赤散囊菌MAPKs超家族的鉴定及分析

本研究以赤散囊菌Eurotium rubrum全基因组序列为对象,利用HMMER软件构建隐马尔可夫模型（hidden markov models,HMM）结合BLAST的方法鉴定了促分裂原活化蛋白激酶（mitogen-activated protein kinase,MAPK）超家族。通过构建系统发育树对鉴定蛋白进行分析,并利用MEME软件进行了保守性基序的预测及活性位点注释。分析结果表明,赤散囊菌基因组包含了4个MAPK蛋白,分别属于Hog1-type、MpkC-type、Slt2-type和Fus3/Kss1-type类型;3个MAPK kinase（MAPKK）蛋白,分别属于MKK1-type、Pbs2-type和Ste7-type类型;3个MAPK kinase kinase（MAPKKK）蛋白,分别属于BCK1-type、Ste11-type和Ssk22-type类型。保守性基序分析及注释结果表明,MAPKs超家族蛋白都包含了蛋白激酶活性位点“-D[L/I/V]K-”以及保守性的ATP-binding标签序列。MAPK与MAPKK蛋白分别包含了“-TxY-”和“-SD[I/V]WS-”磷酸化位点,且MAPK蛋白还包含一个保守性的common docking基序（CD motif）,而MAPKKK蛋白则包含了一个功能不明的保守性基序,其一致性序列为“-GTPYWMAPEV-”。研究结果为揭示MAPKs信号途径在赤散囊菌中参与调控的生物学过程奠定了基础。     

Identification of two putative ATP-cassette genes in Encephalitozoon intestinalis.

Currently existing chemotherapeutic compounds are limited and few are effective for treating microsporidiosis. It is possible that resistance of Encephalitozoon to some drugs occurs by efflux mechanisms similar to those previously described for mammalian tumour cells, bacteria or protozoal parasites such as Plasmodium, Leishmania and Entamoeba histolytica. The data in the present study suggest that Encephalitozoon intestinalis contains at least one multidrug resistance gene. We report here two complete sequences EiABC1 and EiABC2, encoding different ATP-binding cassette genes from E. intestinalis, including a P-gp.     

青海高原披碱草属种间天然杂种的细胞学鉴定

利用重复序列探针染色体荧光原位杂交（FISH）和基因组原位杂交（GISH）技术,对采自青海高原披碱草属种间天然杂种进行细胞学鉴定,同时结合物种分布及形态学特征,共揭示6种不同天然杂种的类型。第一类为垂穗披碱草（Elymus nutans Griseb.）和鹅观草属（Roegneria C.Koch）物种间的天然杂种,染色体数为35,染色体组成为StStYYH;第二类为垂穗披碱草和达乌力披碱草种（Elymus dahuricus Turcz.ex Griseb.）间杂种,染色体数为42,染色体组成为StStHHYY;第三类为达乌力披碱草和老芒麦（Elymus sibiricus L.）种间杂种,染色体数为35,染色体组成为StStHHY;第四类为垂穗披碱草和糙毛以礼草（Kengilia hirsuta Keng）种间杂种,染色体数为42,染色体组成为StStYYHP;第五类为垂穗披碱草和大颖草（Kengilia grandiglumis Keng）种间杂种,染色体数为42,染色体组成为StStYYHP;第六类为糙毛以礼草和赖草（Leymus secalinus（Georgi） Tzvel.）种间杂种,染色体数为35,染色体组成为StYPNsXm。研究结果为进一步研究披碱草属种间杂交渐渗提供了重要参考资料;同时鉴定出的天然杂种可以作为潜在的种质资源在牧草或生态草育种中加以利用。     

