尖孢镰刀菌亚麻专化型Folprp4基因参与调控菌丝生长和分生孢子发生

目的: 通过对尖孢镰刀菌中Folprp4基因的鉴定,揭示其在尖孢镰刀菌中的功能及致病相关性。方法: 基于同源重组原理,根据测定出的Folprp4基因序列,应用Split-Marker重组技术构建含有潮霉素抗性基因(hph)的基因缺失盒。将基因缺失盒经PEG介导转化到野生型原生质体中,在含有潮霉素B的TCC培养基上筛选转化子,通过PCR正负筛查获得Folprp4基因缺失突变株(ΔFolprp4)。构建含有Folprp4基因的载体pZDH1,并将其转化到敲除突变体中进行互补测验。结果: 与野生型(hm)和异位插入突变体(ecFolprp4)相比,敲除突变体菌丝生长受到严重阻碍,当野生型和异位插入突变体长满整个平板时,敲除突变体菌落呈小点状。敲除突变体的另一个显著变化是ΔFolprp4的分生孢子产量显著下降。侵染实验表明,ΔFolprp4对亚麻幼苗的毒力显著降低。互补实验表明,该互补载体的回复子(Folprp4-C)在菌落形态、生长速率、分生孢子产量和毒力方面均恢复到了野生型菌株。结论: Folprp4基因与尖孢镰刀菌的菌丝生长、分生孢子发生和致病性有关。     

组蛋白甲基化与去乙酰化对蛇足石杉内生真菌盘长孢状刺盘孢合成石杉碱甲的影响

以蛇足石杉Huperzia serrata内生真菌盘长孢状刺盘孢Cg01菌株为研究对象,利用PEG介导的同源重组转化体系,对Cg01组蛋白甲基化酶基因（histone methyltransferases,HMT）CgClr4和组蛋白去乙酰化酶基因（histone deacetylase,HDAC）CgClr3、CgSir2进行基因敲除与回补,并通过实时荧光定量PCR（RT-qPCR）检测了回补株中对应基因表达量以及高效液相色谱HPLC检测突变体菌株中石杉碱甲huperzine A（HupA）产量。结果显示3个基因敲除突变体菌株ΔCgClr4、ΔCgClr3、ΔCgSir2的HupA产量分别为255μg/L、270μg/L、244μg/L,与野生型菌株相比分别下降了21.3%、16.6%、24.7%。在基因回补突变体菌株ΔCgClr4/CgClr4、ΔCgClr3/CgClr3、ΔCgSir2/CgSir2中,相应回补基因表达均与野生型无显著性差异,其HupA产量分别为351.9μg/L、334.7μg/L、331μg/L,回补菌株的HupA产量回复到野生型水平。结果表明这3个基因均具有调控内生真菌盘长孢状刺盘孢Cg01合成HupA的作用,为研究蛇足石杉内生真菌中石杉碱甲的合成调控机制提供了理论基础和新的思路。     

果生刺盘孢CfHAC1调控应答二硫苏糖醇胁迫的转录组分析

果生刺盘孢Colletotrichum fructicola是油茶炭疽病优势病原菌。前期研究发现bZIP转录因子CfHac1参与调控该菌的生长发育和致病性。为了揭示转录因子CfHac1调控果生刺盘孢响应内质网压力和致病机理,本研究测定了ΔCfhac1突变体对内质网压力胁迫剂的敏感性,发现突变体对二硫苏糖醇（dithiothreitol,DTT）的耐受性下降,说明CfHAC1基因可能参与调控果生刺盘孢响应内质网压力胁迫过程。进一步利用高通量RNA-seq技术对该病菌野生型菌株和CfHAC1敲除突变体菌株在DTT胁迫下的转录组进行了比较分析,结果表明差异表达基因共有2 680个,其中上调表达基因有1 181个,下调表达基因有1 499个。Gene Ontology 功能分析结果显示,差异表达基因主要参与催化活性、结合、代谢过程、细胞过程、细胞成分合成、生物过程调控和应激反应等生物学过程。KEGG功能富集分析表明,上调表达基因主要被富集到核糖体、真核细胞的核糖体生物合成、RNA转运和氰基氨基酸代谢通路中;下调表达基因显著富集在内质网蛋白质加工、N-聚糖生物合成、类固醇合成和蛋白质分泌等通路中。分析发现转录因子CfHac1调控内质网胁迫应答和致病相关基因的表达。本研究提供了在全基因组水平上对CfHAC1基因与内质网压力胁迫应答之间关联的新认识,为阐明果生刺盘孢响应内质网压力胁迫和致病机制奠定了基础。     

