Add to ORKGPlastids represent a unique opportunity for plant biotechnology and synthetic biology. Their fundamental uses for photosynthesis, starch storage, and other processes can be exploited to benefit food production and other industries. In this work, we attempt to modulate these plastids in order to produce potato plants with beneficial characteristics for further use in synthetic biology. The first chapter of this dissertation involves genome-editing of the FtsZ1 gene, which is involved in plastid division. Plants were generated with large plastids and starch granules, and similar methods could be used to produce these plants without foreign DNA integration. The second chapter involves generating similarly large plastid plants that were used fo...
The production of novel or modified polymers in transgenic plants can be divided into the manipulati...
The possibility of altering the unsaturation level of fatty acids in plant lipids by genetic transf...
Polyhydroxyalkanoates (PHAs) represent a large class of microbial polyesters which are widely distri...
Plastid genome engineering holds great promise in many biotechnological applications, including prod...
This report describes the integration and expression of foreign genes into the plastid genome of a c...
Plastid transformation has emerged as an alternative platform to generate transgenic plants. Attract...
Engineering the nuclear genome of plants is perceived to be associated with problems regarding biosa...
Tomato (Solanum lycopersicum L.), a member of the nightshade family (Solanaceae), is one of the most...
One of the distinguishing features of plants is the presence of membrane-bound organelles called pla...
Transgene expression from the plastid (chloroplast) genome offers unique attractions to plant biotec...
Transformation of potato plastids is limited by low transformation frequencies and low transgene e...
Abstract Plastids (chloroplasts) are the defining organelles of plants and eukaryotic algae. In addi...
Uncontrollable spread of transgenes to untransformed varieties and other related wild species throug...
Plant metabolic engineering has the potential to provide for the needs of an expanding population. E...
Plastid genetic engineering represents an attractive system for the production of foreign proteins i...
The production of novel or modified polymers in transgenic plants can be divided into the manipulati...
The possibility of altering the unsaturation level of fatty acids in plant lipids by genetic transf...
Polyhydroxyalkanoates (PHAs) represent a large class of microbial polyesters which are widely distri...
Plastid genome engineering holds great promise in many biotechnological applications, including prod...
This report describes the integration and expression of foreign genes into the plastid genome of a c...
Plastid transformation has emerged as an alternative platform to generate transgenic plants. Attract...
Engineering the nuclear genome of plants is perceived to be associated with problems regarding biosa...
Tomato (Solanum lycopersicum L.), a member of the nightshade family (Solanaceae), is one of the most...
One of the distinguishing features of plants is the presence of membrane-bound organelles called pla...
Transgene expression from the plastid (chloroplast) genome offers unique attractions to plant biotec...
Transformation of potato plastids is limited by low transformation frequencies and low transgene e...
Abstract Plastids (chloroplasts) are the defining organelles of plants and eukaryotic algae. In addi...
Uncontrollable spread of transgenes to untransformed varieties and other related wild species throug...
Plant metabolic engineering has the potential to provide for the needs of an expanding population. E...
Plastid genetic engineering represents an attractive system for the production of foreign proteins i...
The production of novel or modified polymers in transgenic plants can be divided into the manipulati...
The possibility of altering the unsaturation level of fatty acids in plant lipids by genetic transf...
Polyhydroxyalkanoates (PHAs) represent a large class of microbial polyesters which are widely distri...