Profil Anatomi Daun Planlet Pisang Kepok Hasil Induksi Mutagen Alami Secara In Vitro

Buletin Anatomi dan Fisiologi Pub Date : 2022-11-08 DOI:10.14710/baf.7.2.2022.120-125

E. Ernawiati, Lili Chrisnawati

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Abstract

Pisang Kepok memiliki keragaman aksesi/kultivar yang tinggi, namun pengembangan kultivar belum banyak dikaji. Penelitian ini bertujuan mengidentifikasikan struktur anatomi daun sebagai karakter penanda pisang Kepok poliploid dengan pemberian ekstrak umbi kembang sungsang sebagai mutagen alami untuk pengembangan kultivar unggul melalui perakitan secara in vitro. Penelitian disusun dalam Rancangan Acak Lengkap dengan dua faktor. Faktor 1 terdiri dari ekstrak air umbi kembang sungsang (10%), larutan kolkisin murni (0,1%) sebagai kontrol positif dan tanpa diberi penambahan (0%) sebagai kontrol negatif. Faktor 2 terdiri dari Kepok Abu, Kepok Batu dan Kepok Kuning. Semua kombinasi perlakuan diulang 5 kali. Data dianalisis ANAVA dan jika ada perbedaan dilanjutkan dengan uji DMRT pada taraf 5%. Hasil pengamatan menunjukkan pemberian kolkisin pada media kultur dapat menginduksi munculnya planlet pisang poliploid jika dilihat dari penambahan ukuran sel epidermis dan stomata serta menurunkan indeks stomata. Namun, ekstrak umbi kembang sungsang 10% belum mampu menginduksi munculnya planlet poliploid. Pisang Kepok kuning memiliki respon lebih baik terhadap pemberian mutagen dibandingkan Kepok abu dan batu. Dari hasil tersebut dapat disimpulkan bahwa kolkisin 0,1% mampu menginduksi planlet pisang Kepok poliploid. Pisang Kepok has a high diversity of accessions/cultivars, but cultivar development has not been widely studied. This study aims to identify the anatomical structure of the leaves as markers of polyploid Kepok bananas with the addition of flame lily tuber extract as a natural mutagen for the development of superior cultivars through in vitro assembly. The study was arranged in a completely randomized design with two factors. Factor 1 consisted of water extract of flame lily bulbs (10%), pure colchicine solution (0.1%) as a positive control and no addition (0%) as a negative control. Factor 2 consists of Kepok Abu, Kepok Batu and Kepok Kuning. All treatment combinations were repeated 5 times. The data were analyzed by ANAVA and if there was a difference, it was continued with the DMRT test at the 5% level. The results showed that the addition of colchicine to the culture media could induce the emergence of polyploid banana plantlets when observed from the increase in the size of the epidermal and stomata cells and decrease the stomatal index. However, 10% flame lily tuber extract was not able to induce the emergence of polyploid plantlets. Kepok Kuning bananas had a better response to mutagens than Kepok Abu and Kepok Batu bananas. From these results it can be concluded that 0.1% colchicine was able to induce polyploid Kepok banana plantlets.

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Planlet芭蕉的解剖剖面从体外诱发天然诱变剂

芭蕉有高种类的/kultivar，但kultivar的发展很少受到研究。该研究旨在确定叶的解剖结构为聚酯香蕉标记特征，将刺山柑提取物作为一种天然诱变剂，通过体外进行聚糖，促进高强度的文化发展。这项研究是在一个完整的随机设计中进行的，有两个因素。第一个因素包括山葵根部提取物(10%)，纯kolkisin溶液(0.1%)为正控制，不作为负控制增加(0%)。第二种因素包括灰粉末状、石头粉状和黄色粉状。所有的治疗组合重复5次。分析数据后，如果存在差异，将继续进行5%的d捷尔测试。观察结果表明，kolkisin对文化媒体的引入可以诱导一种多角香蕉planlet的出现，从表皮细胞和气孔的增加和减少气孔指数。然而，10%的植株提取物不能诱导植物聚合体的产生。黄色香蕉对诱变剂的反应比灰烬和石头更强烈。从这些结果可以推断出0.1%的kolkisin可以诱导一种带有聚酯泡沫的香蕉植物。大麻的种类繁多，但文化发展尚未成熟。这项研究将这些树叶中的解剖结构与莉莉·塔伯的火焰配以一种自然的变异来适应体外培养的优越文化。这项研究是用两个因素完全分层设计的。第一个因素是考虑到水火驱魔百合(10%)，纯colchicention solution(0.1%)为积极控制而不是消极控制。粉状粉状、粉状岩石和黄色斑点的2个因素。所有的治疗食品都重复了5次。数据是由ANAVA分析的，如果有什么不同的话，它还在进行5%的DMRT测试。结果表明，当观察表皮、耳钉和耳钉索引的增加时，多元植物植物的沉淀可能会导致高强度的香蕉植物的存在。霍弗，10%的百合土伯出口不能允许允许多元园艺飞机出现。白鼬和白鼬对蘑菇的反应比白鼬和白鼬好多了。从这些结果中，可以得出0.1%的colchicine可能会被诱导形成香蕉植物群。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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