中华根瘤菌NP1氨单加氧酶基因的克隆与功能鉴定

以中华根瘤菌NP1(Sinorhizobium sp.NP1)为原始菌株,通过同源克隆与Tail-PCR方法,获得1089bp的氨单加氧酶基因(amo)全长序列.该基因编码362个氨基酸,其二级结构与Sinorhizobium meliloti1021AMO的二级结构相似,该蛋白有9个跨膜区段.以自杀穿梭质粒pJQ200SK为原始载体,构建NP1amo基因敲除质粒pJQ200SK-amo-Tc.采用三亲本杂交的方法将该质粒转入原始菌株NP1中,获得amo基因敲除菌株NP1∷amo.通过本贝洛氏(Berthelot)法对氨氮进行测定,发现NP1∷amo的脱氮效率比原始菌株NP1下降约35%.该结果表明,本实验中所克隆的氨单加氧酶基因为脱氮关键酶基因.     

crgA调控三孢布拉霉合成类胡萝卜素

【目的】探究crgA基因在三孢布拉霉合成类胡萝卜素过程中的调控作用。【方法】克隆三孢布拉霉crgA基因并利用split-marker策略敲除该基因;在表型特征、关键酶基因转录水平、类胡萝卜素合成水平等方面将基因敲除株与野生株进行比较分析。【结果】与野生型菌株相比,crgA基因敲除菌产孢能力明显下降,而类胡萝卜素合成途径中的关键酶基因转录水平明显提高,在发酵120h后β-胡萝卜素的积累量提高了31.2%。将crgA基因重新导入到敲除菌后,该菌的性状恢复至野生型。【结论】crgA基因调控三孢布拉霉的生长和产孢能力,并通过调控类胡萝卜素关键酶基因表达来调控类胡萝卜素的合成,是一个负调控因子。     

基于Cfku70基因失活策略构建果生刺盘孢的高效基因敲除底盘菌株

果生刺盘孢侵染危害多种植物,是重要的植物病原真菌。在一些丝状真菌中,敲除非同源末端连接修复通路的关键基因ku70或ku80可显著提高同源重组效率,进而提高靶基因置换频率。本研究从果生刺盘孢基因组鉴定到Cfku70和Cfku80两个基因,并明确了基因失活对菌株生物学表型和基因敲除效率的影响。敲除Cfku70或Cfku80不影响菌株的菌落形态、营养生长、产孢、分生孢子萌发、侵染结构发育和致病;Cfku70基因敲除还大幅提升3个测试基因的敲除效率。本研究证实Cfku70基因失活能显著提高果生刺盘孢的基因敲除效率,适宜作为高效基因敲除的底盘菌株,研究结果为通过批量敲除策略筛选新型致病因子奠定重要基础。     

