甘蔗SoNIN1基因结构及其内含子信息分析

根据前期克隆得到的So NIN1基因的全长c DNA和部分启动子序列设计引物,应用PCR技术从甘蔗叶片g DNA中克隆So NIN1基因,并利用生物信息学方法分析基因的结构。结果表明,So NIN1基因的DNA序列长4 938 bp,包含6个外显子和5个内含子,Gen Bank登录号KF563902。在该基因5'非翻译区存在一个268 bp内含子序列,同时5个内含子序列中含有与低温、干旱和激素等胁迫响应相关的作用元件,这些可能对So NIN1基因转录表达起调控作用。依据So NIN1蛋白聚类和外显子-内含子基因结构可以将植物NINs分为两类。     

绿僵菌第五类Ser/Thr蛋白磷酸酶基因的克隆及表达特征分析

【目的】克隆绿僵菌第五类Ser/Thr蛋白磷酸酶(PP5)基因,了解该基因及其编码产物的结构特征和两种产孢模式(微循环产孢和正常产孢)中的表达特征。【方法】通过绿僵菌中PP5基因EST序列与全基因组数据库比对,获得PP5基因DNA序列;通过同源蛋白比对预测PP5基因的DNA结构并设计引物,PCR扩增获取PP5全长cDNA序列;通过在线分析工具及生物软件进行蛋白结构分析。采用实时荧光定量PCR检测PP5基因在两种产孢模式中的表达特征。【结果】PP5基因长2100 bp,含7个外显子和6个内含子;cDNA开放阅读框长为1428 bp(GenBank登录号HQ317137),编码475个氨基酸;一级、二级及三级结构分析均显示较保守的蛋白磷酸酶结构特征。实时荧光定量PCR分析表明,PP5基因在绿僵菌微循环产孢的不同阶段表达水平具有显著性差异,特别是在孢子接种16、24、32 h高表达,而在正常产孢模式下表达量非常少。【结论】克隆了绿僵菌的PP5基因,详细了解了该基因及其编码产物的结构特征,发现了该基因在微循环产孢孢子形成后期高表达的重要特征,为进一步研究该基因在微循环产孢中的功能奠定了基础。     

球毛壳菌（Chaetomium globosum）过氧化物膜蛋白过敏原基因克隆、序列分析及原核表达

以球毛壳菌cDNA文库中获得过氧化物膜蛋白（pero）基因片段（GenBank Accn:BP099709）为基础,用RACE 技术获得该基因的全长cDNA序列。序列长747bp,由412bp的3′RACE产物和508bp的5′RACE产物拼接而成。开放阅读框501bp,编码166个氨基酸,蛋白分子量为17.5kD,理论等电点为5.75。利用cDNA两侧非编码区序列作引物克隆出该基因的DNA序列,序列分析表明该基因由2个内含子和3个外显子组成。ClustalX多序列比对表明：该基因与粗糙脉孢菌（Neurospora crassa）的过氧化物膜蛋白过敏原同源性最高（83%）。将pero基因编码区克隆到原核表达载体pET28a中,构建成表达质粒pET28a-pero并转化大肠杆菌BL21,IPTG诱导后SDS-PAGE检测表达情况,结果发现在21kD处有一特异性融合蛋白带,大小与预期相符,说明该基因已经在大肠杆菌中表达。克隆的cDNA序列、DNA序列及推测的氨基酸序列在GenBank登录(登录号分别为AY555771,AY584753,AAS66898)。     

