A novel pathogenesis-related protein (SsPR10) from Solanum surattense with ribonucleolytic and antimicrobial activity is stress- and pathogen-inducible

A cDNA clone (designated as SsPR10, GenBank Accession Number AY660753 ) encoding a PR10 protein from yellow-fruit nightshade (Solanum surattense) was isolated and characterized. SsPR10 encoded a 160-amino-acid polypeptide with a predicted molecular mass of 17.58 kDa and pI of 5.29. Sequence alignments showed that SsPR10 had high identity (68.1%) with CaPR10, but had only about 31.7% identity with JIOsPR10 at the amino acid level. Genomic DNA gel blot analysis indicated that SsPR10 belonged to a multigene family. The constitutively expressed SsPR10 was detected to be the highest in roots of the sterile seedlings cultured in jars, while SsPR10 expression was the highest in old yellow leaves from the seedlings incubated with sap containing TMV. SsPR10 always expressed at slightly higher level in senescent leaves than in tender ones under both conditions. Further expression analysis revealed that the signaling components of defense/stress pathways (MeJA, SA, ABA, GA3, H2O2 and Cu2+) up-regulated significantly the SsPR10 mRNA levels over the control. However, darkness failed to induce SsPR10 expression and its expression was also inhibited by cold treatment. The SsPR10 was successfully expressed in Eschericha coli and the expressed protein was purified to near homogeneity. The dialytically renatured SsPR10 protein without phosphorylation exhibited ribonucleolytic activity against S. surattense leaf total RNA preparations and could inhibit hyphal growth of Pyricularia oryzae. Our findings suggest that the novel stress- and pathogen-inducible SsPR10 with ribonucleolytic and antimicrobial activity participates not only in the defense/stress response pathways but also in plants' growth, development and senescence.     

杜梨胆碱单加氧酶基因克隆及胁迫表达

为了解梨砧木—杜梨对非生物胁迫的防御机制,采用RT-PCR、RACE和长片段PCR技术从杜梨幼苗中获得1个甜菜碱合成相关的胆碱单加氧酶基因(PbCMO),运用生物信息学方法分析序列特点,并通过跨内含子引物进行半定量RT-PCR研究其在非生物胁迫下的表达情况。结果表明:(1)PbCMO基因cDNA序列编码区长1 227bp,编码由408个氨基酸组成的多肽。其对应基因组DNA序列长2 928bp,由10个外显子和9个内含子组成。其推导的多肽预测的等电点为6.19,相对分子质量为46.27kD,具备Rieske型铁硫[2Fe-2S]簇结合区域和非血红素单核态铁配位点序列,与枸杞CMO蛋白相似性最高(71%)。(2)PbCMO在幼苗根和叶中均为诱导型表达,100mmol/L氯化钠、10%(W/V)聚乙二醇、180mmol/L甘露醇或20μmol/L脱落酸处理后其表达量明显上调,表明PbCMO对盐碱、干旱、渗透胁迫和ABA均存在表达响应,可能参与杜梨应对非生物胁迫的转录调节。     

Cloning of S4D-SRCRB,a new soluble member of the group B scavenger receptor cysteine-rich family (SRCR-SF) mapping to human chromosome 7q11.23

The scavenger receptor cysteine-rich superfamily (SRCR-SF) is a highly conserved group of membrane and/or secreted proteins related to the innate and adaptive immune system. Here, we report the cloning of the gene encoding human S4D-SRCRB, a novel soluble member of the SRCR-SF, which is composed of four group B SRCR domains separated by Pro-, Ser- and Thr-rich polypeptides. The longest cDNA sequence found is 2,806 bp in length and encodes a mature protein of 528 aa, with a predicted molecular mass of M(r) 55,600. The S4D-SRCRB gene is located at Chromosome 7q11.23, telomeric to the Williams-Beuren syndrome deletion. It extends over 20 kb and consists of 11 exons, with each SRCR domain being encoded by a single exon. Northern blot analysis indicated that S4D-SRCRB has a broad tissue distribution and is expressed as two major mRNA species: one of 2.8 kb, with a restricted tissue expression pattern (mainly kidney and placenta), and another of 1.5 kb, with a broader distribution. A similar mRNA expression pattern was observed during the analysis of several tumor cell lines. The highest degree of similarity found between S4D-SRCRB and other group B SRCR-SF members was with human DMBT1 (a mosaic protein composed of fourteen SRCR domains, which is involved in innate defense and epithelia polarization) and chicken 18-B (a turpentine-induced soluble acute-phase protein composed of four SRCR domains). Our data indicate that S4D-SRCRB constitutes a novel SRCR-SF member, which could be involved in basic homeostatic functions such as innate host defense.     

