Add to ORKGThe Mutator system of transposable elements is characterized by a family of transposons called Mu transposons that share common termini and are actively transposing in Robertson's Mutator (Mu) lines of maize. Mu lines lose transposition activity during propagation by either outcrossing or inbreeding. This loss of transposition activity, which can occur at non-Mendelian frequencies, is in the form of loss of forward transposition activity resulting in a decrease in the generation of new mutations, as well as the loss of mutability of Mu transposon induced mutations, and it has been correlated with hypermethylation of the Mu elements. Previous studies have concluded that restoration of Mutator transposon activity by crossing inactive lines ba...
The Mu transposon system of maize is highly active, with each of the,50–100 copies transposing on av...
The purpose of this research was to characterize mutations induced by the Ac2 elements. The Ac2 elem...
More than half a century after the discovery of transposable elements, the number of genetically def...
Transposable elements from the Robertson's Mutator family are highly active insertional mutagens in ...
Many transposable elements in maize alternate between active and inactive phases associated with the...
Nearly a decade ago, Dr. Donald S. Robertson first described the Mutator system in Zea mays. Roberts...
Previously, only one system, the Ac-Ds system, has been found to cause chromosomal rearrangements su...
Mutable systems possess transposable elements that cause mutability of associated gene loci. The En ...
Transposable elements have long been associated with certain unstable loci in maize and have been in...
The Mu transposons of the Robertson's Mutator transposable element system in maize are unusual in ma...
Paramutation and transposon silencing are two epigenetic phenomena that have intrigued and puzzled g...
We described previously a mutation in maize, hcf106, caused by the insertion of a Mu1 transposon. Wh...
The maize photosynthetic mutant hcf106 has a distinctive and unusual thylakoid membrane organization...
The maize Enhancer transposable element can be targeted to any locus and many unstable alleles have ...
Robertson's Mutator transposable elements in maize undergo cycles of activity and then inactivity th...
The Mu transposon system of maize is highly active, with each of the,50–100 copies transposing on av...
The purpose of this research was to characterize mutations induced by the Ac2 elements. The Ac2 elem...
More than half a century after the discovery of transposable elements, the number of genetically def...
Transposable elements from the Robertson's Mutator family are highly active insertional mutagens in ...
Many transposable elements in maize alternate between active and inactive phases associated with the...
Nearly a decade ago, Dr. Donald S. Robertson first described the Mutator system in Zea mays. Roberts...
Previously, only one system, the Ac-Ds system, has been found to cause chromosomal rearrangements su...
Mutable systems possess transposable elements that cause mutability of associated gene loci. The En ...
Transposable elements have long been associated with certain unstable loci in maize and have been in...
The Mu transposons of the Robertson's Mutator transposable element system in maize are unusual in ma...
Paramutation and transposon silencing are two epigenetic phenomena that have intrigued and puzzled g...
We described previously a mutation in maize, hcf106, caused by the insertion of a Mu1 transposon. Wh...
The maize photosynthetic mutant hcf106 has a distinctive and unusual thylakoid membrane organization...
The maize Enhancer transposable element can be targeted to any locus and many unstable alleles have ...
Robertson's Mutator transposable elements in maize undergo cycles of activity and then inactivity th...
The Mu transposon system of maize is highly active, with each of the,50–100 copies transposing on av...
The purpose of this research was to characterize mutations induced by the Ac2 elements. The Ac2 elem...
More than half a century after the discovery of transposable elements, the number of genetically def...