We researched the impact of inorganic salt focus on the in vitro organogenesis of spearmint (Mentha spicata L.) by utilizing Murashige and Skoog culture vehicle of various strength (full, half-and quarter strength). The biggest number of shoots and roots actuated per explant (3.5 and 10, individually), as well as the most extreme normal shoot length (16 cm) was seen on half strength medium. The greatest leaf number (35 for every explant) and normal root length (7 cm) were related with recovery on full medium. The most noteworthy normal phenolic content was seen on shoot removes (7.20 mg/g f.w.) and root separates (5.93 mg/g f.w.) refined onto quarter and half strength medium, individually. The strength of the way of life medium was contrarily corresponded with the cell reinforcement action of plant extricates. Thusly, for spearmint organogenesis, half strength MS medium offers a split the difference between ideal development in vitro and cancer prevention agent phenolic gathering.
Yoshiaki I. Nutrient deficiencies of crops. Food & Fertilizer Technology Center, Taipei, Taiwan 1978.
Kerr A. Biological control of crown gall: Seed inoculation. J Appl Bacteriol 1972; 35: 493-7.
Castiglione S, Franchin C, Fossati T, Lingua G, Torrigiani P, Biondi. S. High zinc concentrations reduce rooting capacity and alter metallothionein gene expression in white poplar (Populus alba L. cv. Villafranca). Chemosphere 2007; 67: 1117-26.
Wiedenfeld RP, Cox EL. Effects of limestone and irrigation level on salt levels and pH in potting media. Hort Sci 1988; 23(5): 844-5.
Stockwell VO, Kawalek MD, Moore LW, Lopper JE. Transfer of pAgK84 from the biocontrol agent Agrobacterium radiobacter K84 to A. tumefaciens under field conditions. Phytopathology 1996; 86: 31-7.