产木质素过氧化物酶的薰衣草链霉菌R-St-1突变体和融合子的分子特征

IF 0.7 Q4 PHARMACOLOGY & PHARMACY Egyptian Pharmaceutical Journal Pub Date : 2023-01-01 DOI:10.4103/epj.epj_141_22
Reem Batayyib, N. Al-Twaty, O. El-Hamshary
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It has been deposited in NCBI under the accession number ‘OL697233.1.’ S. lavendulae was used in the present study to produce novel, higher LiP-producing mutants using EMS-mutagenesis and UV light. Most mutant strains that produce LiP fuse their protoplasts. To assess the genetic diversity of isolated S. lavendulae R-St-1 with its mutants and fusants, RAPD-PCR was used. Materials and methods Lignin was extracted and purified from black wood liquor. UV and EMS were used for creating super LiP-producing mutants of S. lavendulae R-St. Protoplast fusion between EMS and UV-treated mutants was performed for isolating LiP-productive fusants (s) from S. lavendulae R-St-1 as the original isolate. Fermentation medium (FM) (g/l) was used for lignin-degrading bacterial screening after dilution of the soil samples: K2HPO4, 4.55, KH2PO4, 0.53, MgSO4,0.5, NH4NO3, 0.1, yeast extract, 0.1, lignin (0.1% v/v), agar 15, and the pH should be 7.0. The aforementioned FM medium was supplemented with 50 mg/l of azure B and toluidine dyes and 100 mg/l of tannic acid. FM was used without any supplements and agar for the isolation of lignin-degrading bacteria using lignin (0.1% v/v). The molecular analysis of mutants by RAPD-PCR was applied using different primers, and different separate bands were determined. Results and discussion S. lavendulae R-St-1 strain was mutagenized with alkylating EMS (200 mm) and UV. Results showed that from the S. lavendulae R-St-1 (W.T) isolate, two EMS-treated mutants (Rst/60/7E and Rst/40/8E), which showed activities of 8.5 and 7.3 U/ml, respectively, and two UV-treated mutants (Rst/9/2U and Rst/9/6U), which showed activities of 9.4 and 7.8 U/ml, respectively, were the most efficient ligninolytic mutants. Protoplast fusion between two higher LiP-producing mutants (cross 1 and 2) proved to be the most effective, and the two isolated fusants C1/St/5 and C1/St/6 showed activity of 12.8 and 11.8 U/ml, respectively, after protoplast fusion between Rst/9/6U and Rst/60/7E mutants of S. lavendulae R-St-1 (W.T). To determine molecular variability of two EMS mutants, and their recombinant fusants as well as S. lavendulae (W.T) (parental), three random primers were used. RAPD primer (P1) was employed. Fusant C1/St/5 shared the parental isolate with the bands 850 and 300 bp, whereas fusant C1/St/6 had five new unique bands (1470, 750, 650, 520, and 250 bp). The DNA loci of the obtained banding profiles using P1, P2, and P3 primers were 12, 17, and three loci after RAPD assay. 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引用次数: 0

