Mulberry improvements via plastid transformation and tissue culture engineering |
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Authors: | Pavan Umate |
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Affiliation: | Department of Botany, Kakatiya University; Warangal, India |
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Abstract: | The in vitro tissue culture and micropropagation studies for Morus spp., a pivotal sericulture plant, are well established. The rapid and reproducible in vitro response to plant growth regulator treatments has emerged as an essential complement of transformation studies for this plant species. A major area of study is the use of protoplast culture and fusion techniques where advantages to mulberry improvement can be applied. The advancements in genetic transformation of mulberry are reviewed, and a section on strategy for transforming plastids (chloroplasts) of mulberry is included. A role for mulberry in “molecular farming” is envisioned. The conclusions and future prospects for improvement of this economically important tree species are proposed.Key words: molecular farming, Morus spp., plastid transformation, protoplast electrofusion, sericultureThe importance of silk production is well recognized in sericulture industry that involves cultivation of host plants for silkworm rearing. India is one of the countries where sericulture is an important agro-based cottage industry involved in production of five different silk types—mori, muga, eri, tasar and oak types. This classification comes from type of host plant that act as feed for silkworm, and thus sericulture industry largely depends on the availability of host plant species. Bombyx mori (mulberry silkworm) feeds on mulberry leaves, Philosomia ricini (eri silkworm) on castor leaves, Anthraea assama (muga silkworm) on som and soalu leaves, Anthraea proylei (temperate/oak tasar silkworm) on oak leaves, and Anthraea mylitta (tropical tasar silkworm) on Terminalia leaves. A systematic and proper cultivation of novel primary and/or secondary host plants showing high yield, suitability to silkworm rearing, and resistance to different abiotic stress conditions i.e., tolerance to water stress, alkalinity and salinity are recommended for sericulture improvement.The genus Morus (commonly known as mulberry) belongs to the family Moraceae, is a group of dioecious woody trees/shrubs. Many varieties of these species are cultivated on a commercial scale in India, China, Japan and Korea for the sericulture industry.1 In India, six species are found, namely, M. alba L., M. indica L., M. nigra L., M. atropurpurea Roxb., M. serrata Roxb. and M. laevigata Wall.2 Due to higher economic return and greater employment potential, attempts are been made to increase productivity by developing high yielding mulberry varieties. At present, Mysore local, Bomaypiasbari, Kanva-2 (K2), Bilidevalaya, Kajli, Sujanpur-1 (S1), BC (2) 59, C776, RFS-175, S36 and Victory-1 are being cultivated extensively in different parts of India. |
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