Add to ORKGThe recent successes of gene engineering in plants demonstrate the high potential of expressing transgenes in agronomically important crops. These approaches require that the introduced gene is stably expressed in subsequent plant generations. However, experiments involving transgenic plants show that the expression of chimeric genes can substantially vary among individual transformants
Overexpression of chimeric transgenes in plants can trigger post-transcriptional gene silencing that...
A good strategy for acceptable legislation of transgenic plants can be thought to be composed of sev...
The genetic transformation of plants has become a necessary tool for fundamental plant biology resea...
Transgene expression is not only variable between independent transgenic lines but can also be compl...
Basic and applied research involving transgenic plants often requires consistent high-level expressi...
The development of genetic transformation methods has led to numerous applications of transgenic pla...
Stable and high expression of transgenes is essential for the development of any genetically enginee...
Pronounced variability of transgene expression and transgene silencing are commonly observed among i...
The utility of any transgenic plant is ultimately dependent upon the robust control of transgene exp...
Post-transcriptional gene silencing (PTGS) has been shown to occur in many transgenic dicotyledonous...
Transgenic plant technology has greatly facilitated the study of plant gene structure and function. ...
The use of transgenic organisms has become routine in biology in the last decade. The technology is ...
Transgenic plant studies have lead to the breakthrough discovery of RNA silencing as a conserved mec...
By capitalizing on the initially puzzling observations of unpredictable transgene silencing and vari...
Many applications of plant genetic engineering require tight control of transgene expression to a pa...
Overexpression of chimeric transgenes in plants can trigger post-transcriptional gene silencing that...
A good strategy for acceptable legislation of transgenic plants can be thought to be composed of sev...
The genetic transformation of plants has become a necessary tool for fundamental plant biology resea...
Transgene expression is not only variable between independent transgenic lines but can also be compl...
Basic and applied research involving transgenic plants often requires consistent high-level expressi...
The development of genetic transformation methods has led to numerous applications of transgenic pla...
Stable and high expression of transgenes is essential for the development of any genetically enginee...
Pronounced variability of transgene expression and transgene silencing are commonly observed among i...
The utility of any transgenic plant is ultimately dependent upon the robust control of transgene exp...
Post-transcriptional gene silencing (PTGS) has been shown to occur in many transgenic dicotyledonous...
Transgenic plant technology has greatly facilitated the study of plant gene structure and function. ...
The use of transgenic organisms has become routine in biology in the last decade. The technology is ...
Transgenic plant studies have lead to the breakthrough discovery of RNA silencing as a conserved mec...
By capitalizing on the initially puzzling observations of unpredictable transgene silencing and vari...
Many applications of plant genetic engineering require tight control of transgene expression to a pa...
Overexpression of chimeric transgenes in plants can trigger post-transcriptional gene silencing that...
A good strategy for acceptable legislation of transgenic plants can be thought to be composed of sev...
The genetic transformation of plants has become a necessary tool for fundamental plant biology resea...