摘要

背景分离菌株分泌的细胞外木质素过氧化物酶(LiP)是几种放线链霉菌降解木质素的关键酶。使用紫外线(UV)和甲磺酸乙酯(EMS)诱导细菌菌株的随机突变。此外,原生质体融合是菌株改良、实现遗传重组和培育杂交菌株的重要工具。用随机扩增多态性DNA(RAPD-PCR)对突变体和融合子进行了分子分析。目的作者在前人的研究中发现并研究了产LiP最高的薰衣草链霉菌R-St菌株。它已以登录号“OL697233.1”保藏在NCBI中。在本研究中,使用EMS诱变和紫外线,使用S.lavendulae产生新的、更高的LiP产生突变体。大多数产生LiP的突变菌株融合原生质体。采用RAPD-PCR方法对分离的薰衣草S.lavendulae R-St-1及其突变体和融合子的遗传多样性进行了评估。材料与方法从黑液中提取纯化木质素。利用紫外光谱和EMS技术,建立了产超锂磷的薰衣草R.St.突变体。在EMS和UV处理的突变体之间进行原生质体融合,以从作为原始分离物的s.lavendulae R-St-1中分离产生LiP的融合子。发酵培养基(FM)(g/l)用于土壤样品稀释后的木质素降解细菌筛选:K2HPO4,4.55,KH2PO4,0.53,MgSO4,0.5,NH4NO3,0.1,酵母提取物,0.1,木质素(0.1%v/v),琼脂15,pH应为7.0。上述FM培养基补充了50 mg/l的天青B和甲苯胺染料和100 mg/l的单宁酸。FM在没有任何补充剂和琼脂的情况下用于使用木质素(0.1%v/v)分离木质素降解菌。用不同的引物对突变体进行RAPD-PCR分子分析,并确定了不同的分离条带。结果与讨论用烷基化EMS(200 mm)和UV。结果表明,从S.lavendulae R-St-1(W.T)分离物中分离得到两个EMS处理的突变体(Rst/60/7E和Rst/40/8E),其活性分别为8.5和7.3 U/ml,和两个紫外线处理的突变体(Rst/9/2U和Rst/9/6U),其活性分别为9.4和7.8 U/ml是最有效的木质素分解突变体。两个LiP产量较高的突变体(杂交1和2)之间的原生质体融合被证明是最有效的,两个分离的融合子C1/St/5和C1/St/6显示出12.8和11.8的活性 用三个随机引物测定了两个EMS突变体及其重组融合子和S.lavendulae(W.T)(亲本)的分子变异性。采用RAPD引物(P1)。融合子C1/St/5与850和300bp的条带共享亲本分离物,而融合子C1/St/6具有5个新的独特条带(1470、750、650、520和250bp)。使用P1、P2和P3引物获得的条带图谱的DNA位点在RAPD分析后分别为12、17和3个位点。使用引物P1和P2总共获得了14个独特的基因座。
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Molecular characterization of the superior lignin peroxidase-producing Streptomyces lavendulae R-St-1 mutants and fusants
Background The extracellular lignin peroxidase (LiP) secreted by bacterial isolates is the key enzyme in lignin degradation in several species of Streptomyces (actinomycetes). Random mutations were induced for bacterial strains using ultraviolet (UV) and ethyl methanesulfonate (EMS). Moreover, protoplast fusion is an important tool in strain improvement to achieve genetic recombination and developing hybrid bacterial strains. The molecular analysis of mutants and fusants by random amplification of polymorphic DNA (RAPD-PCR) was done. Objective Streptomyces lavendulae R-St strain, which produces the highest LiP, was discovered and investigated in a previous study by the authors. It has been deposited in NCBI under the accession number ‘OL697233.1.’ S. lavendulae was used in the present study to produce novel, higher LiP-producing mutants using EMS-mutagenesis and UV light. Most mutant strains that produce LiP fuse their protoplasts. To assess the genetic diversity of isolated S. lavendulae R-St-1 with its mutants and fusants, RAPD-PCR was used. Materials and methods Lignin was extracted and purified from black wood liquor. UV and EMS were used for creating super LiP-producing mutants of S. lavendulae R-St. Protoplast fusion between EMS and UV-treated mutants was performed for isolating LiP-productive fusants (s) from S. lavendulae R-St-1 as the original isolate. Fermentation medium (FM) (g/l) was used for lignin-degrading bacterial screening after dilution of the soil samples: K2HPO4, 4.55, KH2PO4, 0.53, MgSO4,0.5, NH4NO3, 0.1, yeast extract, 0.1, lignin (0.1% v/v), agar 15, and the pH should be 7.0. The aforementioned FM medium was supplemented with 50 mg/l of azure B and toluidine dyes and 100 mg/l of tannic acid. FM was used without any supplements and agar for the isolation of lignin-degrading bacteria using lignin (0.1% v/v). The molecular analysis of mutants by RAPD-PCR was applied using different primers, and different separate bands were determined. Results and discussion S. lavendulae R-St-1 strain was mutagenized with alkylating EMS (200 mm) and UV. Results showed that from the S. lavendulae R-St-1 (W.T) isolate, two EMS-treated mutants (Rst/60/7E and Rst/40/8E), which showed activities of 8.5 and 7.3 U/ml, respectively, and two UV-treated mutants (Rst/9/2U and Rst/9/6U), which showed activities of 9.4 and 7.8 U/ml, respectively, were the most efficient ligninolytic mutants. Protoplast fusion between two higher LiP-producing mutants (cross 1 and 2) proved to be the most effective, and the two isolated fusants C1/St/5 and C1/St/6 showed activity of 12.8 and 11.8 U/ml, respectively, after protoplast fusion between Rst/9/6U and Rst/60/7E mutants of S. lavendulae R-St-1 (W.T). To determine molecular variability of two EMS mutants, and their recombinant fusants as well as S. lavendulae (W.T) (parental), three random primers were used. RAPD primer (P1) was employed. Fusant C1/St/5 shared the parental isolate with the bands 850 and 300 bp, whereas fusant C1/St/6 had five new unique bands (1470, 750, 650, 520, and 250 bp). The DNA loci of the obtained banding profiles using P1, P2, and P3 primers were 12, 17, and three loci after RAPD assay. A total of 14 unique loci were obtained using the primers P1 and P2.
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Egyptian Pharmaceutical Journal
Egyptian Pharmaceutical Journal PHARMACOLOGY & PHARMACY-
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1.10
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37
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