球毛壳菌甘油醛-3-磷酸脱氢酶基因克隆及特性分析

用粗糙脉孢菌(Neurospora crassa,XP_327967)和菜豆炭疽病菌(Colletotrichum lindemuthianu,P35143)的甘油醛_3_磷酸脱氢酶基因(Glyceraldehyde 3_phosphatedehydrogenase,GAPDH)氨基酸序列对球毛壳菌(Chaetomium globosum)菌丝ESTs序列本地数据库进行tBlastn检索,获得了球毛壳菌GAPDH全长cDNA序列。该序列长1240bp,开放阅读框1014bp,编码337个氨基酸组成的多肽,蛋白分子量为36.1kD。用PCR方法克隆了该基因的DNA序列,序列长为1556bp,由2个内含子和3个外显子组成。BlastP同源性分析表明该基因与鹅掌柄孢壳(Podosporaanserine)同源性最高为95%;与米曲霉(Aspergillusoryzae)同源性最低为87%。GAPDH酵母转化子生物功能分析表明转化子对Na2CO3和高温有高的耐受性,证明GAPDH为抗胁迫基因。该基因的cDNA序列、DNA序列及推测的氨基酸序列在GenBank登录(登录号分别为AY522719,AY593253,AAS01412)。     

疏棉状嗜热丝孢菌脂肪酶基因的克隆及其在毕赤酵母中的高效表达

疏棉状嗜热丝孢菌Thermomyces lanuginosus可产生具有重要工业生产价值的脂肪酶。根据已报道的相应序列设计特异引物,综合运用PCR、RT-PCR技术克隆到脂肪酶基因的全长DNA和cDNA序列。其中DNA序列长1071bp,包含876bp的开放阅读框以及3段内含子;cDNA序列长885bp。结构基因编码蛋白包含292个氨基酸,前17个氨基酸构成信号肽。序列提交GenBank,登录号分别为EU022703和EU370914。将脂肪酶基因cDNA序列的开放阅读框克隆到酵母分泌型表达载体pPIC9K中,转化毕赤酵母GS115得到重组子且实现了分泌表达。将重组子诱导产酶,在培养温度30℃、甲醇添加量1%的情况下,小规模发酵量达0.93mg/mL,其分泌表达的最高酶活为7.2U/mL。重组酶最适反应温度和pH分别是60℃和8.0。表达蛋白在60℃保温1h后仍有完全酶活,具有较高的热稳定性。     

长柄链格孢四个二甲酰亚胺类杀菌剂胁迫差异表达基因的克隆与序列分析

为了阐明烟草赤星病病原真菌长柄链格孢Alternaria longipes对二甲酰亚胺类杀菌剂(DCFs)抗性的分子机理,前期克隆了16个DCFs胁迫差异表达基因的部分cDNA片段.为了利用基因敲除技术进一步分析这些差异表达基因的功能,本研究选取4个差异表达基因,即AlATP7、AlCIT1、AlGLUT和AlHSP88,应用DNA Walking技术对它们两侧的未知序列进行克隆.DNA测序和Blast搜索表明,AlATP7基因开放阅读框为712 bp,含4个外显子和3个内含子,编码169个氨基酸;AlCIT1、AlGLUT和AlHSP88基因未克隆到全长序列,5′末端还有200-300bp才到达翻译起始密码子ATG;在这些DNA序列中,AlCIT1基因长1 214 bp,含1个内含子,编码386个氨基酸;AlGLUT基因长1 308 bP,含1个内含子,编码417个氨基酸;AlHSP88基因长2 087bp,含2个内含子,编码628个氨基酸.与其他丝状真菌的氨基酸序列同源性比对发现,AlATP7和线粒体ATP合酶D亚基、AlCIT1和柠檬酸合成酶、AlGLUT和主要易化子超家族(MFS)类型葡萄糖转运子、AlHSP88和热休克蛋白HSP88分别具有很高的同源性.同时,还对4个DCFs胁迫差异表达基因的系统发育进行分析.基于这些蛋白功能的文献报道和前期的研究,推测A.longipes存在着一种新的DCFs抗性机制:A.longipes利用MFS类型葡萄糖转运子将DCFs排除到细胞外解毒,线粒体ATP合酶和柠檬酸合成酶参与能量供给,而热休克蛋白AlHSP88可能在该机制中促进一些重要蛋白的正确折叠和修复过程中发挥重要作用.     

