SKRINING MARKA MHC-I DAN MHC-II PADA IKAN LELE AFRIKA (Clarias gariepinus) SEBAGAI GEN PENYANDI RESISTEN PENYAKIT Motile Aeromonas Septicaemia (MAS)

Media Akuakultur Pub Date : 2020-12-31 DOI:10.15578/MA.15.2.2020.89-96

Rommy Suprapto, B. Iswanto, H. Marnis, J. Haryadi

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引用次数: 1

Abstract

Salah satu kendala yang dihadapi para pembudidaya ikan lele adalah serangan penyakit yang menyebabkan kematian massal sehingga mengakibatkan kerugian. Alternatif solusi yang dapat dilakukan adalah melakukan seleksi ikan lele tahan penyakit berbasis marka molekuler untuk memperoleh populasi unggul ikan lele. Seleksi dilakukan pada gen marka yang berkaitan dengan sistem imun yaitu MHC-I dan MHC-II. Tujuan penelitian ini adalah melakukan skrining marka MHC-I dan MHC-II pada ikan lele strain Mutiara, Paiton, Kenya, dan Sangkuriang yang merupakan koleksi di Balai Riset Pemuliaan Ikan (BRPI) Sukamandi. Jumlah sampel ikan pada tiap strain yang diambil untuk strain Mutiara, Paiton, Kenya, dan Sangkuriang masing-masing 14, 13, 3, dan 13 sampel. Analisis keberadaan marka MHC-I dan MHC-II dilaksanakan di Laboratorium Fisiologi dan Genetika BRPI Sukamandi. Skrining keberadaan marka MHC-I dan MHC-II dilakukan menggunakan metode PCR. Hasil menunjukkan persentase ikan yang positif membawa marka MHC-I adalah strain Mutiara 85,71%; strain Paiton 30,77%; strain Kenya 100%; dan strain Sangkuriang 92,31%; selanjutnya skrining ikan yang positif membawa marka MHC-II pada strain Mutiara menunjukkan persentase sebanyak 71,43%; strain Paiton 61,54%; strain Kenya 100%; dan pada strain Sangkuriang 0%. Dengan demikian dapat dikatakan bahwa ikan lele strain Mutiara, Paiton, dan Kenya adalah populasi yang potensial untuk menjadi kandidat dalam kegiatan seleksi ikan lele tahan penyakit berbasis marka molekuler MHC-I dan MHC-II. One of the challenges faced by catfish farmers is disease outbreaks that can cause mass mortality resulting in significant economic losses. This study aimed to provide an alternative solution to overcome this issue by selecting disease-resistant catfish via molecular markers to obtain a catfish’s superior population. The selection was carried out on marker genes related to the immune system, namely MHC-I and MHC-II. This study screened the MHC-I and MHC-II markers on catfish strains of Mutiara, Paiton, Kenyan, and Sangkuriang, which were the collections of Balai Riset Pemuliaan Ikan (BRPI) Sukamandi. The number of fish samples for Mutiara, Paiton, Kenyan, and Sangkuriang strains were 14, 13, 3, and 13 samples, respectively. Analysis of the presence of MHC-I and MHC-II markers was carried out at the Physiology and Genetics Laboratory of BRPI Sukamandi. Screening for the presence of MHC-I and MHC-II markers was carried out using the PCR method. The results showed that the percentages of positive fish carrying MHC-I marker were 85.71% for Mutiara strain, 30.77% for Paiton strain, 100% for Kenyan strain, and 92.31% for Sangkuriang strain. Furthermore, the percentages of positive screening of fish carrying MHC-II markers were 71.43% for Mutiara strains, 61.54% for Paiton strains, 100% for Kenyan strain, and 0% for Sangkuriang strain. This study’s findings suggest that the catfish strains of Mutiara, Paiton, and Kenyan are the potential populations to serve as the candidates in the selection of disease-resistant catfish based on molecular markers MHC-I and MHC-II.

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鲶鱼养殖者面临的一个障碍是一种导致大规模死亡并造成损失的疾病。另一种可行的解决方案是选择基于分子标记的鲶鱼，以获得更好的鲶鱼种群。在与免疫系统MHC-I和MHC-II相关的marka基因中进行选择。这项研究的目的是对鲶鱼品种MHC-I和MHC-II进行珍珠品种筛选，这两种菌株都是在鱼繁殖厅(BRPI) suka澡堂收集的。为珍珠、培尔顿、肯尼亚和桑库良分别采集了14、13、3和13个样本中的鱼类样本的数量。对marka MHC-I和MHC-II的存在进行了分析，分析了BRPI sukabath的生理学和遗传学实验室。使用PCR方法对marka MHC-I和MHC-II的存在进行了筛选。结果显示，携带marka MHC-I的正鱼的比例为85.71%;菌株Paiton 3077%;肯尼亚100%应变;张力桑魁良92,31%;接下来的积极的鱼皮对珍珠样品样品携带MHC-II，显示百分比为71.43%;菌株Paiton 61.54%;肯尼亚100%应变;而桑良0%的菌株。因此，可以说，珍珠鲶鱼菌株、Paiton和Kenya是潜在的候选物种，可以在MHC-I和MHC-II等基于分子marka - i和MHC-II的抗病鲶鱼中占多数。鲶鱼所面临的挑战之一已被排除在外，这可能导致大规模的大规模经济损失。这项研究提供了一种替代解决方案，通过分子标记筛选分离的鲶鱼的主要人口来解决这个问题。选择被列为免疫系统相关的奇尼标记，namely MHC-I和MHC-II。这项研究将珍珠海带、派顿、凯扬和桑库良的mhc《珍珠》、《派顿》、《肯扬》和《桑库良海峡》的鱼样编号为14,13,3和《尊重》。MHC-I和mh- ii标记的分析在BRPI喜欢沐浴实验室被仔细考虑。MHC-I和MHC-II标记被PCR method标记。结果表明，正鱼携带MHC-I标记为88.71%，Paiton应变为30.77%，肯尼亚菌株为100%，桑库良菌株为92.31%。长期的积极捕鱼活动MHC-II标记为71。43%的海带，61.54%的海带，100%的坚尼亚菌株，0%的桑库良菌株。这项研究的最终建议是，鲶鱼从珍珠、Paiton和Kenyan中普遍存在的影响，是基于分子标记MHC-I和MHC-II的潜在影响。

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