Micropropagation

In vitro propagation protocols that include temporary immersion systems are available for the most economically important plant species. However, these have not been established yet for multiple species. Having protocols validated by the scientific community guarantees the success of the mass production of commercial propagules. Besides, adequate TIS parameters should be established for each plant species to improve the efficiency of micropropagation processes. This book compiles basic and applied aspects of temporal immersion systems used for in vitro plant micropropagation, along with several detailed protocols already established, which may be used as a guide by those interested in this technique, including laboratory technicians, scientists, and other professionals...

Temporary immersion systems (TIS) have been used for orchid micropropagation. The main advantage of TIS use for micropropagation is that the explant is periodically immersed in nutrient media, and then, the nutrient solution is drained, which allows the explant tissue to stay in air. The current review resumes the application of TIS in orchid propagation. Fifty-three papers are discussed considering: explant, culture media, TIS bioreactor type, frequency and immersion time, and the TIS effects in acclimatization phase...

The use of temporary immersion systems (TIS) for plant micropropagation is an efficient technique for plant production, and we have applied it for the production of alstroemerias. This method involves the cultivation of explants such as rhizomes and axillary buds in a nutrient medium to stimulate shoot growth. TIS offer advantages such as accelerated multiplication processes, uniform production, and cost reduction. This process has shown promise in meeting the growing demand for alstroemeria plants in the market...

Guarianthe skinneri (Bateman) Dressler & W. E. Higgins is an orchid valued for its ornamental characteristics. However, it is an orchid classified as threatened with extinction due to the illegal extraction from its natural habitat. In addition, its propagation through seed germination is very low, as is the case with most members of the family Orchidaceae. Its asexual propagation through pseudobulb separation is slow and produces a few propagules. For this reason, in vitro propagation techniques are an alternative to increase the number of plants obtained and thus be able to recover this valuable plant genetic resource...

The use of new technologies for micropropagation such as temporary immersion systems (TISs) is important, because it reduces costs by 40% lowering labor, agar and containers. TISs are containers designed for large-scale, semiautomatic production of plants in a liquid medium, which has been used in propagation of commercial orchids. This tool has high potential for application in micropropagation of medicinal and endangered orchids for conservation and commercial purposes. In this chapter, we describe a detailed protocol for propagation and development of Encyclia cordigera to be used in research projects for small-scale production...

The main difficulty for the cultivation and conservation of bromeliad species is the reduced number of propagules and slow growth of many of the species, resulting in a low propagation efficiency. Bromeliad plants are hardy and relatively easy to cultivate, with a high ornamental and ecological importance. Aiming at efficient micropropagation rates of V. hieroglyphica, a highly valued bromeliad, with very low propagation efficiency, a temporary immersion system was used and compared to semisolid and liquid static medium...

Commercial plant tissue culture now primarily serves the ornamental horticulture industry. The main pillars of the commercial tissue culture business are scalability of production, cost reduction, limited labor involvement, high quality, and genetic homogeneity of propagated plants. Based on these requirements, the current protocol employs a partially immersed liquid culture medium supported by a flexible aluminum mesh raft with a wire stand to facilitate shoot organogenesis from the horizontally placed root explants and hold the plants upright for shoot multiplication and rooting of Limonium Misty Blue...

Chayote (Sechium edule) belongs to the Cucurbitaceae family, an important family at the nutritional and medicinal levels, that has been covering international markets. Having vigorous and healthy plants is important for producers, who are very interested in cultivating chayote plants obtained from in vitro tissue culture in their orchards. Bioreactors have become an alternative with high potential for plant propagation, showing significant advantages over micropropagation in semisolid medium, by generating more plant material, larger, and more vigorous...

Agaves are cultivated in Mexico as a source of industrial products such as fibers, nutritional supplements, and alcoholic beverages. Due to the demand for plant material, its long-life cycle, and the need to avoid predation on its natural populations, in vitro micropropagation represents a good option for agaves. Plant tissue culture has been successfully used to micropropagate selected elite individuals from plants of various Agave species of economic interest. However, it is necessary to implement systems that lower production costs without losing the quality of the plantlets obtained...

In Mexico, wild agaves are important for the production of alcoholic beverages known as mezcal and pulque. However, the propagation of agave seeds and pups is not enough to satisfy the national demand. Temporary immersion systems represent an agave micropropagation alternative that reduces the labor force, increases development, and improves the quality of seedlings. The use of the SETIS™ bioreactor in A. marmorata and A. potatorum improves the multiplication rate and allows rooting. Additionally, this bioreactor reduces the culture time, labor force, and reagents needed while maintaining high survival rates during the acclimatization phase...

