DEGRADASI DINDING SEL Phytophthora capsici OLEH ENZIM KARBOSI METIL SELULASE ASAL Trichoderma harzianum

Jurnal Penelitian Tanaman Industri Pub Date : 2020-07-15 DOI:10.21082/LITTRI.V9N2.2003.74-78

Karden Mulya, Melly Harmen

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Penelitian terdiri atas tiga aktivitas yaitu (a) deteksi produksi enzim CMC-ase, (b) hidrolisis dinding sel P. capsici. dan (c) penggunaan siapan kasar dinding sel (SKDS) P. capsici oleh T. harzianum sebagai satu-satunya sumber karbon dalam media tumbuhnya Aktivitas enzim dideleksi secara kualitatif dengan membandingkan zona bening yang terbentuk pada medium karboksi metil selulosa (CMC) yang diperlakukan dengan satu tetcs iltrat kultur 7 harzianum dan diwarnai dengan larulan congo red, sedangkan aktivitas CMC-ase secara kuantitatif diukur sebagai nilai setara glukosa yang terlepas dari substrat setelah diinkubasi dengan ekstrak kasar CMC-ase. Enzim CMC-ase dickstrak dari kultur filtrat T. harzianum F.51 melalui pengendapan protein dengan 85% ammonium sulfat pada suhu 4°C diikuti dengan sentrifusi dan dialisis. Aktivitas spcsifik enzim tersebut dalam mendegradasi CMC (30,29 unif//g protein) lebih rendah dari aktivitas enzim selulase komersial (97.18 unit/^g protein). Enzim selulase komcrsial dan ekstrak enzim dari kultur 7 harzianum juga dapat menghidrolisis SKDS P. capsici N2 dengan aktivitas masing-masing 31.18 unit dan 19.26 unit. Isolat F-51 tumbuh dan menghasilkan aktivitas enzim serupa manakala karboksimclil selulosa pada media tumbuh diganti dengan SKDS sebagai sumber karbon tunggal Hasil ini menunjukkan bahwa CMC-ase berperan penting dalam mckanisme antagonis T. harzianum terhadap /' capsici. Penelitian lebih lanjut dalam mckanisme produksi enzim ini berpeluang untuk meningkatkan potensi agen hayati.Kata kunci : Piper nigrum L., Trichoderma harzianum Rifai, Phytophthora capsici. karbosimctilsclulasc, agen hayati ABSTRACTDegradation of cell wall of Phytophthora capsici N2 by carboxy methyl cellulose <;/ Trichoderma harzianum ES1Phytophthora capsici l-eonian is a causal agent of foot rot disease on black pepper (Piper nigrum L ). Trichoderma harzianum Rifai is an effective biocontrol agent and causes lyscs on P. capsici mycelium This experiment was aimed to study the role of carboxymethylccllulose (CMC- ase) produced by T. harzianum in degrading P. capsici cell wall. The experiment was composed in three activities (a) detection of the CMC-ase enzyme production, (b) degradation of P. capsici cell wall by crude extract of the enzyme, and (c) utilization of crude cell wall preparation (cwp) of P. capsici by T. harzianum as single carbon source in its growth medium CMC-ase activity was detected qualitatively on carboxymethylccllulose (CMC) medium, and quantitatively it was measured as glucose equivalent released from substrate after treated with crude extract of CMC-ase. CMC-ase was extracted from culture iltrate of T. harzianum F-51 by precipitation of protein with 85% ammonium sulphate at 4°C followed by dialysis with distilled water and liophyllizcd. 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Those results indicated that CMC-ase has important role on parasitism of T. harzianum on P. capsici Further investigation is required to elucidate mechanism of production of CMC-ase in T. harzianum for improvement of biocontrol activity of the fungus.Key words: Piper nigrum L., Trichoderma harzianum Rifai, Phytophthora capsici, carboxymethylcellulosc, biocontrol","PeriodicalId":17774,"journal":{"name":"Jurnal Penelitian Tanaman Industri","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-07-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Jurnal Penelitian Tanaman Industri","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21082/LITTRI.V9N2.2003.74-78","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

