Effect of Induced Polyploidy on Plant Growth, Chlorophyll and Flavonoid Content of Artemisia cina

Kasmiyati, Sri; Kristiani, Elizabeth Betty Elok; Herawati, Maria Marina

doi:10.15294/biosaintifika.v12i1.22548

Cited by 14 publications

(8 citation statements)

References 26 publications

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“…Fredes et al, (2016) and Levi et al, (2014), reported that the use of tetraploid (allo and auto) watermelon rootstocks with a strong root system can provide high graft compatibility and a high survival rate, while the increased chlorophyll content and high antioxidant activities of tetraploid watermelon rootstocks can promote plant growth and stress tolerance without negatively af- leaf width, compared to diploid orchids (Chung, Kuo, & Wu, 2017). Polyploid plants showed higher leaf and root growth compared to diploid plants in Artemisia cina (Kasmiyati, Kristiani, & Herawati, 2020), Kim et al, (2004), reported that the number of adventitious roots in polyploid ginseng plants is higher than in diploid plants.…”

Section: Resultsmentioning

confidence: 99%

Rootstock potential of auto and Allotetraploid Citron [Citrullus lanatus var. citroides (L. H. Bailey) Mansf.] for Watermelon [Citrullus lanatus var lanatus (Thunb.) Matsum. & Nakai] under hydroponic conditions: plant growth and some physiological characteristics

Aydin

Yetışır

Başak

et al. 2022

International Journal of Agriculture Environment and Food Sciences

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The emergence of some physiological and fruit quality problems due to the common squash rootstocks used in watermelon has led researchers to search for alternative rootstocks sources. Exploitation of novel Citrullus germplasm such as citronmelon (Citrullus lanatus var. citroides) is an alternative to avoid these problems. In this study, rootstocks potential of auto and allotetraploid citrullus genotypes for watermelon were investigated as regard to plant growth and some physiological parameters under hyroponic conditions. Plant length was significantly affected by rootstock genotype and the longest plant stem was measured in watermelon plants grafted on N7-4T tetraploid rootstock (62.67 cm) while the shortest stem was measured in grafted plants onto autotetraploid Calhounn Gray with 14.33 cm. Among the graft combinations, N7-4T/CT (93.33 g) and CN7-5T/CT 95.00 g) graft combination produced the highest shoot fresh and dry weight. As in shoot fresh weight, the exploitationted on to tetraploid rootstock produced higher root fresh and dry weight than the plants grafted on diploid rootstocks and commercial rootstock. The highest root fresh and dry weight were determined in the plants grafted on to autotetraploid N5-4T and allotetraploid CN7-5T. Root characteristics were significantly affected by rootstock genotypes. The N, P, K and Ca contents of the leaves of the CT watermelon cultivar grafted on different rootstocks were significantly affected by the rootstocks. This study showed that citrullus tetraploid genotypes (auto and allo) to be produced by polyploidy method can be an important alternative rootstock source for watermelon.

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Section: Resultsmentioning

confidence: 99%

Rootstock potential of auto and Allotetraploid Citron [Citrullus lanatus var. citroides (L. H. Bailey) Mansf.] for Watermelon [Citrullus lanatus var lanatus (Thunb.) Matsum. & Nakai] under hydroponic conditions: plant growth and some physiological characteristics

Aydin

Yetışır

Başak

et al. 2022

International Journal of Agriculture Environment and Food Sciences

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“…This increase in resistance was probably due to the increase of pod's flavonoid content, which produced the purple color of the pods. Kasmiyati et al (2020) reported induced polyploidy using colchicine be able to increase flavonoid content. Furthermore, flavonoid affect the behavior of aphid especially it could decrease sap ingestion activity (Goławska et al, 2014;Stec et al, 2021).…”

Section: Incidence Of Cowpea Aphid (Aphis Craccivora) On Cowpea Podsmentioning

confidence: 99%

Performance Evaluation of Induced Mutagenesis using Colchicine and EMS Solution on Cowpea M3 Purple and Mung Bean Vima1 to Increase Resistance

Susrama

Trigunasih²,

Suada³

et al. 2022

Caraka Tani J. Sustain. Agric.

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Induced mutagenesis is one way to improve the quality of crops, especially to increase the resistance to pests and diseases. This research aimed to determine colchicine and ethyl methane sulfonate (EMS) mutagenesis on cowpea M3 purple and mung bean Vima1, in concatenation for developing resistant crops. This research consists of four packages: (1) first package (cowpea M3 purple seeds treated with colchicine solution, (2) second package (cowpea M3 purple seeds treated with EMS solution), (3) third package (mung bean Vima1 seeds treated with colchicine solution) and (4) fourth package (mung bean Vima1 seeds treated with EMS solution). The results of this research revealed that induced mutagenesis by colchicine solution treatment reduced the incidence of bean leaf beetles up to 19% on cowpea M3 purple, as well leaf miners by 5% to 9% and bean leaf beetles up to 5% on mung bean Vima1. Treatment of EMS solution decreased the incidence of bean leaf beetles by 17% on cowpea M3 purple and pink mealybug by 5% to 15% on mung bean Vima1. Induced mutagenesis using EMS solution significantly decreased vegetable leaf miner incidence by 33% to 93% or 71% on average. Colchicine and EMS solution treatment caused aphid attacks in cowpea M3 purple, particularly in pods. The attacks did not happen on leaves and aphid incidence in pods was slower than in control. Some promising mutant candidates were found from this research that will be used in further crop development studies. It is expected that the method and results of this research could inspire faster development of resistant crops.