Toll样受体4(TLR4)基因剔除小鼠构建及初步表型分析

目的 利用CRISPR/Cas9技术构建Toll样受体4(TLR4)基因敲除小鼠模型,并观察突变小鼠对革兰氏阴性细菌脂多糖(LPS)刺激响应的变化。方法 针对TLR4基因外显子2设计并合成1对sgRNA片段,与编码Cas9的mRNA混合后通过受精卵显微注射方法,建立TLR4基因敲除小鼠,通过繁育获得基因敲除纯合子小鼠(TLR4^-/-小鼠);通过LPS刺激,分析TLR4^-/-小鼠对炎症应激的反应情况,并在分子和病理水平上和野生型对照(WT)进行比较。结果 PCR及测序检测表明TLR4基因外显子2在小鼠基因中被成功敲除;给予LPS刺激后,IL1β、IL6、MyD88、iNOS及TNFa等炎症因子的表达在野生型小鼠的心、肝和肺组织中显著上调,而在TLR4^-/-小鼠中则几乎没有变化;血生化指标显示LPS刺激后WT小鼠血清中的尿素(Urea)和肌酐(Cre)水平显著升高,而TLR4^-/-小鼠刺激前后无显著变化,病理分析同样发现TLR4^-/-小鼠能够抵抗LPS对肾组织的损伤。结论 利用CRISPR/Cas9技术成功构建了TLR4基因剔除小鼠模型,TLR4的缺失能够降低IL1β、IL6、MyD88、iNOS及TNFa炎症因子对LPS刺激的响应,抑制LPS引起的炎症反应及对组织的损伤。     

干旱对水稻生物钟基因和干旱胁迫响应基因每日节律性变化的影响

内源生物钟的节律运动不仅调控植物的生长发育,而且在调控植物响应和适应环境过程中发挥重要的作用。为了解水稻(Oryza sativa L.)干旱胁迫响应基因和生物钟基因在干旱条件下每日表达变化情况,本文利用实时荧光定量PCR方法研究旱稻品种IRAT109在干旱胁迫下相关基因的表达变化。结果表明,干旱胁迫导致早晨生物钟基因OsPRRs、OsLHY和OsZTL1的表达量显著下降,振幅减弱;同时导致夜晚生物钟基因OsTOC1、OsGI和OsELF3整体表达量升高,振幅增强,但对OsFKF1基因影响不大。同样,大部分水稻干旱胁迫响应基因在干旱胁迫后整体表达量显著升高,但OsDST基因表达量下降;同时大部分抗逆基因周期性表达被扰乱,但OsCIPK12、OsCDPK7和OsDREB1A依然保持24 h内震荡。本研究结果表明干旱胁迫能影响生物钟元件的基因表达,这种互相影响改变了部分基因每日的震荡变化。     

新生隐球菌RBP1基因克隆与功能分析

新生隐球菌是自然界广泛存在的具荚膜的酵母型病原真菌,能侵染人类中枢神经系统引起真菌性脑膜炎,每年导致全球大约18万人死亡。本研究在前期隐球菌交配表达谱的基础上,选择一上调表达的RNA结合蛋白基因（CNAG_04772）,进行克隆和功能分析。结果表明该基因全长2 247bp,cDNA全长1 518bp,编码505个氨基酸组成的蛋白,含有2个RNA识别基序RRM1和RRM2,命名为RBP1。基因表达模式分析表明RBP1在隐球菌酵母细胞、担子以及担孢子阶段都有表达,交配菌丝阶段不表达;亚细胞定位分析表明Rbp1蛋白定位于隐球菌的细胞核和细胞质中。与野生型菌株H99相比,敲除突变体菌株能够交配并产生双核菌丝,但丧失产生担孢子的能力,而互补菌株与野生型菌株H99间无显著差异。致病力测定结果显示,敲除突变体菌株致病性显著降低。     

1α羟化酶活性和血钙水平对24羟化酶基因表达的影响

目的:研究肾脏24羟化酶基因表达的影响因素。方法:采用两种基因敲除小鼠。每种小鼠又分两种饲养方式。用生化分析仪测定小鼠血钙浓度。用半定量RT-PCR法研究小鼠肾脏组织中1α羟化酶和24羟化酶基因的表达。结果:1α羟化酶基因敲除小鼠体内血钙低于野生型小鼠(78±10.4 mg/Lvs111±16.5 mg/L,P<0.05.),测不出24羟化酶基因表达。维生素D受体基因敲除小鼠有很高的1α羟化酶表达,小鼠血钙也显著低于野生型小鼠(68±9.8 mg/Lvs111±16.5 mg/L,P<0.05),测不出24羟化酶表达。但给予高乳糖饲料后,两种基因敲除小鼠血钙都上升到与野生型小鼠一致水平。此时,24羟化酶基因的表达与野生型也基本一致。结论:血钙是调节24羟化酶基因表达的直接因素,1α羟化酶对24羟化酶的正向调节作用是通过升高血钙来实现的。     

cDNA cloning and mRNA expression of calponin and SM22 in rat aorta smooth muscle cells