基于全基因组重测序技术的‘红叶’杜仲SNP位点开发

为了挖掘与‘红叶’杜仲（Eucommia ulmoides ‘Hongye’）红叶性状紧密联系的SNP位点,进一步揭示红叶性状的遗传基础和分子机理。以‘红叶’杜仲和普通绿叶杜仲‘小叶’杜仲（Eucommia ulmoides ‘Xiaoye’）为研究材料,进行覆盖深度约为10x的全基因组重测序。使用SnpEff软件预测变异位点对蛋白编码的影响,结合花色苷的代谢通路和关键酶基因,筛选与‘红叶’杜仲叶色形成相关的差异位点。利用Sanger测序二代测序筛选的SNP位点,分子标记验证群体是‘红叶’杜仲和‘小叶’杜仲。结果表明,‘红叶’杜仲测序产生Clean data为14.16 Gb,‘小叶’杜仲产生Clean data为14.29 Gb。在‘红叶’杜仲中注释到严重影响蛋白质功能的有1 516个SNP,中度影响的41 328个SNP,在‘小叶’杜仲中存在严重影响蛋白质功能的SNP为1 640个,中度影响功能的SNP为47 192个。测得26 722条基因中有228条基因是与花色苷或类黄酮合成相关的酶基因。经过筛选,确定了12个特异性的SNP位点,均属于外显子区域的错义突变。利用一代测序验证,根据SNP位置设计了7对引物,SNP准确率达到100%。     

Isolation and identification of novel protein kinase genes from the round-spotted pufferfish(Tetraodon fluviatilis) genomic DNA

The round-spotted pufferfishTetraodon fluviatilis has a genome size of 380 Mb which is slightly smaller than that of another pufferfish,Fugu rubripes rubripes (Fugu). Due to their compact genome and small introns, both pufferfishes have been proposed as model organisms for genome studies. In this study, we have used genomic DNA as template to perform PCR to screen for protein kinase (pk) genes. Forty-oneT. fluviatilis pk genes encoding 7 receptor tyrosine kinases, 14 nonreceptor tyrosine kinases, 16 serine/threonine kinases, 1 dual kinase and 3 novel kinases have been identified. The success of this approach depends on the size and location of the introns. Most of the identifiedpk gene fragments contain introns, ranging from 71 to 300 bp, with an average of 120 bp. It is noteworthy that the intron/exon boundaries of certain genes which belong to the same family are identical. We also analyzed by specific RT-PCR primers the expression profile of those 3 novel genes as well as some selectedpk genes in a variety of tissues. We found thaterbB3,pku , mrk, CaMK I,CaMKII, and two novel kinase genes (133 and 3–26) are expressed in all tissues examined. However, the novel clone 146 is strongly expressed in the brain and weakly in the intestine, kidney and heart.     

Isolation and characterization of the Neisseria meningitidis lpxD-fabZ-lpxA gene cluster involved in lipid A biosynthesis

The lpxD-fabZ-lpxA gene cluster involved in lipid A biosynthesis in Neisseria meningitidis has been cloned and sequenced. By complementation of a temperature-sensitive E. coli lpxD mutant, we first cloned a meningococcal chromosomal fragment that carries the lpxD homologue. Cloning and sequence analysis of chromosomal DNA downstream of lpxD revealed the presence of the fabZ and lpxA genes. This gene cluster shows high homology to the corresponding genes from several other bacterial species. The LpxA and LpxD proteins catalyze early steps in the lipid A biosynthetic pathway, adding the O- and N-linked 3-OH fatty acyl chains, respectively. In E. coli and N. meningitidis, LpxD has the same specificity, in both cases adding 3-OH myristoyl chains; in contrast to E. coli, the meningococcal LpxA protein is presumed to add 3-OH lauroyl chains instead. The established sequence points the way to further experiments to define the basis for this difference in specificity, and should allow modification of meningococcal lipid A biosynthesis through gene exchange.     

不同浓度新型分裂素PBU诱导的尾巨桉愈伤组织中miRNA396及CKX基因表达差异研究

尾巨桉愈伤组织的生长分化受内源激素影响,而miRNA396是一个调控植物叶片与根系生长发育的小RNA,与细胞分裂素的合成相关,CKX是负责调控细胞分裂素的氧化酶基因。为探讨miRNA396与CKX基因对尾巨桉愈伤组织生长发育的调控作用,以尾巨桉基因组为模板,进行PCR扩增及测序分析尾巨桉基因中的miRNA396序列,用不同PBU细胞分裂素浓度培养下的尾巨桉愈伤组织RNA逆转录的cDNA为模板,通过荧光定量PCR,测定不同PBU浓度处理的尾巨桉愈伤组织中miRNA396及CKX的表达差异。结果表明,相对于0.5 mg·^L(-1)PBU处理的桉树愈伤组织,1 mg·^L(-1)PBU处理的桉树愈伤组织miRNA396及CKXA、CKXB和CKXF表达量显著下调,差异达到极显著水平,CKXC、CKXD和CKXE均上调,但只有CKXC相对表达量达到极显著水平;2 mg·^L(-1)PBU处理的尾巨桉愈伤组织miRNA396A、CKXD、CKXE和CKXF表达量均下调,差异达到极显著水平,其他CKX表达量均上调,CKXA相对表达量差异...     