电击法介导的紫孢侧耳原生质体转化

使用基因脉冲导入仪成功地将糙皮侧耳DNA导入紫孢侧耳单核原生质体内,获得了具有"锁状联合”特征的双核转化菌株T₁,和T₂。转化率为8．2×10^-5,转化比为3．6％。酯酶同I酶分析结果表明,转化菌株除具有受体菌的酶带外,还存在供体菌的酶带,由此证明转化菌株确为紫孢侧耳和糙皮侧耳DNA重组的产物。转化菌株子实体形态也发生了变化。两菌株子实体均不释放孢子;T₁。菌柄中生,T₂成熟子实体菌盖中部易长出菌丝。     

水蕨(Ceratopteris thalictroides)查尔酮合成酶基因的克隆和表达（英文）

查尔酮合酶(chalcone synthase,CHS)是植物类黄酮化合物合成的关键酶,有关蕨类植物CHS基因的序列及功能信息尚不完善。本研究采用快速扩增c DNA末端(RACE)技术克隆获得了模式蕨类植物——水蕨(Ceratopteris thalictroides)Ct CHS基因(Gen Bank登录号:JX027616.1),其c DNA序列全长为1616 bp,具有3个外显子和2个内含子,开放阅读框(ORF)为1215 bp,编码404个氨基酸。进化树分析表明,Ct CHS与问荆(Equisetum arvense)、松叶蕨(Psilotum nudum)和3种薄囊蕨的查尔酮合成酶基因聚为一枝,说明这些蕨类植物亲缘关系较近且为单系起源。通过构建原核表达体系成功获得Ct CHS蛋白的多克隆抗体并用于免疫印迹分析,结果表明Ct CHS基因的表达明显受紫外光(UV)诱导。Ct CHS基因的克隆与表达分析为进一步研究水蕨类黄酮化合物的合成及其调控机制提供了依据。     

罗汉果色氨酸转氨酶基因SgTAR2的克隆及表达分析

色氨酸转氨酶基因家族,是直接参与植物生长素生物合成途径的关键酶基因。该研究在罗汉果转录组测序的基础上,结合RACE技术克隆罗汉果色氨酸转氨酶基因SgTAR2的全长cDNA序列和DNA序列;并对其进行生物信息学分析和时空表达分析。结果表明:克隆所得SgTAR2的cDNA全长序列2078bp,最长ORF为1332bp,编码443个氨基酸,Gen Bank登录号为KU949381,其编码蛋白具有2个蒜氨酸酶保守结构域和多个5'-PLP结合位点,推测其可能参与催化色氨酸转氨基作用、化学防御作用、生长素生物合成等生物学过程;SgTAR2基因DNA长为4103bp,含有4个内含子和5个外显子,其内含子具有多个高水平转录调控因子和多个与激素、环境等胁迫响应相关的作用元件,暗示SgTAR2基因内含子协同调控罗汉果生长素合成、抗胁迫反应、形态发育等生物学过程。实时荧光定量结果显示,SgTAR2基因在罗汉果各组织器官均有表达,在雌蕊和15d幼果期表达量较高,暗示该基因参与罗汉果果实早期发育。该研究结果表明SgTAR2参与了生长素介导的罗汉果不同生长发育过程,特别对幼果及花的起始发育和器官形态建成等具有重要意义。     

康宁木霉K801纤维素酶cbh2基因的克隆及序列分析

通过聚合酶链式反应（PCR）技术扩增得到纤维素高产菌株康宁木霉Trichoderma koeningiiK801纤维二糖水解酶（CBHII)基因全序列,并克隆p GEM-Teasy Vector。序列分析表明,所克隆的cbh2基因长1611bpq,包含了纤维二糖解酶基因的完整编码区序列,并含有三个真核生物典型的内含子序列,其中四个外显子序列共同编码一个471aa的蛋白质。该序列是国内首次克隆得到的cbh2编码区全序列,与国外报道的T.reesei已知序列的同源性达到99．89％,只有两上碱基差别,而推测的氨基酸序列只有一个位置疏水性氨基酸之间发生替代,在推测的氨基酸序列上发现3个潜在的N－糖基化位点。     

