1Agricultural Research Station, Thirupathisaram, Kanyakumari-629 901, India
Centre for Plant Breeding and Genetics, Agricultural College & Research Institute, Coimbatore-641 003, India
*Corresponding author's e-mail: revathipbg@yahoo.in
Online published on 21 December, 2015.
This study was undertaken to standardize an efficient and effective protocol for callus induction, subsequent growth and regeneration of ADT 43 genotype and hydroponic solution was used for salinity screening (NaCl) in regenerated plants of ADT 43. Proline content was analyzed in salinity screened plants. The medium used for callus induction was MS medium, with six different concentrations of 2, 4-D were used for callus induction viz., 0.5, 1.0, 1.5, 2.0, 2.5 and 3.0 mg/l. In this 2.0 mg/l 2, 4-D having higher callus induction frequency (98.33%). For regeneration of callus eight combinations of BA and IAA were also used in MS medium. In this MS+3.0 mg/l BA+2.0 mg/l IAA having maximum regeneration frequency (71.67%).Thewellregenerated planletsweretranferred toYoshida'ssolution forhydroponicsalinityscreeening. Inthat, III-7 (113.66 μg/g) and VIII-2 (117.66 μg/g) somaclone lines had high proline accumulation. Hence, the salt tolerant somaclones produced higher proline content than the other somaclones. These lines can be exploited further to get salt tolerant varieties. These lines can be used to adopt in salt affected soil environment.
Callus induction, Callus regeneration, Rice, Salt tolerance, Somoclone