Bacterial orthologues indicate the malarial plastid gene ycf24 is essential

ycf24 is a well conserved gene found in all major groups of bacteria, as well as on red algal plastid genomes and the vestigal plastid genome of apicomplexan pathogens like the malaria parasite Plasmodium falciparum (ORF470). Some database annotations describe Ycf24 as an ABC transporter subunit, but we find the level of significance is low. To investigate ycf24′s function we disrupted it in the cyanobacterium Synechocystis sp., strain PCC6803 which has a multi-copy genome. This showed ycf24 is essential, partial loss producing a terminal phenotype of chlorosis, reduced cell size, loss of DNA, and a striking arrest in cytokinesis. Attempts to disrupt the single copy of ycf24 in E. coli failed to give stable transformants. When Ycf24 was over-expressed in E. coli as a soluble fusion protein, it localized mostly as a band on either side of the nucleoid and nucleoid partitioning was aberrant. We propose the relict plastid organelle of apicomplexans retains its capacity for protein synthesis because Ycf24 is essential.     

Regulation of CREB-mediated gene expression by salt inducible kinase

Salt inducible kinase (SIK) was identified as a molecule induced in the adrenal glands of rats fed with a high-salt diet. A major downstream of SIK is regulation of camp-responsive element (CRE)-dependent gene expression. SIK represses the activity of CRE-binding protein (CREB) by phosphorylating a CREB-specific co-activator transducer of regulated CREB activity (TORC). When TORC is dephosphorylated it activates CREB in a CREB-phosphorylation independent manner. The importance of the dephosphorylation of TORC has been suggested by the fact that a kinase inhibitor staurosporine induces dephosphorylation of TORC and upregulates the gene expression of CYP11A, CYP11B1, CYP11B2 and StAR in adrenocortical cells. The identification of SIK caused a stir in the field of CREB studies and led to disclosure of cascades hidden behind the classical mechanism for CREB activity.     

Expression of the measles virus nucleoprotein gene in Escherichia coli and assembly of nucleocapsid-like structures

To investigate the use of fusion systems to aid the purification of recombinant proteins for structure/function studies and potential uses as diagnostic reagents, the measles virus (MV) gene encoding the nucleoprotein was cloned and expressed in Escherichia coli in three forms: as a full-length intact protein and as two fusion proteins. Expression of the intact N gene under the control of the tac promoter in the pTrc99c plasmid produced a protein of the correct size (60 kDa) which represented approx. 4% of the total cellular protein, and was recognised by known measles positive human sera. ‘Herringbone’ structures characteristic of paramyxovirus nucleocapsids (NuC) were identified in fractured cells examined by electron microscopy. The production of NuC-like structures in a prokaryotic cell indicates folding of the nucleoprotein can occur in the absence of MV genomic RNA, other MV-encoded gene products and eukaryotic cell proteins or RNA, to produce structures which are morphologically and antigenically similar to those seen in virus-infected cells. Conversely, synthesis of N protein as a fusion protein with either E. coli β-galactosidase or the E. coli maltose-binding protein resulted in the production of fused proteins which could not be assembled into NuC-like structures or readily used as diagnostic reagents. However, the ability of MV N protein to form NuC-like structures in E. coli will facilitate structure/function and mutational analysis of the NuC protein.     

Molecular characterization and localization of Plasmodium falciparum choline kinase