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Abstract

Phytophthora capsici Leonian adalah patogen penyebab penyakit busuk pangkal batang lada (Piper nigrum L). Trichoderma harzianum Rifai merupakan agen hayati yang cfektif dan menyebabkan lisis miselia P. capsici. Penelitian ini bertujuan unluk mcngc(ahui peran enzim karboksimetilselulase (CMC-ase) yang diproduksi oleh T. harzianum dalam mendegradasi dinding sel P capsici. Penelitian terdiri atas tiga aktivitas yaitu (a) deteksi produksi enzim CMC-ase, (b) hidrolisis dinding sel P. capsici. dan (c) penggunaan siapan kasar dinding sel (SKDS) P. capsici oleh T. harzianum sebagai satu-satunya sumber karbon dalam media tumbuhnya Aktivitas enzim dideleksi secara kualitatif dengan membandingkan zona bening yang terbentuk pada medium karboksi metil selulosa (CMC) yang diperlakukan dengan satu tetcs iltrat kultur 7 harzianum dan diwarnai dengan larulan congo red, sedangkan aktivitas CMC-ase secara kuantitatif diukur sebagai nilai setara glukosa yang terlepas dari substrat setelah diinkubasi dengan ekstrak kasar CMC-ase. Enzim CMC-ase dickstrak dari kultur filtrat T. harzianum F.51 melalui pengendapan protein dengan 85% ammonium sulfat pada suhu 4°C diikuti dengan sentrifusi dan dialisis. Aktivitas spcsifik enzim tersebut dalam mendegradasi CMC (30,29 unif//g protein) lebih rendah dari aktivitas enzim selulase komersial (97.18 unit/^g protein). Enzim selulase komcrsial dan ekstrak enzim dari kultur 7 harzianum juga dapat menghidrolisis SKDS P. capsici N2 dengan aktivitas masing-masing 31.18 unit dan 19.26 unit. Isolat F-51 tumbuh dan menghasilkan aktivitas enzim serupa manakala karboksimclil selulosa pada media tumbuh diganti dengan SKDS sebagai sumber karbon tunggal Hasil ini menunjukkan bahwa CMC-ase berperan penting dalam mckanisme antagonis T. harzianum terhadap /' capsici. Penelitian lebih lanjut dalam mckanisme produksi enzim ini berpeluang untuk meningkatkan potensi agen hayati.Kata kunci : Piper nigrum L., Trichoderma harzianum Rifai, Phytophthora capsici. karbosimctilsclulasc, agen hayati ABSTRACTDegradation of cell wall of Phytophthora capsici N2 by carboxy methyl cellulose <;/ Trichoderma harzianum ES1Phytophthora capsici l-eonian is a causal agent of foot rot disease on black pepper (Piper nigrum L ). Trichoderma harzianum Rifai is an effective biocontrol agent and causes lyscs on P. capsici mycelium This experiment was aimed to study the role of carboxymethylccllulose (CMC- ase) produced by T. harzianum in degrading P. capsici cell wall. The experiment was composed in three activities (a) detection of the CMC-ase enzyme production, (b) degradation of P. capsici cell wall by crude extract of the enzyme, and (c) utilization of crude cell wall preparation (cwp) of P. capsici by T. harzianum as single carbon source in its growth medium CMC-ase activity was detected qualitatively on carboxymethylccllulose (CMC) medium, and quantitatively it was measured as glucose equivalent released from substrate after treated with crude extract of CMC-ase. CMC-ase was extracted from culture iltrate of T. harzianum F-51 by precipitation of protein with 85% ammonium sulphate at 4°C followed by dialysis with distilled water and liophyllizcd. Activity of the extracted enzyme on degradation of CMC (30.29 unil-'/jg protein) was lower than activity of commercial cellulose (97.18 united g protein) Commercial cclullosc and the extracted enzyme also degraded crude cell wall prepared (CWP) from P. capsici N2 as indicated with the presence of glucose equivalent released from CWP after incubation with the enzyme; with specific activity of 31.18 unit and 19.26 unit respectively. Trichoderma harzianum grown in medium suplemented with the crude cell wall of P. capsici as a single carbon source produced CMC-ase. Those results indicated that CMC-ase has important role on parasitism of T. harzianum on P. capsici Further investigation is required to elucidate mechanism of production of CMC-ase in T. harzianum for improvement of biocontrol activity of the fungus.Key words: Piper nigrum L., Trichoderma harzianum Rifai, Phytophthora capsici, carboxymethylcellulosc, biocontrol