We cloned and sequenced cDNAs encoding calponin (Calp) and SM22 (smooth muscle-specific 22-kDa protein) from rat aorta (RaA) smooth muscle (Smu) cells. The 1504-bp calp cDNA contains a single open reading frame (ORF) which encodes 297 amino acids (aa) (M_r 33 342). The 1186-bp SM22 cDNA contains a single ORF which encodes 201 aa (M_r 22 601). There were 43% identical aa in a 181-aa overlap between RaA Calp and SM22. Especially for the C-terminal region of SM22 and for the first repeat motif of Calp, 70% identity was observed. Northern blot analysis revealed that the calp and SM22 mRNAs were expressed in RaA Smu, but not in rat cardiac and skeletal muscles. SM22 mRNA was much more abundant than calp mRNA in RaA (3- to 4-fold). The expression levels of the calp and SM22 mRNAs in RaA showed a significant increase for 5 to 15 week old rats (1.5- to 3-fold) with vascular development and blood pressure elevation. No significant differences were observed in the expression of the RaA calp and SM22 mRNAs between normotensive (Wistar Kyoto) and spontaneously hypertensive rats (SHR).     

侵染3株模式豆科根瘤菌的噬菌体生物学特性

豆科作物根瘤菌被噬菌体浸染后,在一定程度上会引起根瘤菌数目和结瘤量的降低,进而导致共生固氮作用弱化和作物产量的显著下降.然而,目前关于根瘤菌噬菌体的相关研究报道较少.本研究以3株模式根瘤菌,即慢生型大豆根瘤菌、中华大豆根瘤菌和中华苜蓿根瘤菌为宿主,于黑土农田土壤中采用双层平板培养法从每个宿主细菌分离3株噬菌体,共分离获得9株根瘤菌噬菌体,对其形态结构及生物学特征进行综合分析.结果表明:侵染苜蓿根瘤菌噬菌体(SMM)和慢生型根瘤菌噬菌体(BDM)属于肌尾噬菌体科,而侵染中华根瘤菌噬菌体(SSS)隶属于长尾噬菌体科.9株噬菌体的最佳感染复数均在0.001~1.0的变化范围内.一步生长曲线结果显示,BDM的潜伏期和爆发期明显长于SMM和SSS,但获得的裂解量最小.根瘤菌噬菌体在30~40℃和中性pH条件下侵染活性最大.对比发现,侵染同一宿主的噬菌体生物学特征虽存在一定差异,但分异度远小于不同宿主噬菌体间的差异.     

yhcZ基因在苏云金芽胞杆菌生长中的功能研究

在枯草芽胞杆菌和蜡样芽胞杆菌中,yhcZ基因和yhcY基因组成双组分系统调控细菌生长,但yhcZ基因在苏云金芽胞杆菌中发挥的生物学功能尚未明确。本研究通过基因功能注释、上下游基因排列分析和氨基酸序列比对,证实苏云金芽胞杆菌库斯塔克亚种HD73中HD73_5824基因为yhcZ基因,推测其与HD73_5825基因(yhcY基因)共同组成双组份系统调控细菌生长。利用同源重组技术敲除HD73菌株中的yhcZ基因获得缺失突变体HD (ΔyhcZ),其在LB和SSM培养基中生长均慢于野生型HD73,而互补菌株HD(ΔyhcZ::yhcZ)菌株则能够部分恢复生长,表明yhcZ基因的缺失影响了该菌株细胞的生长。在以0.4%葡萄糖为唯一碳源的M9培养基中,HD (ΔyhcZ)生长速度快于HD73,表明yhcZ基因在该菌株吸收利用葡萄糖的过程中发挥重要作用。Biolog实验显示HD (ΔyhcZ)的单孔颜色变化率低于HD73,且对D/L-丝氨酸、甲酸、D-葡糖酸、L-组胺,D-乳酸甲酯以及柠檬酸等的吸收利用能力低于HD73,表明yhcZ基因能显著影响HD73菌株对碳源的利用。同时,HD(ΔyhcZ)对8% NaCl的耐受能力弱于HD73,表明该基因可能参与细菌细胞应力响应相关基因的表达与调控。以上结果表明yhcZ基因在HD73菌株生长过程中对葡萄糖及其他碳源的利用具有重要的促进作用。本研究结果为解析yhcZ基因调控葡萄糖及碳源利用的分子机制奠定基础,且为进一步研究细菌生长及发酵提供参考。     

