Add to ORKGNot AvailableClonal propagation through micropropagation is hailed as a revolutionary technology as it can be achieved in a short time and space with limited number of plant propagules. Recent studies have shown that cell or tissue cultures undergo frequent genetic changes. Variants selected in tissue cultures have been referred to "somaclonal variation". Though, genetic variations may be considered obstructive and worthless from the point of clonal fidelity, it opens a window of opportunity for increased genetic variability relatively rapidly and without applying a sophisticated technology, which may itself have numerous application in plant breeding and genetic improvements. The recovery of novel variants can be enhanced by applying suita...
The genetic variability induced by in vitro conditions known as somaclonal variation is of practical...
Plant tissue culture uses the genetic potential, or totipotency, of plants to regenerate and give ri...
In the last 10 years micropropagation has shown a spectacular development. However, at present the w...
Somaclonal variation describes random cellular changes in plants regenerated through tissue culture....
Not AvailableWith the advancements made in plant tissue culture techniques, it has now become possib...
Somaclonal variations (SV) are genetic or epigenetic changes induced in plant cell and tissue cultur...
Cell and tissue plant cultures are used either to save vulnerable species from extinction or to mult...
Micropropagation or tissue culture is an integral component of applied biotechnology, and is routine...
Allelic diversity is a fundamental requirement for successful plant breeding programs. When gene poo...
As an alternative technology, plant improvement through somaclonal variation is expected to support ...
Variability is the basis of all crop improvement and breeding programs. There are many difficulties ...
The origin of somaclonal variation has not been questioned previously, i.e., "pre-existing mutations...
In the twenty years since the first unequivocal reports (including inheritance data) on the selecti...
High genetic variability\u27s are important factors in the development of new crop varieties. In vit...
This paper summarises our experience of the molecular and field analysis of somaclonal variation wit...
The genetic variability induced by in vitro conditions known as somaclonal variation is of practical...
Plant tissue culture uses the genetic potential, or totipotency, of plants to regenerate and give ri...
In the last 10 years micropropagation has shown a spectacular development. However, at present the w...
Somaclonal variation describes random cellular changes in plants regenerated through tissue culture....
Not AvailableWith the advancements made in plant tissue culture techniques, it has now become possib...
Somaclonal variations (SV) are genetic or epigenetic changes induced in plant cell and tissue cultur...
Cell and tissue plant cultures are used either to save vulnerable species from extinction or to mult...
Micropropagation or tissue culture is an integral component of applied biotechnology, and is routine...
Allelic diversity is a fundamental requirement for successful plant breeding programs. When gene poo...
As an alternative technology, plant improvement through somaclonal variation is expected to support ...
Variability is the basis of all crop improvement and breeding programs. There are many difficulties ...
The origin of somaclonal variation has not been questioned previously, i.e., "pre-existing mutations...
In the twenty years since the first unequivocal reports (including inheritance data) on the selecti...
High genetic variability\u27s are important factors in the development of new crop varieties. In vit...
This paper summarises our experience of the molecular and field analysis of somaclonal variation wit...
The genetic variability induced by in vitro conditions known as somaclonal variation is of practical...
Plant tissue culture uses the genetic potential, or totipotency, of plants to regenerate and give ri...
In the last 10 years micropropagation has shown a spectacular development. However, at present the w...