Stevia rebaudiana Bert. is a plant that contains noncaloric sweeteners highly appreciated in the food industry. However, there is a high demand for propagules to establish commercial plantations, and the conventional reproduction types for this species are inefficient. Micropropagation is a technique that allows obtaining a large number of plants and can be used to meet the demand in the field. However, it requires in vitro propagation techniques such as temporary immersion systems (SIT) to increase yield and reduce production costs...

Sugarcane is used to produce sugar, ethanol, and other by-products, so it is considered one of the most important crops worldwide. Using temporary immersion systems for sugarcane micropropagation represents an alternative to reduce the labor force, increase plant development, and improve plant quality. Temporary immersion systems are semi-automated bioreactors designed for the large-scale propagation of tissues, embryos, and organs. These are temporarily exposed in a liquid culture medium under a specific time and immersion frequency...

The cultivation of vanilla (Vanilla planifolia) is of economic interest because vanillin is extracted from the fruits of this species. Vanillin is a natural flavoring highly valued in the food market. However, there is a short supply of propagules available for establishing commercial plantations and good-quality plants with phytosanitary certification. Plant tissue culture represents a viable option to supply large amounts of healthy plants to vanilla producers. In addition, the use of temporary immersion systems will allow commercial scale-up and the establishment of biofactories dedicated to in vitro vanilla propagation...

Companies dedicated to the large-scale propagation of plant species are known as biofactories or agricultural biotechnology companies. Globally, there are a large number of biofactories (large-scale production) or plant tissue culture laboratories (small-scale production) in charge of supplying commercial propagules of plants of economic interest. Each biofactory implements technological developments such as temporary immersion (TIS) systems that allow them to reduce costs. This chapter analyzes some of the biofactories established globally, the main plant species propagated, and whether or not they implement the use of TIS...

Technological innovation in the design and manufacture of temporary immersion systems (TIS) has increased in the past decade. Innovations have involved the size, fitting, and replacement of components, as well as manufacturing materials. Air replacement by compressor has also been substituted by air replacement by preset tilting/rotation of culture bottles. This design modification aims to increase the biological yield (number of shoots) produced in these bottles and reduce manufacturing costs. However, the operative principle has remained unchanged through time: promote an environment where explant immersions in the culture medium are programmable...

Temporary immersion systems (TIS) are technological tools that support plant micropropagation. Given their high efficiency in the in vitro propagation of shoots, a current goal is to update the protocols addressing micropropagation in semisolid culture systems to protocols involving TIS. To this end, different parameters have been evaluated, including TIS types and designs, immersion times, immersion frequencies, and volume of medium per explant, among other characteristics. This has resulted in the improved production of propagules of plants of economic interest and the production of physiologically upgraded plants with high percent survival during acclimatization...

Tylophora indica (Burm. f.) Merrill is an endangered medicinal plant that possesses various active agents, such as tylophorinine, kaempferol, quercetin, α-amyrin and beta-sitosterol, with multiple medicinal benefits. α-amyrin, a triterpenoid, is widely known for its antimicrobial, anti-inflammatory, gastroprotective and hepatoprotective properties. In this study, we investigated the metabolite profiling of tissues and the effects of cadmium chloride and chitosan on in vitro accumulation of alkaloids in T...

This study investigated the in vitro simulated gastrointestinal digestion (GID) effects on wild and micropropagated Apennines Genepì infusions. Wild and micropropagated infusions were compared for their antioxidant activity, phenolic contents, and polyphenolic profiles before and after GID. Before digestion, the wild infusions had higher amounts of phenolic compounds and antioxidant activity than the micropropagated ones. Instead, after digestion, the differences in the total phenolic content (TPC) and antioxidant activity between wild and micropropagated infusions were less pronounced...

Stachys scardica Griseb. is a Balkan endemic species listed in The Red Data Book of Bulgaria with the conservation status "endangered". Successful micropropagation was achieved on MS medium supplemented with 1.5 mg/L benzyladenine (BA), followed by a subsequent ex vitro adaptation in an experimental field resulting in 92% regenerated plants. Using nuclear magnetic resonance (NMR), phenylethanoid glycosides (verbascoside, leucosceptoside A), phenolic acids (chlorogenic acid), iridoids (allobetonicoside and 8-OAc-harpagide), and alkaloids (trigonelline) were identified, characteristic of plants belonging to the genus Stachys ...

In vitro propagation, also known as micropropagation, has become the most widely employed method for blackberry propagation, as it overcomes the limitations of the traditional asexual propagation methods (mainly layering and cutting). In this context, synthetic seed technology represents a strategy to enhance the productivity of in vitro propagation and facilitates the exchange of plant materials between laboratories, contributing to germplasm conservation. This study aimed to identify the most suitable vegetative propagule for the encapsulation of blackberry...