Paola Andrea Murillo-Gómez scite author profile

Paola Andrea Murillo-Gómez

2Publications

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Micropropagation of the native species Anthurium antioquiense Engl. for conservation purposes

Murillo-Gómez¹,

Naranjo²,

Callejas³

et al. 2014

Agron. colomb.

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Anthurium antioquiense Engl. is a native plant belonging to the Araceae family. It grows on rocks in clear-water rivers and well-protected zones, similar to the waters in certain watersheds of the Antioquia Department, Colombia. Loss of habitat has threatened this promising ornamental plant species, which is also important because of its role in the ecosystem. In vitro tissue culture is considered an efficient alternative for the propagation of endangered species with the aim of establishing short-, medium- and long-term conservation programs. In the present research, in vitro introduction and shoot induction from A. antioquiense seedlings were performed. The highest production of shoots was obtained in a ½ MS (half-salt content) medium with 1 mg L-1 of BAP, which attained a 23.7 shoots/explant per month multiplication rate. The in vitro plants generated from shoots were individualized and transferred to a growth regulator-free medium. Rooting did not require the presence of growth regulators, and the adaptation of the in vitro plants to ex vitro conditions achieved a 98% survival rate.

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Organogénesis in-vitro using three tissues types of tree tomato [ Solanum betaceum (Cav.)]

Murillo-Gómez¹,

S²,

Chavarriaga³

2017

Agron. colomb.

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Tree tomato is a fruit with great economic potential due to its high nutritional value. The induction of direct organogenesis in this species is a great alternative for clonal propagation of disease-free plants, and also useful for genetic transformation. In this study was assessed the induction of organogenesis in vitro using three different tissues: leaves, petioles and sexual seeds of the variety Common. All tissues were cultured on MS supplemented with agar, sucrose and TDZ or BAP phytohormones at 0.5 to 3 mg L-1, combined or not with the auxins IAA and NAA. Although petioles and seeds had a great potential for regeneration of plantlets, leaves produced more shoots (average of 18.4 shoots/explant) on medium containing TDZ 0.5 mg L-1. Additionally, its easy handling and resistance to physical damage may be useful traits to perform genetic trans-formation. The highest average of shoots produced from seeds and petioles were 4.3 and 3.1 shoots/explant, respectively. The production of multiple shoots in petioles was influenced by low concentrations of auxins. The emergence of the radicle in the seeds was important for the formation of shoots.

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