漾濞大泡核桃病程相关蛋白10基因JsPR10-1的克隆与表达分析

病程相关蛋白（pathogenesis related protein, PR） 10的激活与积累在植物抗逆境胁迫中有非常重要的作用。根据漾濞大泡核桃（Juglans sigillata）编码PR10的EST（expressed sequence tag）序列设计引物,利用快速扩增cDNA末端技术,克隆得到PR10基因的全长cDNA序列,并命名为JsPR10-1。JsPR10-1全长cDNA为776 bp,含有483 bp的开放阅读框、74 bp 5′-非编码区以及219 bp 3′-非编码区,编码含有160个氨基酸的蛋白质。全长基因序列中含有1个124 bp的内含子。JsPR10-1编码的蛋白质与栎树（Quercus suber）、欧洲山毛榉（Fagus sylvatica）以及欧洲板栗（Castanea sativa）的PR10相似性较高,并且在PR10的系统进化树中与双子叶植物聚为一支。qRT-PCR分析结果表明,植物信号分子水杨酸、茉莉酸、乙烯以及过氧化氢处理均可诱导JsPR10-1表达。在接种胶孢炭疽菌（Colletotrichum gloeosporioides）后,JsPR10-1的表达量迅速上升并在接种8 h时达到最大值,表明JsPR10-1参与漾濞大泡核桃对胶孢炭疽菌的防卫反应。本研究为揭示漾濞大泡核桃抗性机制奠定了理论依据。     

水母雪莲黄酮合成酶FNSII基因克隆及其在3种细胞系中的表达

水母雪莲是中国传统珍稀药材,其主要活性成分之一木犀草素具有预防和治疗癌症的功效。以水母雪莲绿色细胞系为试材,采用RT-PCR和RACE-PCR方法获得1个水母雪莲FNSII基因cDNA全长,命名为SmFNSII(GenBank登录号为KF170286)。序列分析结果表明:SmFNSII全长1 710 bp,包含34 bp的5?非编码区、125 bp的3?非编码区和1个长度为1 551 bp编码516个氨基酸的开放阅读框。氨基酸序列分析表明SmFNSII属于细胞色素P450 CYP93B亚家族单氧化酶。序列比对和系统进化分析表明,SmFNSII氨基酸序列与同科植物毛山柳菊的亲缘关系最近,相似性达87%以上。实时荧光定量PCR分析表明,SmFNSII在白色、绿色和红色细胞系均有表达,红色系中的表达量最高,白色系中表达量最低,此结果与高效液相色谱分析3种颜色细胞系中木犀草素含量结果一致。构建pET-SmFNSII原核表达重组质粒,并在大肠杆菌中诱导表达,诱导蛋白大小与预期一致。通过筛选FNSII基因表达水平高、高产木犀草素的水母雪莲细胞系和植株,可培育抗炎抗癌活性较高、具有高保健功能的雪莲生药新品种。     

Molecular cloning and mRNA expression analysis of a novel rice (Oryzasativa L.) MAPK kinase kinase,OsEDR1, an ortholog of Arabidopsis AtEDR1, reveal its role in defense/stress signalling pathways and development