Colony variation in Sinorhizobium meliloti inoculant strain U 45

A culture of Sinorhizobium meliloti strain U 45, maintained on yeast extract-mannitol (YM) agar, produced a mixture of Congo red-absorbing (R1) and non-absorbing (W1) colonies when grown on YM medium containing Congo red. The original freeze-dried (FD) culture formed gummy (G), white (W2) and small red (R2) colony types on the above medium. All colonies were stable except G, which segregated into G and W2-like types. Immune diffusion patterns of all colony types were identical. The W1 colony type dominated R1 when a 1:1 combination was sub-cultured on YM agar. The parent cultures and their variants exhibited a range of N₂-fixing effectiveness and competitiveness when inoculated onto two cultivars of Medicago sativa. Variant R2 from the FD culture was ineffective on both cultivars. Genomic DNA fingerprinting with insertion elements ISRm3 and ISRm2011-2 suggested that transposition of these elements was not a cause of variation, but a DNA band was absent in the profiles of two out of three W2-like colonies. Protein profile comparisons showed high similarity (r = 0.98) between the colony types when grown in YM broth. When grown on Tryptone-Yeast extract medium, variants from the FD and agar-maintained cultures formed separate clusters with r = 0.79. Polymerase chain reaction fingerprinting using repetitive, site-directed and arbitrary primers failed to differentiate the variants. The results emphasize the need to monitor culture variability to maintain the quality of legume inoculants.     

结核分枝杆菌核糖体蛋白丙氨酸乙酰转移酶过表达菌株的构建及分析

rimI基因编码的核糖体蛋白丙氨酸乙酰转移酶(ribosomal-protein-alanine acetyltransferase,RimI)为结核分枝杆菌GCN5相关N-乙酰转移酶家族成员,其在结核分枝杆菌中的生物学功能尚不十分清楚。为探索RimI的生物学特性及其对结核分枝杆菌致病性的影响,本研究以耻垢分枝杆菌为模式菌,构建过表达结核分枝杆菌rimI基因的重组菌株Msm∷pMV261-rimI。分别培养 Msm∷pMV261-rimI菌株和对照Msm∷pMV261菌株,分析两者生长速率、菌落形态和生物膜形成的差异,以及耐受低氧、低pH值、H₂O₂、二硫苏糖醇(dithiothreitol,DTT)和0.05%～1%十二烷基硫酸钠(sodium dodecyl sulfate,SDS)等逆环境的能力;并将两种菌株分别接种于鼠巨噬细胞RAW264.7,观察两者在巨噬细胞内的存活能力。结果表明,相较于对照菌株,过表达rimI的菌株在生长前中期速率降低,生物膜早期成膜变缓,但不影响生物膜的后期成熟。同时,过表达rimI的菌株抵抗低氧、低pH值、H₂O₂等逆环境的能力增强,在巨噬细胞内的存活能力增强。结果提示,rimI基因对分枝杆菌的生物膜形成、抗逆性及细胞内生存具有重要作用,可能与结核分枝杆菌的毒力密切相关。     

The nos (nitrous oxide reductase) gene cluster from the soil bacterium Achromobacter cycloclastes: Cloning, sequence analysis, and expression

