Differential expression of several E2-type ubiquitin carrier protein genes at different developmental stages inArabidopsis thaliana andNicotiana sylvestris

We characterized three genes encoding different E2-type ubiquitin carrier proteins involved in the ubiquitin-mediated proteolytic pathway:UbcAt3 shows homologies to the yeastCDC34 gene andUbcAt4a andUbcAt4b are two different genes homologous to theUbc1/4/5 subfamily in yeast. Their accumulation was analysed and compared with that of the different families encoding polyubiquitins, as well as the monoubiquitin fusion protein, which is considered as a marker for cell division, during various developmental stages including GO/S transition and senescence of higher plant cells. Our results imply that theseUbc genes are under the control of complex mechanisms, and are differentially regulated, but not necessarily co-regulated with ubiquitin genes. Even the closely relatedUbcAt4a andUbcAt4b genes of the same multigene subfamily are controlled by distinct regulatory mechanisms.     

Coordinate expression of light-harvesting chlorophyll a/b gene family of photosystem II and chlorophyll a oxygenase gene regulated by salt-induced phosphorylation in Dunaliella salina

As a stress factor, salt induces the phosphorylation of light-harvesting chlorophyll (Chl) a/b proteins (LHCII) in Dunaliella salina. In this study, we found that the salt-induced phosphorylation of LHCII was not affected by phosphatase, and that salt simultaneously regulated both the phosphorylation of LHCII and the expression of genes encoding light-harvesting Chl a/b proteins of photosystem II (lhcb) and the gene encoding Chl a oxygenase (cao) in dark-adapted D. salina. The mRNA accumulation patterns of lhcb and cao were similar, which further affected the size of LHCII and the ratio of Chl a to Chl b. Therefore, we inferred this simultaneous regulation is one of the mechanisms of D. salina to adapt to the high-salinity environment.     

Structure, organization and expression of the metallothionein gene family inArabidopsis

Metallothioneins (MTs) are cysteine-rich proteins required for heavy metal tolerance in animals and fungi. Recent results indicate that plants also possess functional metallothionein genes. Here we report the cloning and characterization of five metallothionein genes fromArabidopsis thaliana. The position of the single intron in each gene is conserved. The proteins encoded by these genes can be divided into two groups (MT1 and MT2) based on the presence or absence of a central domain separating two cysteine-rich domains. Four of the MT genes (MT1a,MT1c,MT2a andMT2b) are transcribed inArabidopsis. Several lines of evidence suggest that the fifth gene,MT1b, is inactive. There is differential regulation of the MT gene family. MT1 mRNA is expressed highly in roots, moderately in leaves and is barely detected in inflorescences and siliques. MT2a and MT2b mRNAs are more abundant in leaves, inflorescences and in roots from mature plants, but are also detected in roots of young plants, and in siliques. MT2a mRNA is strongly induced in seedlings by CUSO₄, whereas MT2b mRNA is relatively abundant in this tissue and levels increase only slightly upon exposure to copper.MT1a andMT1c are located within 2 kb of each other and have been mapped to chromosome 1.MT1b andMT2b map to separate loci on chromosome V, andMT2a is located on chromosome III. The locations of these MT genes are different from that ofCAD1, a gene involved in cadmium tolerance inArabidopsis.     

Evolutionary conservation and DNA binding properties of the Ssh7 proteins fromSulfolobus shibatae

The thermoacidophilic archaeonSulfolobus shibatae synthesizes a large amount of the 7-ku DNA binding proteins known as Ssh7. Our hybridization experiments showed that two Ssh7-encoding genes existed in the genome of S.shibatae. These two genes, designatedssh7a andssh7b, have been cloned, sequenced and expressed inEscherichia coli. The two Ssh7 proteins differ only at three amino acid positions. In addition, thecis-regulatory sequences of thessh7a andssh7b genes are highly conserved. These results suggest the presence of a selective pressure to maintain not only the sequence but also the expression of the two genes. We have also found that there are two genes encoding the 7-ku protein inSulfolobus solfataricus. Based on this and other studies, we suggest that the gene encoding the 7-ku protein underwent duplication before the separation ofSulfolobus species. Binding of native Ssh7 and recombinant (r)Ssh7 to short duplex DNA fragments was analyzed by electrophoretic mobility shift assays. Both native and recombinant forms of the protein behaved in a similar fashion in the assays, suggesting that the interaction of Ssh7 with DNA is not affected either by specific lysine methylation found in the native Ssh7 proteins or by the difference between the two Ssh7 isomers in amino acid sequence. Our data show that Ssh7 binds duplex DNA fragments with a binding size of ∼ 6.6 base pairs and an apparent dissociation constant of (0.7–1.0) × 10^-7 mol/L under the assay conditions employed in the present study. In addition, Ssh7 binds more tightly to negatively supercoiled DNA than to linear or relaxed DNA.     

