Influence of Agitation Rate on the Growth of MD2 Pineapple Protocorm-Like Bodies and Shoots in Liquid-Shake Culture

The present study was conducted to investigate the effect of agitation rate on the increase in fresh weight of MD2 pineapple protocorm-like bodies (PLBs) and shoots cultured in liquid medium. PLBs were cultured in 250 ml Erlenmeyer flasks (7 g per flask) containing MS medium and plant growth regulators (1.5 mg/L 6-Benzylaminopurine, BAP and 0.2 mg/L 1-Naphthaleneacetic acid, NAA). The orbital shaker was set at speeds of 50, 80, 100, 120, and 150 rpm. After 40 days, the cultures shaken at 80 rpm showed the highest fresh weight and the highest number of shoots at 76 g and 41 shoots, respectively. A comparative study of agitation found that 80 rpm was the best speed which enhanced both PLB and shoot formation. The findings in the present study would be helpful in setting up large-scale in vitro mass propagation of MD2 pineapple.

American Journal of Plant Sciences nas comosus), a tropical species, is the most economically significant plant in the family Bromeliaceae [2] [3]. The plants begin flowering after five to ten months and set fruit in the following six months [4]. The pineapple is a major tropical fruit in terms of world production [5], with the MD2 variety being among the highly commercialized cultivars especially popular in the European Union market [6]. The National Key Economic Area (NKEA) under Malaysia's Permanent Food Production Area has listed MD2 as one of the top seven tropical fruits in terms of production output in Malaysia [7].
The variety, a deep golden fruit, is in high demand owing to its aroma, blemish-free flesh and high sugar content, besides being rich in vitamins A, B, and C, ripening evenly and having a long shelf life [8] [9]. Pineapples can be cultivated from cuttings obtained from the top of the fruit. Micropropagation of MD2 pineapple has also been reported through direct in vitro micropropagation [8] and indirect regeneration [1]. Multiple plantlets can be produced in vitro using liquid-shake culture, this approach attaining an increase of up to four-fold as compared with culture on solid medium [10]. The aim of the study was to investigate the effect of agitation rate of the orbital shaker on MD2 pineapple propagation and quality, and to compare these results with those obtained with cultures on solid medium.

Materials and Methods
MD2 Pineapple suckers were used in this study. The pieces of MD2 pineapple suckers approximately 25 -30 cm were used as explants for in vitro culture. The pineapple leaf blade removed, the inside of the explant was trimmed to 5 -8 cm.
It was followed by washed thoroughly in running tap water and detergent. The explant then immersed in fungicide (5% w/v Benlate) for one hour and rinsing with sterile distilled water. The explants were immersed in CloroxTM (5.25% sodium hypochlorite) at 50% (v/v) for 15 minutes then followed by soaking in 20% (v/v) CloroxTM for 10 mins. The explant was then rinsed thrice with sterilized distilled water, which all the procedure conducted in a laminar flow chamber. The sterilized explants were then cut to 1 -2 cm pieces as described by Zuraida et al. (2018) [10].
Sterilized explants were cultured on solid Murashige and Skoog (MS) medium (Murashige and Skoog [11]) that was supplemented with 30 mg/L sucrose, 5 mg/L benzyl aminopurine (BAP) and 0.3% agar. The cultures were maintained in the medium for three months before sub-culturing on to fresh medium at monthly intervals. After a further three months, the microshoots obtained were maintained in the Murashige and Skoog (MS) liquid medium that was supplemented with 30 mg/L sucrose, 1 mg/L benzyl aminopurine (BAP) and 0.1 mg/L 2,4-Dichlorophenoxyacetic acid (2,4-D) for three months before sub-culturing into fresh medium at monthly intervals. After a further three months, the protocorm-like bodies (PLBs) (Figure 1  All cultures were maintained in the growth room at 25˚C under cool-white fluorescent lighting (12 hours light/darkness). Measurements were expressed as total fresh weight (PLBs and plantlets) and the number of shoots produced after 40 days in culture. Total fresh weight was recorded after the samples were dried on filter paper for 1 hour to remove surface water. A completely randomized design was adopted, with 10 flasks used for each treatment. The means and standard deviations (indicated as ± values) were calculated for the treatment responses.
Statistical analyses were performed using SPSS software.

Results and Discussion
After forty days of cultivation in liquid medium containing 1.5 mg/L BAP and 0.2 mg/L NAA, the PLBs in all shaking treatments showed increases in growth.
The highest total fresh weight of 76 g was obtained with shaking at 80 rpm. One third of the cultures in this treatment produced shoots that were characterized by intense green coloration and well-developed expanded leaves (Figure 1(c), Figure 1(d)). The PLBs obtained with this treatment were bigger than those in the other treatments, showed clumping and produced more shoots (Figure 1(e), Figure 1(f)). Cultures that were shaken at a lower rate (50 rpm) or higher rate (100 rpm) produced 63 g and 61 g of tissue fresh weight (Figure 2). Both the 50 rpm and 100 rpm treatments also produced shoots, whereas few shoots were produced when the PLBs were cultured in flasks shaking at 120 rpm, and none at 150 rpm. The highest number of offshoots (41 per flask) was obtained in cultures shaken at 80 rpm ( Figure 3). Shaking at 120 rpm resulted in the production of more PLBs that appeared fresh and green (Figure 1(g)). PLBs in flasks shaken at 150 rpm turned brown due to the presence of phenolics, but were still growing well nonetheless (Figure 1(h)). The control cultures on solid medium and on  unshaken liquid medium showed growth rates lower than those of the shaken cultures ( Figure 2). These controls produced some shoots, but fewer in number than from cultures shaken at 50 or 80 rpm (Figure 3).
Liquid culture systems tend to enhance growth and propagation as compared with solid medium cultures. According to Zuraida et al. [10], liquid-shake cultures are better at producing multiple shoots as compared with solid medium cultures. The continuous shaking or a rotary shaker probably facilitates increased uptake of the nutrients in the medium [12] [13]. Hamid et al. [1] reported that the highest number of pineapple shoots obtained on solid MS medium containing 3 mg/L BAP + 1 mg/L NAA was only 15. Hence, the liquid medium with shaking at 80 rpm used in the present study performed far better in shoot multiplication. In vitro growth, multiplication and elongation of Celastrus bolivitianum have also been observed to be improved in liquid culture as compared with solid medium [14]. The improved growth in liquid system may be attributed to the absence of interfering impurities from agar and the better availability of water and nutrients [15].

Conclusion
Liquid-shake culture systems are conducive to the development of MD2 pineapple PLBs and shoots. Such a system is suitable for the tissue culture of MD2 pineapple for rapid and efficient clonal propagation. This finding suggested to great potential for upscaling the production of MD2 pineapple using liquid culture in the bioreactor system.