Direct shoot organogenesis and plant regeneration from hypocotyl explants in selected genotypes of Leucaena leucocephala - a leguminous pulpwood tree

TitleDirect shoot organogenesis and plant regeneration from hypocotyl explants in selected genotypes of Leucaena leucocephala - a leguminous pulpwood tree
Publication TypeJournal Article
Year of Publication2008
AuthorsSirisha, VL, Prashant, S, Ranadheer, D, Ramprasad, P, Shaik, NM, Arha, M, Gupta, SK, Srivastava, S, Yadav, AK, Kulkarni, PS, Abhilash, OU, Khan, BMohammad, Rawal, SK, Kishor, PBKavi
JournalIndian Journal of Biotechnology
Volume7
Issue3
Pagination388-393
Date PublishedJUL
Type of ArticleArticle
ISSN0972-5849
Keywordshypocotyl explants, Leucaena lucocephala, pulpwood leguminous tree, shoot organogenesis
Abstract

An efficient in vitro plant regeneration system in subabul (Leucaena leucocephala), a leguminous pulp wood tree species, was established. The induction of shoots was achieved from selected elite clones of subabul K-8, K-636 and also wild type on MS medium supplemented with 2% sucrose and different concentrations (0.88 to 24.6 mu M) of plant growth regulators (BA, Kn, 2iP & TDZ). The best medium for shoot regeneration was MS with 22.2 mu M BA (5 shoots per explant), followed by 22.7 mu M TDZ (4.6 shoots per explant). Addition of putriscine (9.3 mu M) to MS medium containing 22.2 mu M BA enhanced the number of multiple shoots to 7-8 but not the frequency of response. Shoot initials (measuring 1 cm) when separated and transferred on to MS medium containing 1.4 mu M GA(3) elongated to 2-5 cm in 15.20 d with 80% frequency. The per cent frequency of shoot differentiation was almost identical in the genotypes K-8 and K-636 but it differed significantly from the wild type. Leaf yellowing and abscission in all the genotypes was curtailed by supplementing the medium with 685 mu M glutamine or 540 mu M adenine. The excised shoots were transferred to root regeneration media containing 2.46 and 4.98 mu M IBA or 2.6 and 5.3 mu M NAA. Root regeneration was noticed with 100% frequency in all the three genotypes in presence of IBA or NAA. Plantlets were transferred successfully to the pots with 70% survival rate with no visible morphological variations. The protocol can be utilized for mass propagation and genetic transformation studies of this important pulpwood species.

Type of Journal (Indian or Foreign)Indian
Impact Factor (IF)0.287
Divison category: 
Biochemical Sciences