We have developed a new, simple, quick and genotype-independent method for direct regeneration of sugarcane using novel midrib segment explants. Our protocol involves two steps: the pretreatment of starting material on MS (Murashige and Skoog (1962) Physiol Plant 15:473–497) medium containing 3.0 mg/l 2,4- dichlorophenoxyacetic acid (2,4-D) for 8 days under continuous dark and subsequent transfer of the explants to MS medium augmented with 0.1 mg/l benzyladenine (BA) and 0.1 mg/l naphthaleneacetic acid (NAA) under light-dark conditions. On the regeneration medium, numerous globular structures appeared from the explants and subsequently differentiated into shoots. Regenerated shoots attained 2–5 cm height within 30 days of cu...
An efficient protocol for induction of callus and regeneration of a sugar cane var 93v297 has been d...
119-123 Factors affecting somatic embryogenesis and subsequent plant regeneration in vitro in sugarc...
Abstract Background Biotechnological breeding of elite sugarcane cultivars is currently limited beca...
Rapid and efficient in vitro regeneration methods\ud that minimise somaclonal variation are critical...
Sugarcane is an important perennial, polyploidy crop. Based on the growing demand, it has now attrac...
Sugarcane (Saccharum officinarum L.) is an economically important crop in S...
A simple and efficient protocol for In vitro direct regeneration of shoot from immature leaf explant...
Genome purification of a selected clone of sugarcane is the key to developing homogenous lines. Gene...
Sugarcane genetic transformation efforts are seriously hampered by the lack of an efficient and repr...
The development of an efficient regeneration system is crucial for the genetic transformation of sug...
Root formation of rootless in vitro microshoots can be induced ex vitro with auxin during ex vitro a...
Studies were carried out for rapid micropropagation of three sugarcane varieties i.e., HSF-240, CP-7...
Conventional vegetative propagation of sugarcane generally has low multiplication rate and allows di...
The development of an efficient regeneration system is crucial for the genetic transformation of sug...
Experiments were conducted to improve the conditions for growth of sugarcane (Saccharum spp.) plantl...
An efficient protocol for induction of callus and regeneration of a sugar cane var 93v297 has been d...
119-123 Factors affecting somatic embryogenesis and subsequent plant regeneration in vitro in sugarc...
Abstract Background Biotechnological breeding of elite sugarcane cultivars is currently limited beca...
Rapid and efficient in vitro regeneration methods\ud that minimise somaclonal variation are critical...
Sugarcane is an important perennial, polyploidy crop. Based on the growing demand, it has now attrac...
Sugarcane (Saccharum officinarum L.) is an economically important crop in S...
A simple and efficient protocol for In vitro direct regeneration of shoot from immature leaf explant...
Genome purification of a selected clone of sugarcane is the key to developing homogenous lines. Gene...
Sugarcane genetic transformation efforts are seriously hampered by the lack of an efficient and repr...
The development of an efficient regeneration system is crucial for the genetic transformation of sug...
Root formation of rootless in vitro microshoots can be induced ex vitro with auxin during ex vitro a...
Studies were carried out for rapid micropropagation of three sugarcane varieties i.e., HSF-240, CP-7...
Conventional vegetative propagation of sugarcane generally has low multiplication rate and allows di...
The development of an efficient regeneration system is crucial for the genetic transformation of sug...
Experiments were conducted to improve the conditions for growth of sugarcane (Saccharum spp.) plantl...
An efficient protocol for induction of callus and regeneration of a sugar cane var 93v297 has been d...
119-123 Factors affecting somatic embryogenesis and subsequent plant regeneration in vitro in sugarc...
Abstract Background Biotechnological breeding of elite sugarcane cultivars is currently limited beca...