Isolation and characterization of the gene encoding a manganese peroxidase from <Emphasis Type="Italic">Lentinula edodes</Emphasis>

A genomic DNA sequence and cDNA encoding a putative manganese peroxidase were isolated from the white-rot basidiomycete Lentinula edodes. The gene, called lemnp1, consists of a 1985-bp open reading frame interrupted by 16 introns and was flanked by an upstream region having putative CAAT, TATA, and heat shock elements and by a downstream region having polyadenylation signals. The lemnp1 gene encodes a protein of 364 amino acids that shows high sequence homology to manganese peroxidases of other basidiomycetes. The deduced N-terminal amino acid sequence is different from the L. edodes manganese peroxidase reported previously.     

Molecular Evolution and Diversity of Lignin Degrading Heme Peroxidases in the Agaricomycetes

The plant and microbial peroxidase superfamily encompasses three classes of related protein families. Class I includes intracellular peroxidases of prokaryotic origin, class II includes secretory fungal peroxidases, including the lignin degrading enzymes manganese peroxidase (MnP), lignin peroxidase (LiP), and versatile peroxidase (VP), and class III includes the secretory plant peroxidases. Here, we present phylogenetic analyses using maximum parsimony and Bayesian methods that address the origin and diversification of class II peroxidases. Higher-level analyses used published full-length sequences from all members of the plant and microbial peroxidase superfamily, while lower-level analyses used class II sequences only, including 43 new sequences generated from Agaricomycetes (mushroom-forming fungi and relatives). The distribution of confirmed and proposed catalytic sites for manganese and aromatic compounds in class II peroxidases, including residues supposedly involved in three different long range electron transfer pathways, was interpreted in the context of phylogenies from the lower-level analyses. The higher-level analyses suggest that class II sequences constitute a monophyletic gene family within the plant and microbial peroxidase superfamily, and that they have diversified extensively in the basidiomycetes. Peroxidases of unknown function from the ascomycete Magnaporthe grisea were found to be the closest relatives of class II sequences and were selected to root class II sequences in the lower-level analyses. LiPs evidently arose only once in the Polyporales, which harbors many white-rot taxa, whereas MnPs and VPs are more widespread and may have multiple origins. Our study includes the first reports of partial sequences for MnPs in the Hymenochaetales and Corticiales.     

Submerged cultivation of edible white-rot fungi on tree bark

Summary Three white-rot fungi,Phanerochaete chrysosporium, Polyporus anceps, andPleurotus sapidus, were grown in shake flasks on maple and cedar bark. The barks for growth were extracted with 1% NaOH and microbial growth was estimated by biuret protein. The maximum yields were 136 and 116 mg protein/gm of bark forPhanerochaete chrysosporium andPolyporus anceps and occurred at 4 days. These two fungi were active cellulase producers and were shown to exhibit an extensive linear phase during batch growth.Pleurotus sapidus produced laccase but negligible growth. A non-linear relationship between bark concentration and protein yield was found.     

Biodegradation of pentachlorophenol by white rot fungi under ligninolytic and nonligninolytic conditions

The roles of lignin peroxidase, manganese peroxidase, and laccase were investigated in the biodegradation of pentachlorophenol (PCP) by several white rot fungi. The disappearance of pentachlorophenol from cultures of wild type strains,P. chrysosporium, Trametes sp. andPleurotus sp., was observed. The activities of manganese peroxidase and laccase were detected inTiametes sp. andPleurotus sp. cultures. However, the activities of ligninolytic enzymes were not detected inP. chrysosporium cultures. Therefore, our results showed that PCP was degraded under ligninolytic as well as nonligninolytic conditions. Indicating that lignin peroxidase, manganese peroxidase, and laccase are not essential in the biodegradation of PCP by white rot fungi.     

