Luong Thien Nghia scite author profile

Luong Thien Nghia

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THE EFFECTS OF SILVER NANOPARTICLES ON GROWTH OF Chrysanthemum morifolium Ramat. cv. "JIMBA" IN DIFFERENT CULTURAL SYSTEMS

Nghia¹,

Tùng²,

Huy³

et al. 2017

JST

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Silver nanoparticles (SNPs) are one of metallic nanoparticles widely applied in many fields. Research of SNPs application in plant tissue culture has been gaining attention in recent years. Moreover, novel plant tissue culture systems have been researched and developed for improving SNPs uptake capability in medium. In this study, we investigated effects of SNPs on Chrysanthemum morifolium ramat. cv. "JIMBA" growth and its ability in 3 culture systems: in vitro solid medium system, in vitro liquid medium system and microponic (combined of micropropagation and hydroponic). The 3 cm Chrysanthemum shoots and silver nanoparticles of diameter smaller than 20 nm were used in the experiments. After 4 weeks, the results showed that the SNPs concentration was suitable for growth of Chrysanthemum in vitro solid medium system, in vitro liquid medium system and microponic was 1.5, 1.5 and 5 ppm, respectively. Microponic system not only improved plant growth but also reduced the succulent phenomenon. SNP uptake was likely dependent on concentrations and culture systems. At low concentrations (1, 5, and 10 ppm), SNPs were completely absorbed after 4 weeks of culture in all systems, but not at high concentrations (20 ppm). The amount of absorbed silver nanoparticles was directly proportional to the culture period and inversely proportional to the concentration of SNPs supplemented to the medium. In all of our investigated systems, the hydroponic system showed the highest capability of SNPs absorption.

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Nano Bạc Trong Khử Trùng Môi Trường Nuôi Cấy in Vitro Cây Hoa Cúc (Chrysanthemum Morifolium Ramat Cv. Jimba)

Nhựt¹,

Tùng²,

Nghia³

et al. 2018

Vietnam J. Biotechnol.

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Phương pháp nhân giống in vitro được chứng minh là phương pháp hữu hiệu để nhân giống cây trồng với số lượng lớn trong thời gian ngắn và trở thành một công cụ hữu hiệu cho công tác chọn, tạo giống cây trồng. Tuy nhiên, phương pháp này vẫn còn những tồn tại mà nổi bật lên là vấn đề nhiễm vi sinh vật trong quá trình nuôi cấy, chúng làm giảm chất lượng, tăng khả năng mất nguồn giống. Khử trùng môi trường nuôi cấy là vấn đề bắt buộc đối với quá trình vi nhân giống, đây là giai đoạn tiêu tốn nhiều điện năng và trải qua nhiều công đoạn. Bên cạnh đó, việc hấp khử trùng môi trường trong một thời gian làm giảm hoạt tính của các chất điều hòa sinh trưởng thực vật cũng như thành phần dinh dưỡng của môi trường. Nghiên cứu này hướng đến việc ứng dụng nano bạc như một biện pháp thay thế cho phương pháp khử trùng môi trường truyền thống. Trong nghiên cứu này, chúng tôi bổ sung các nồng độ khác nhau của nano bạc (0 - 5 ppm), đường (0 - 30 g/l) và than hoạt tính (0 - 1g/l) vào môi trường nuôi cấy in vitro cây hoa cúc và không hấp khử trùng môi trường nhằm đánh giá khả năng tiệt trùng môi trường cũng như cảm ứng sự sinh trưởng và phát triển của cây. Kết quả ghi nhận được cho thấy, bổ sung 4 ppm nano bạc, không bổ sung than hoạt tính và nồng độ đường từ 0 - 20 g/l vào môi trường nuôi cấy không cấy mẫu cho hiệu quả khử trùng 100% sau 4 tuần. Cây cúc cho sự sinh trưởng và phát triển tốt trong môi trường bổ sung 4 ppm nano bạc, 20 g/l đường, 5 g/l agar và không hấp khử trùng.

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Iron nanoparticles on growth and acclimatization of Chrysanthemum morifolium Ramat. cv. "Jimba" in different culture systems

Tùng¹,

Phong²,

Nguyen³

et al. 2020

Vietnam J. Biotechnol.

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In plant tissue culture, iron nanoparticles (FeNPs) was one of the first types of nano to be used in plants. Previous reports have identified the effect of FeNPs on many different plant species. In this study, FeNPs was used to replace Fe-EDTA in MS (Murashige, Skoog, 1962) medium to assess their effects on growth, chlorophyll (a, b and a+b) accumulation, antioxidant activity of ascorbate peroxidase (APX) and superoxide dismutase (SOD) enzymes, and acclimatization in greenhouse conditions in different culture systems (in vitro solid, in vitro hydroponic and microponic culture). The obtained results show that FeNPs added to MS medium was higher growth, chlorophyll (a, b and a+b) content, antioxidant activity of SOD and APX enzymes than Fe-EDTA in MS medium as control treatment. The effect of FeNPs are differences between culture systems. In vitro solid and microponic culture systems, the optimal concentration is 75 mM FeNPs and in vitro hydroponic culture system is 100 mM FeNPs. The optimal activity of the antioxidant enzyme SOD (35.04 U.mg−1 prot) obtained in the roots of cultured plants in microponic culture system; meanwhile, the optimal activity of the antioxidant enzyme APX (2.11 μmol.min−1.mg−1 prot) obtained in leaves cultivated in solid culture system. The plantlets derived from MS medium added FeNPs were transfered into greenhouse conditions, the microponic cultivated plants supplemented with FeNPs at a concentration of 100 mM gave the highest survival rate (94.67%). The results of this study showed that FeNPs can replace Fe-EDTA salt in MS medium, and iron deficiency in culture media will reduce chlorophyll content.

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