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“…Improvements in secondary biometabolites productions could be due to morphological, physiological as well as genetic manifestations engendered upon by induced autoploids. Some of such illustrative causes of autoploidy-mediated secondary metabolite augmentation are increase in stomatal sizes and densities leading to increased photosynthates output [ 67 ], heterosis and gene redundancy imparting transgressive meliorism [ 56 , 66 , 68 ]. Shmeit et al [ 62 ] reckoned that improvised primary metabolism could be the presumptive cause of ameliorated secondary metabolism.…”

Section: Main Textmentioning

confidence: 99%

“… Seed Colchicine; 0.2%; 24 h Diploid➔tetraploid (2n=4x=44) Increase in rebaudioside-A content (2.84%) [ 67 ] Artemisia cina Soaked in colchicine soln. Shoot Colchicine; 100 mg/l Diploid➔ tetraploid (2n=4x=36) Increase in quercetin content (1.34-fold); kaempferol content (1.47-fold) [ 68 ] Artemisia cina NM NM Colchicine; NM; NM Diploid➔ tetraploid (2n=4x=36) Increase in artemisinin content (NM) [ 69 ] Solanum tuberosum In vitro colchicine treatment ( Solanum tuberosum × Solanum kurtzianum ) Colchicine; NM; NM Diploid➔tetraploid (2n=4x=48) (Allotetraploid) Increase in sesquiterpenes (22-fold) [ 70 ] Oryzalin treatment Diploid line ( Solanum kurtzianum ) Oryzalin; NM; NM Diploid➔tetraploid (2n=4x=48) (Autotetraploid) Increase in sesquiterpenes (6-fold) 2 - IP 2-isopentenyl adenine; B5 Gamborg’s B5 media [ 71 ]; BA N 6 -benzyladenine; d days, DMSO dimethyl sulfoxide; LI light intensity; M1 media [woody basal salt mixture (2.3 g/l) + Murashige and Skoog modified vitamins (1000x) (1 ml/l) + Sucrose (25 g/l) + 2IP (3 μM) + Agar (7 g/l)]; m months; min minutes; MS Murashige and Skoog [ 72 ]; MSL MS Liquid Media; NAA α-naphthalene acetic acid; NM not mentioned; PP photoperiod; rpm rotation per minute; r . t .…”

Section: Introductionmentioning

confidence: 99%

Induced autopolyploidy—a promising approach for enhanced biosynthesis of plant secondary metabolites: an insight

Gantait

Mukherjee

2021

Journal of Genetic Engineering and Biotechnology

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Background Induced polyploidy serves as an efficient approach in extricating genetic potential of cells. During polyploidization, multiple sets of chromosomes are derived from the same organism resulting in the development of an autopolyploid. Alterations owing to artificially induced polyploidy level significantly influence internal homeostatic condition of resultant cells. Main text Induced autopolyploidy transpires as a result of an increase in the size of genome without any change in elementary genetic material. Such autopolyploidy, artificially induced via application of antimitotic agents, brings about a lot of beneficial changes in plants, coupled with very few detrimental effects. Induced autopolyploids exhibit superior adaptability, endurance to biotic and abiotic stresses, longer reproductive period and enzyme diversity coupled with enhanced rate of photosynthesis and gene action in comparison to their diploid counterparts. However, reduced rate of transpiration and growth, delay in flowering are some of the demerits of autopolyploids. Inspite of these slight unfavourable outcomes, induced autopolyploidization has been utilized in an array of instances wherein genetic improvement of plant species is concerned, since this technique usually boosts the biomass of concerned economic parts of a plant. In other way, it is also evident that multiplication of genome bestows enhanced production of secondary metabolites, which has contributed to a significant commercial value addition especially for plants with medicinal importance, in particular. Conclusion This review makes an attempt to explore the system and success of antimitotic agents vis-à-vis artificial autopolyploidization, interfered with the biosynthesis-cum-production of secondary metabolites having cutting-edge pharmaceutical importance.

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Effect of Induced Polyploidy on Plant Growth, Chlorophyll and Flavonoid Content of Artemisia cina

Cited by 14 publications

References 26 publications

Rootstock potential of auto and Allotetraploid Citron [Citrullus lanatus var. citroides (L. H. Bailey) Mansf.] for Watermelon [Citrullus lanatus var lanatus (Thunb.) Matsum. & Nakai] under hydroponic conditions: plant growth and some physiological characteristics

Rootstock potential of auto and Allotetraploid Citron [Citrullus lanatus var. citroides (L. H. Bailey) Mansf.] for Watermelon [Citrullus lanatus var lanatus (Thunb.) Matsum. & Nakai] under hydroponic conditions: plant growth and some physiological characteristics

Performance Evaluation of Induced Mutagenesis using Colchicine and EMS Solution on Cowpea M3 Purple and Mung Bean Vima1 to Increase Resistance

Induced autopolyploidy—a promising approach for enhanced biosynthesis of plant secondary metabolites: an insight

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