Identification of two mutations that cause defects in the ligninolytic system through an efficient forward genetics in the white‐rot agaricomycete Pleurotus ostreatus

White‐rot fungi play an important role in the global carbon cycle because they are the species that almost exclusively biodegrade wood lignin in nature. Lignin peroxidases (LiPs), manganese peroxidases (MnPs) and versatile peroxidases (VPs) are considered key players in the ligninolytic system. Apart from LiPs, MnPs and VPs, however, only few other factors involved in the ligninolytic system have been investigated using molecular genetics, implying the existence of unidentified elements. By combining classical genetic techniques with next‐generation sequencing technology, they successfully showed an efficient forward genetics approach to identify mutations causing defects in the ligninolytic system of the white‐rot fungus Pleurotus ostreatus. In this study, they identified two genes – chd1 and wtr1 – mutations in which cause an almost complete loss of Mn²⁺‐dependent peroxidase activity. The chd1 gene encodes a putative chromatin modifier, and wtr1 encodes an agaricomycete‐specific protein with a putative DNA‐binding domain. The chd1‐1 mutation and targeted disruption of wtr1 hamper the ability of P. ostreatus to biodegrade wood lignin. Examination of the effects of the aforementioned mutation and disruption on the expression of certain MnP/VP genes suggests that a complex mechanism underlies the ligninolytic system in P. ostreatus.     

一色齿毛菌锰过氧化物酶2基因克隆及生物信息学分析

摘要 锰过氧化物酶（manganese peroxidase,MnP）是由一系列同功酶组成的木质素降解酶。我们前期工作克隆了一色齿毛菌（Cerrena unicolor) MnP1基因序列。在此基础上,本研究采用简并PCR、染色体步移和RACE等技术对C. unicolor mnp2基因(Cu-mnp2)序列进行克隆。同时,采用生物信息学软件对Cu-mnp2的基因结构、Cu-MnP2的蛋白质结构及多物种MnPs蛋白质序列的系统进化关系进行分析。克隆得到3 053 bp的Cu-mnp2 DNA序列(GenBank:JX270806.1)和1 429 bp的Cu-mnp2 cDNA序列(GenBank: JQ782580.1)。序列分析结果显示,Cu-mnp2 DNA序列包含14个外显子和13个内含子,启动子区域包含TATA-BOX、SP1和AP1等作用元件;Cu-mnp2 cDNA序列包含71 bp的5′UTR、230 bp的3′ UTR以及1 128 bp的开放阅读框(ORF)。Cu-mnp2 ORF序列的BLAST比对结果表明,Cu-mnp2与Trametes versicolor FP-101664 SS1 mnp序列覆盖度为53%,序列相似性为65%;与Heterobasidion irregulare mnp、C. unicolor mnp1等cDNA序列都有较高的序列相似性。Cu-mnp2的ORF编码(GenBank:AFK91530.1)由340个氨基酸残基组成的多肽链(Cu-MnP2)。Cu-MnP2蛋白质序列的BLAST比对和蛋白质三维结构均显示,Cu-MnP2包含Mn ²⁺ 、Ga ²⁺ 、血红素及芳香底物结合位点。对包含Cu-MnP1、Cu-MnP2蛋白质序列在内的多物种MnPs蛋白质序列的系统发育分析表明,多物种的MnPs分为两大类群,分别为包含4个二硫键的短MnPs和包含5个二硫键的长MnPs。其中,Cu-MnP1与Cu-MnP2均属于短MnPs,Cu-MnP2与Trametes versicolor MrP 的蛋白质序列亲缘关系最近。通过Cu-mnp2基因的克隆和序列分析,对继续研究C. uniclor的MnP同工酶基因结构和功能奠定基础。     