The nitrous oxide (N₂O) reductase (nos) gene cluster from Achromobacter cycloclastes has been cloned and sequenced. Seven protein coding regions corresponding to nosR, nosZ (structural N₂O reductase gene), nosD, nosF, nosY, nosL, and nosX are detected, indicating a genetic organization similar to that of Rhizobium meliloti. To aid homology studies, nosR from R. meliloti has also been sequenced. Comparison of the deduced amino acid sequences with corresponding sequences from other organisms has also allowed structural and functional inferences to be made. The heterologous expression of NosD, NosZ (N₂O reductase), and NosL is also reported. A model of the Cu_A site in N₂O reductase, based on the crystal structure of this site in bovine heart cytochrome c oxidase, is presented. The model suggests that a His residue of the Cu_A domain may be a ligand to the catalytic Cu_Z site. In addition, the origin of the spectroscopically-observed Cys coordination to Cu_Z is discussed in terms of the sequence alignment of seven N₂O reductases.     

过表达GDP-D-甘露糖焦磷酸化酶(GMP)基因提高灵芝多糖的生产

灵芝多糖是灵芝的主要生物活性成分之一,具有多种药理活性,但灵芝多糖的低产量限制了其广泛应用.相关研究表明,灵芝中过表达多糖生物合成相关基因能够提高多糖产量,但过表达GDP-D-甘露糖焦磷酸化酶(GMP)基因提高灵芝多糖产量未有报道.本研究克隆获得了灵芝gmp基因,并成功构建出了过表达gmp基因的工程菌株(GMP菌株),...     

Extraction of polyhydroxyalkanoate from Sinorhizobium meliloti cells using Microbispora sp. culture and its enzymes

Sinorhizobium meliloti produced 50% polyhydroxyalkanoate (PHA) in the biomass in the presence of sucrose as carbon substrate. Isolation of the intracellular PHA was achieved through a secondary fermentation involving a cell lytic actinomycetes species namely Microbispora sp. without further supplementation of nutrients to the S. meliloti fermented broth, at 30 °C, 150 rpm up to 72 h. Microbispora sp. cells that showed pelleted growth was removed by filtration and the released polymer contained in the filtrate was extracted by chloroform or an admixture of Triton X 100 (0.6%) a surfactant and ethylene diamine tetra acetic acid (EDTA) a chelating agent. Yield of PHA obtained was 49, 41 and 7% of biomass weight after 24, 48 and 72 h of lytic culture fermentation, respectively. Corresponding recovery of the polymer was 94, 82 and 15% of 90% purity. Alternatively Microbispora sp. lytic enzyme was obtained by its cultivation in nutrient broth with S. meliloti cells as substrate and the supernatant was used for the hydrolysis of the PHA containing biomass to release PHA. A620 lytic activity value for the broth was 200 at 72 h. The enzyme showed optimized activity at 50 °C, pH 7 and this was used to hydrolyze 5 g/l of thermally inactivated biomass of S. meliloti to recover 94% of total PHA present in the cells and the polymer produced was 92% pure. Decreased cell lytic activity in the presence of soluble protein added in the form of bovine serum albumin indicated that the hydrolytic activity may be due to proteases. The polymer was characterized by GC, NMR and DSC and was found to be polyhydroxybutyrate-co-hydroxyvalerate (97:3 mol%) with a melt temperature of 169 °C.     

种子植物抗细胞凋亡DAD基因的演化

抗细胞凋亡基因(DAD)是一个高度保守的细胞凋亡抑制基因,在植物生长发育中承担重要功能。为全面了解DAD基因在种子植物中的分布和演化规律,该文利用31种植物的全基因组数据,通过生物信息学手段,深入探讨和分析了不同植物类群中DAD基因的拷贝数目、基因结构和染色体定位,并综合另外7种裸子植物的转录组数据探讨了其在种子植物中的演化趋势。结果表明,DAD基因属于低拷贝基因,在不同种子植物中只具有1–3个拷贝;不同DAD基因编码的氨基酸长度在108–170 aa之间变动。同线性和系统发育分析进一步表明,种子植物DAD基因的演化具有明显的谱系特异性。随机复制和染色体大片段复制及其随后的基因丢失可能是其维持低拷贝的重要方式。