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促菌甲基甲基酶的病变细胞壁退化

Leonian Phytophthora capsici是一种引起胡椒根部腐烂疾病的病原体。该研究的目标是unluk mcngc(ahui，羧酸酶(cmc3酶)在capsici细胞壁的降解过程中产生的作用。该研究包括三种活动(a)检测cmc酶的产生，(b) P. capsici细胞壁水力学。粗和(c)准备使用细胞壁(SKDS)由T . P . capsici harzianum作为唯一碳源生长介质中酶的活动dideleksi定性地比较透明的区域,在介质上形成karboksi甲基纤维素(CMC)对待一个tetcs iltrat 7 harzianum文化和larulan刚果染红,而cmc酶的活性在被未经加工的cmc酶提取物分解后，可以量化为葡萄糖从基质中释放出来的价值。CMC-ase酶从51滤液T harzianum F。文化dickstrak 85%通过蛋白质沉积酒楼硫酸盐在4°C的温度下伴随着sentrifusi和透析。这种二氧化酶的二氧化酶在分解CMC (3029 unif//g蛋白质)方面的二氧化酶活动比商业纤维化酶活动低(97.18单元/蛋白质)。7种harzianum培养的纤维化酶和酶提取物也可以在33.18个单位和19.26个单位的活动中稀释SKDS P. capsici N2。F-51分离物生长并产生一种类似的酶，当介质中的碳纤维素被SKDS取代为单一的碳来源时，这种结果表明cmcc -酶在harzianum T。进一步研究这种酶的产生，将有可能增强生物制剂的潜力。关键词:Piper nigrum, harzianma harzianum Rifai, Phytophthora capsici。碳水化合物mctilsclulasc，生物制剂这个实验是由T. capceci myceum制作的汽车包装卷实验是composed》三个活动(a) detection of The CMC-ase enzyme制作,(b) degradation of P .长城capsici细胞由粗extract of The enzyme,和(c) utilization of粗细胞长城准备(cwp) of capsici by T P。美国harzianum单身碳源代码》它的增长CMC-ase媒介活动是detected qualitatively on carboxymethylccllulose中等(CMC),量化它的方法是，在用椰核extract of cmc酶进行消毒后，从皮下释放出葡萄糖。CMC-ase是extracted从文化之iltrate T . harzianum F-51由蛋白质和85%的precipitation酒楼sulphate at 4°C跟着由透析distilled water和liophyllizcd。活动《extracted enzyme on degradation of CMC(30。29 unil -“蛋白质也下比商业cellulose活动》(97)是第18联队g蛋白质)《商业cclullosc与extracted enzyme也degraded粗细胞长城准备(CWP)从P和glucose之先声。美国capsici N2 indicated哪里就被释放了,之后从CWP incubation with the enzyme;特别行动31.18单元和19.26单元。甘油三酯生长在一种配以P. capsici为单碳生产CMC-ase的缠氧体中。这些残留的痕迹对P. capsici额外调查的目的至关重要，目的是揭示在harzianum T. harzianum中孕育生物控制活动的生产机制。密码

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