Distribution of ligninolytic enzymes in selected white-rot fungi

Ten white-rot fungi have been screened for the production of ligninase, manganese peroxidase and laccase. Although the fungi degraded lignin efficiently, they significantly differed in the occurrence of individual ligninolytic enzymes. Based on the enzyme pattern produced under N-limited conditions, the fungi can be divided into the following four groups:1. ligninase-manganese peroxidase-laccase group,2. ligninase-manganese peroxidase group,3. manganese peroxidase-laccase group,4. laccase group.     

三种白腐菌生物学特性与木质纤维素酶基因遗传多样性

以采自东北林业大学帽儿山实验林场的3种白腐真菌——木蹄层孔菌(Fomes fomentarius)、鲍姆鲍姆木层孔菌(Phellinus baumiibaumii)和火木层孔菌(Phellinus igniarius)为材料,用菌落直径测量法比较3种白腐菌在马铃署葡萄糖固体培养基上的生长速度,采用菌丝体干重法比较其在马铃署葡萄糖液体培养基中的生物量变化。结果显示:马铃薯葡萄糖固体培养基上3种白腐菌均为快速生长类型,其生长速度木蹄层孔菌火木层孔菌鲍姆鲍姆木层孔菌;马铃署葡萄糖液体培养基中生物量增长速度木蹄层孔菌鲍姆鲍姆木层孔菌火木层孔菌。用比色法测量其木质纤维素酶活性,结果显示:木蹄层孔菌产锰过氧化物酶和漆酶量较高,鲍姆鲍姆木层孔菌和火木层孔菌产木质素过氧化物酶量较高;木蹄层孔菌、鲍姆鲍姆木层孔菌和火木层孔菌3种白腐菌的3种主要木质素酶(锰过氧化物酶、漆酶和木质素过氧化物酶)的表达量,种间差异显著(F=3.75*、5.20**、3.01*),白桦木屑诱导处理与对照间差异显著(F=3.84*、4.19*、5.28*);两种主要纤维素酶(葡聚糖内切酶、葡聚糖外切酶)的表达量,种间差异不显著,受碳源影响作用显著(F=3.99*、4.04*)。筛选29对引物组合,对3种白腐菌几种主要木质纤维素酶基因进行TRAP-PCR分子标记检测,比较3菌种间遗传差异,扩增总条带数为357条,多态性条带数为255条,多态性条带的比例为71.43%,其中木质素降解酶基因总多态位点比率为73.77%,纤维素降解酶基因总多态位点比率为68.97%。3种白腐菌的木质纤维素降解酶基因在种间均存在较高的遗传差异。因此,特定基因的TRAP分子标记可以用于木腐菌的遗传变异分析。     

Differential regulation of manganese peroxidases and characterization of two variable MnP encoding genes in the white-rot fungus Physisporinus rivulosus

Manganese peroxidase (MnP) production in the white-rot basidiomycete Physisporinus rivulosus T241i was studied. Separate MnP isoforms were produced in carbon-limited liquid media supplemented with Mn²⁺, veratryl alcohol, or sawdust. The isoforms had different pH ranges for the oxidation of Mn²⁺ and 2,6-dimethoxyphenol. Although lignin degradation by white-rot fungi is often triggered by nitrogen depletion, MnPs of P. rivulosus were efficiently produced also in the presence of high-nutrient nitrogen, especially in cultures supplemented with veratryl alcohol. Two MnP encoding genes, mnpA and mnpB, were identified, and their corresponding cDNAs were characterized. Structurally, the genes showed marked dissimilarity, and the expression of the two genes implicated quantitative variation and differential regulation in response to manganese, veratryl alcohol, or sawdust. The variability in regulation and properties of the isoforms may widen the operating range for efficient lignin degradation by P. rivulosus.