Drosophila melanogaster genomes devoid of such elements initially results in high-frequency transposition of the incoming transposon, high mutation rate, chromosomal nondisjunction and female sterility, a syndrome referred to as hybrid dysgenesis (for review, see refs 2-4); a related syndrome has also been described in mammals. High- frequency transposition is transient, as the number of I elements reaches a finite value and transposition ceases after approximately ten generations. It has been proposed that the I elements encode a factor that negatively regulates their own transcription, but evidence for such a mechanism is lacking. Using the hybrid dysgenesis syndrome in Drosophila as a model, we show here that transpositional activity of the I element can be repressed by prior introduction of transgenes expressing a small internal region of the I element. This autoregulation presents features characteristic of homology- dependent gene silencing, a process known as cosuppression. Repression does not require any translatable sequence, its severity correlates with transgene copy number and it develops in a generation-dependent manner via germline transmission of a silencing effector in females only. These results demonstrate that transposable elements are prone to and can be tamed by homology-dependent gene silencing, a process that may have emerged during the course of evolution as a specific defense mechanism against these elements.
UR - http://www.scopus.com/inward/record.url?scp=0032954098&partnerID=8YFLogxK
U2 - 10.1038/5997
DO - 10.1038/5997
M3 - Article
C2 - 9988275
AN - SCOPUS:0032954098
SN - 1061-4036
VL - 21
SP - 209
EP - 212
JO - Nature Genetics
JF - Nature Genetics
IS - 2
ER -