Mitogen-activated protein kinase (MAPK) cascade(s) is important for plant defense/stress responses. Though MAPKs have been identified and characterized in rice (Oryza sativa L.), a monocot cereal crop research model, the first upstream component of the kinase cascade, namely MAPK kinase kinase (MAPKKK) has not yet been identified. Here we report the cloning of a novel rice gene encoding a MAPKKK, OsEDR1, designated based on its homology with the Arabidopsis MAPKKK, AtEDR1. OsEDR1, a single copy gene in the genome of rice, encodes a predicted protein with molecular mass of 113046.13 and a pI of 9.03. Using our established two-week-old rice seedling in vitro model system, we show that OsEDR1 has a constitutive expression in seedling leaves and is further up-regulated within 15 min upon wounding by cut, treatment with the global signals jasmonic acid (JA), salicylic acid (SA), ethylene (ethephon, ET), abscisic acid, and hydrogen peroxide. In addition, protein phosphatase inhibitors, fungal elicitor chitosan, drought, high salt and sugar, and heavy metals also dramatically induce its expression. Moreover, OsEDR1 expression was altered by co-application of JA, SA, and ET, and required de novo synthesized protein factor(s) in its transient regulation. Furthermore, using an in vivo system we also show that OsEDR1 responds to changes in temperature and environmental pollutants-ozone and sulfur dioxide. Finally, OsEDR1 expression varied significantly in vegetative and reproductive tissues. These results suggest a role for OsEDR1 in defense/stress signalling pathways and development.     

岷江百合类萌发素蛋白基因LrGLP2的克隆及表达特性分析

类萌发素蛋白是植物中普遍存在的一类可溶性糖蛋白,在植物抗逆胁迫中起着重要作用。依据岷江百合编码GLP的EST序列设计引物,采用快速扩增cDNA末端技术,从岷江百合犯ilium regale Wilson）克隆得到一个新的GLＰt基因的全长eDNA序列,命名为LrGLP2。LrGLP2全长cDNA为921bp,含有654bp的开放阅读框,49bp5’非编码区以及218bp3’UTR,编码217个氨基酸的蛋白质。LrGLP2编码蛋白质与已知植物GLPs家族成员间的同源性和聚类分析表明LrGLP2与来源于水稻（Oryza sativa）、节节麦似egilopstauschii）、葡萄（Vitis vinifera）中的GLPs具有较高的相似性。qRT-PCR分析显示,LrGLP2在岷江百合正常生长发育的根中有一定量的表达,而在茎和叶中几乎检测不到表达量。水杨酸、茉莉酸以及H202处理均不同程度抑制LrGLP2的转录水平,但乙烯处理能明显诱导LrGLP2的表达。此外,岷江百合接种尖孢镰刀菌（Fusari—umoxysporumfsp．tiliO后,LrGLP2在接种后2h表达迅速上调,12h表达量急剧上升,至24h表达量达到最大值,之后表达量下降,可见￡rGLP2参与岷江百合对尖孢镰刀菌的防卫反应。     

不结球白菜BcMPK4基因的分离及表达

为了进一步探讨植物MAPKs(mitogen-activated protein kinases)在植物防卫中的作用,该研究从不结球白菜抗病品种‘苏州青’中克隆到一个抗核盘菌(Sclerotinia sclerotiorum)相关基因,命名为BcMPK4(DDBJ登录号AB557751)。该基因核苷酸序列全长1 334bp,编码373个氨基酸,与已克隆的MPK4基因有不同程度的相似性。系统进化树分析表明,该基因在不同物种之间具有保守性。基因组DNA杂交表明,BcMPK4可能属于一个较小的多基因家族,属组成型表达。实时定量PCR检测表明,核盘菌能够诱导不结球白菜BcMPK4基因的转录表达;BcMPK4基因在不结球白菜叶片中的表达特征说明它可能参与寄主对核盘菌的抗性。     

