%0 Journal Article
%T An improved protocol for efficient transformation and regeneration of diverse indica rice cultivars
%A Khirod K Sahoo
%A Amit K Tripathi
%A Ashwani Pareek
%A Sudhir K Sopory
%A Sneh L Singla-Pareek
%J Plant Methods
%D 2011
%I BioMed Central
%R 10.1186/1746-4811-7-49
%X In the present study, we have developed an easy, rapid and highly efficient transformation and regeneration protocol using mature seeds as explants and found its successful applicability to a choice of elite indica rice genotypes. We have optimized various steps of transformation and standardized different components of the regeneration medium including growth hormones and the gelling agent. The modified regeneration medium triggers production of large number of shoots from smaller number of calli and promotes their faster growth, hence significantly advantageous over the existing protocols where the regeneration step requires maximum time. Using this protocol, significantly higher transformation efficiency (up to 46%) and regeneration frequency (up to 92% for the untransformed calli and 59% for the transformed calli) were achieved for the four tested cultivars. We have used this protocol to produce hundreds of independent transgenic lines of different indica rice genotypes. Upon maturity, these transgenic lines were fertile thereby indicating that faster regeneration during tissue culture did not affect their reproductive potential.This speedy, yet less labor-intensive, protocol overcomes major limitations associated with genetic manipulation in rice. Moreover, our protocol uses mature seeds as the explant, which can easily be obtained in quantity throughout the year and kept viable for a long time. Such an easy, efficient and generalized protocol has the potential to be a major tool for crop improvement and gene-function studies on the model monocot plant rice.Rice transformation using Agrobacterium tumefaciens is a method of choice due to stable and low copy number integration of transfer-DNA (T-DNA) into the plant chromosome and transfer of larger DNA segments with defined ends [1]. Genetic transformation of rice with Agrobacterium requires regeneration of an intact plant from a transformed callus and ironically, shoot regeneration represents a major bottleneck
%K rice
%K transformation
%K regeneration
%K mature seed-derived calli
%K Agrobacterium
%K somatic embryogenesis
%U http://www.plantmethods.com/content/7/1/49