Generation of phosphocholine by choline kinase is important for phosphatidylcholine biosynthesis via Kennedy pathway and phosphatidylcholine biosynthesis is essential for intraerythrocytic growth of malaria parasite. A putative gene (Gene ID PF14_0020) in chromosome 14, having highest sequence homology with choline kinase, has been identified by BLAST searches from P. falciparum genome sequence database. This gene has been PCR amplified, cloned, over-expressed and characterized. Choline kinase activity of the recombinant protein (PfCK) was validated as it catalyzed the formation of phosphocholine from choline in presence of ATP. The K_m values for choline and ATP are found to be 145 ± 20 μM and 2.5 ± 0.3 mM, respectively. PfCK can phosphorylate choline efficiently but not ethanolamine. Southern blotting indicates that PfCK is a single copy gene and it is a cytosolic protein as evidenced by Western immunoblotting and confocal microscopy. A model structure of PfCK was constructed based on the crystal structure of choline kinase of C. elegans to search the structural homology. Consistent with the homology modeling predictions, CD analysis indicates that the α and β content of PfCK are 33% and 14%, respectively. Since choline kinase plays a vital role for growth and multiplication of P. falciparum during intraerythrocytic stages, we can suggest that this well characterized PfCK may be exploited in the screening of new choline kinase inhibitors to evaluate their antimalarial activity.     

Emericella venezuelensis, a new species with stellate ascospores producing sterigmatocystin and aflatoxin B1

Emericella venezuelensis is a new species, differing from two other species with stellate ascospores, E. variecolor and E. pluriseminata, by triangular flaps on the convex sides of the ascospores, and further from E. variecolor by producing an Aspergillus anamorph only on unconventional growth media. The three species also differ in their profiles of extrolites (secondary metabolites). Emericella venezuelensis produces aflatoxin B₁, sterigmatocystin, and terrein and compounds with chromophores of the shamixanthone, emerin and desertorin type of compounds. E. variecolor produces asteltoxin, shamixanthone, asperthecin, and terrein, in addition to metabolites unequivocally recorded in the literature or tentatively identified here as astellolide A & B, andibenin A, B, C, andilesin A, B, C, anditomin, astellatol, stellatic acid, stellatin, tajixanthone, radixanthone, najamxanthone, ajamxanthone, variecoxanthone A, B, C, isoemericellin, kojic acid, varitriol, varioxiran, dihydroterrein, 7-hydroxyemodin, avariquinone and stromemycin. E. pluriseminata produces several unknown specific extrolites. E. venezuelensis is the first organism of marine origin reported to produce aflatoxin. Aflatoxin production by E. venezuelensis makes this species an attractive model organism for the study of the regulation of this important type of carcinogenic mycotoxins in combination with the knowledge on sterigmatocystin production by E. nidulans, soon to be whole genome sequenced. The isolates were also analyzed cladistically using partial sequences of the β-tubulin gene. Since three species of Emericella have stellate ascospores, and the type material of E. variecolor is equivocal, this species is epitypified with CBS 598.65. Emericella species normally do not appear to cause problems for food safety, as they are most often found in litter and soil.     

Systematic analysis of <Emphasis Type="Italic">NPK1</Emphasis>-like genes in rice reveals a stress-inducible gene cluster co-localized with a quantitative trait locus of drought resistance

Phosphorylation by protein kinase is a ubiquitous key mechanism in translating external stimuli such as drought stress. NPK1 is a mitogen-activated protein kinase kinase kinase identified in Nicotiana tabacum and plays important roles in cytokinesis and auxin signaling transduction and responses to multiple stresses. Here we report the evolution, structure, and comprehensive expression profile of 21 NPK1-like genes in rice (Oryza sativa L.). Phylogenetic analysis of NPK1-like sequences in rice (OsNPKL), Arabidopsis, and other plants reveals that NPK1-like genes could be classified into three subgroups. Three OsNPKL gene clusters, located on chromosome 1 (OsNPKL1, 2, 3, and 4), 5 (OsNPKL14 and 15), and 10 (OsNPKL19 and 20), respectively, were identified in the rice genome. These clustered genes, which most likely evolved by tandem gene duplication, belong to the same phylogenetic subgroup, with similar genomic structures and conserved motifs in the kinase domain, which is unique to this subgroup. Expression analysis of OsNPKL genes under abiotic stresses suggests that the stress-responsive genes are mainly from the same subgroup. Especially interesting is that all the clustered genes are induced by drought, salt, or cold stress, and a few members are very strongly induced by drought. Some of the clustered genes are also induced by abscisic acid. The gene cluster on chromosome 1 is co-located with a quantitative trait locus (QTL) related to drought resistance. Although the drought-induced expression levels of the four genes in the cluster show no difference between the two parents used for QTL mapping, sequence variation in coding regions of the genes between the parents has provided some clues for further functional characterization of this gene cluster in abiotic stress tolerance in rice.