水曲柳FmJAZ1基因在非生物胁迫中的响应模式和激素诱导表达分析

克隆FmJAZ1基因,明确其在低温和NaCl胁迫中的响应模式和激素诱导下的转录表达特性。通过基因克隆的方法得到水曲柳中的FmJAZ1基因,利用生物信息学软件对所得到的序列进行分析并构建系统进化树,对水曲柳FmJAZ1基因进行了时空表达特异性的分析,对根、茎、叶、芽、雄花、雌花、种子等7个部位以及在5-9月5个月份分别取样,对水曲柳进行低温(4℃)和盐胁迫(200 mmol/L NaCl)2种非生物胁迫处理以及脱落酸(ABA)、赤霉素(GA3)、生长素(IAA)、茉莉酸(JA)、水杨酸(SA)等激素信号诱导处理,然后对试验材料进行荧光定量分析。克隆出全长为684 bp的核苷酸序列。生物信息学软件分析得到JZA1基因具有完整的开放阅读框,编码227个氨基酸,JAZ1蛋白不含有信号肽,不属于跨膜蛋白,为不稳定亲水性蛋白。时空表达结果显示,FmJAZ1基因在茎中表达量最高,且在8月份表达量最高;非生物胁迫结果表明低温处理后FmJAZ1在6h、24h表达量较高;而NaCl处理后,在24 h表达量较高,且该基因响应低温胁迫较NaCl胁迫迅速;激素信号诱导结果显示,处理后不同时间,基因表达量变化较为明显,其中GA3处理后3h最为明显,为对照组的77.3倍,分析了FmJAZ1基因在低温、NaCl胁迫和激素诱导下的表达模式。FmJAZ1基因充分响应了逆境胁迫和激素信号诱导,通过蛋白和基因层面对逆境进行响应,JAZ蛋白在其中起到了桥梁的作用,并扮演了重要的角色。     

高山离子芥铁转运蛋白基因编码序列的克隆及其抗逆性表达的实时定量分析

铁转运蛋白 (iron transport protein,IRT)是具有跨膜运输离子功能的特殊蛋白质,属于金属离子转运家族的成员．本研究运用RACE方法从高山离子芥（Chorispora bungeana）中克隆得到完整的铁转运蛋白cDNA,命名为CbIRT（基因登录号为EU330924）．该基因全长1 290 bp,包含1个1 035 bp的开放阅读框（ORF）,编码344个氨基酸的蛋白．系统进化树分析显示,该基因与拟南芥AtIRT1和遏蓝菜TcIRT-G的亲缘关系最近,同源性分别达到了87.4%和86.5%,而在氨基酸序列水平与拟南芥AtIRT1的同源性达到了89%,表明克隆得到的CbIRT属于金属离子转运体家族成员．实时荧光定量方法对高山离子芥CbIRT基因在不同温度和铁营养水平条件下的表达情况进行分析表明,CbIRT对零下低温和零上低温的表达水平呈截然不同的反应;正常铁营养状态下,CbIRT是微量表达的,而缺铁及低温处理都可以大幅度地促进该基因的表达,富铁可以抑制该基因的表达．显示了该蛋白在转运Fe离子方面的重要作用．     

漾濞大泡核桃WRKY转录因子基因JsWRKY1的克隆及表达特性分析

WRKY转录因子普遍存在于植物体内,在植物的抗病防御反应中起重要作用。本实验基于漾濞大泡核桃（Juglans sigillata）中编码WRKY转录因子的EST序列设计引物,采用快速扩增cDNA末端技术,克隆得到一个新的脓Ky基因的全长cDNA序列,命名为JsWRKY1（KJ170895）。JsWRKY1的cDNA全长为1012bp,含有564bp的开放阅读框,154bp 5’-非翻译区以及294bp的3＇-非翻译区,编码具有187个氨基酸的蛋白质。JsWRKY1编码的氨基酸序列与已知植物WRKY家族成员间的同源性和聚类分析表明JsWRKY1与来源于可可树（Theobroma cacao）和大豆（Glycinemax）中的wRKY相似性较高,属于IIc类wRKY。qRT-PCR分析结果显示,信号分子水杨酸、茉莉酸、H2O2和乙烯处理可以不同程度地诱导漾濞大泡核桃叶片中JsWRKY1的表达。此外,接种胶孢炭疽菌后JsWRKY1的表达量迅速上升,在接种后4h时达到最高水平,之后表达量逐渐下降,暗示JsWRKY1参与漾濞大泡核桃抗胶孢炭疽菌的防卫反应。