Characterization and Molecular Genetic Complementation of Mutants Affecting Dimorphism in the FungusUstilago maydis

Ustilago maydis,the causal agent of corn smut disease, displays dimorphic growth in which it alternates between a unicellular, nonpathogenic yeast-like form and a dikaryotic, pathogenic filamentous form. Previously, a constitutively filamentous haploid mutant was obtained. Complementation of this mutant led to the isolation of the gene encoding adenylate cyclase,uac1.Secondary mutagenesis of auac1disruption strain allowed the isolation of a large number of suppressor mutants, termedubc,forUstilagobypass of cyclase, lacking the filamentous phenotype. Analysis of one of these suppressor mutants previously led to the identification of theubc1gene, encoding the regulatory subunit of cAMP-dependent protein kinase. In this report we describe the isolation of cosmids containing three newubcgenes, termedubc2, ubc3,andubc4.We also describe the morphology of theubc2, ubc3,andubc4mutants in auac1⁻background as well as in a background with a functionaluac1gene. In addition, we describe several mutant strains not complemented with any of the genes currently in hand and that are thus presumed to possess mutations in additionalubcgenes.     

A SNP associated with alternative splicing of RPT5b causes unequal redundancy between RPT5a and RPT5b among Arabidopsis thaliana natural variation

Background  

The proteasome subunit RPT5, which is essential for gametophyte development, is encoded by two genes in Arabidopsis thaliana; RPT5a and RPT5b. We showed previously that RPT5a and RPT5b are fully redundant in the Columbia (Col-0) accession, whereas in the Wassilewskia accession (Ws-4), RPT5b does not complement the effect of a strong rpt5a mutation in the male gametophyte, and only partially complements rpt5a mutation in the sporophyte. RPT5b ^Col-0 and RPT5b ^Ws-4 differ by only two SNPs, one located in the promoter and the other in the seventh intron of the gene.     

巴斯德毕赤酵母不同生长阶段内参基因的筛选与验证

【背景】巴斯德毕赤酵母(Komagataella phaffii)是一种甲基营养型酵母,近年来作为生产重组蛋白和构建生物合成途径的细胞工厂受到广泛关注。实时荧光定量PCR (real-time quantitative PCR,RT-qPCR)是巴斯德毕赤酵母表达系统研究中一种快速、高效的基因表达水平检测技术,但需要进行归一化处理才能保证所得结果的可靠性。【目的】筛选并验证巴斯德毕赤酵母在不同生长阶段最稳定的内参基因用于精准归一化RT-qPCR的结果。【方法】通过转录组数据分析初步筛选出16个候选内参基因(rps8b、rpl35a、rpl10、eif5a、rpl19a、por1、rpl23b、0887、tif1、ole1、rpl14b、gs、sun、sdh2、trx1和ccp1)。通过RT-qPCR技术得到候选内参基因的C_t值,利用qBASE软件中的geNorm程序综合NormFinder算法评估内参基因的表达稳定性。【结果】通过geNorm分析得出精准归一化所需的最佳内参基因个数为2,最稳定的基因是rpl19a和tif1,NormFinder分析得到稳定性最高的内参基因为tif1。此外,利用甲酸脱氢酶编码基因fdh和乙醇脱氢酶甲醛脱氢酶双功能酶的编码基因afdh对候选内参基因进行验证。【结论】巴斯德毕赤酵母不同生长阶段的RT-qPCR进行精准归一化需要tif1和rpl19a这2个内参基因,为相关功能基因的表达定量提供了可靠的分析依据,补充了RT-qPCR分析中的内参基因,为巴斯德毕赤酵母不同生长阶段的基因表达调控及其应用研究提供了新的参考。     

Composition and phylogenetic analysis of wheat cryptochrome gene family

Cryptochrome (CRY) gene family encodes photoreceptors mediating developmental responses to blue light throughout the life of plants. We report here the characterization of CRY gene family in hexaploid wheat. Degenerate PCR amplification of the regions encoding the conserved flavin-binding domain of CRY proteins yielded seven bands, resulting from amplification of CRY1a, CRY1b and CRY2 homologous genes. Assignment of individual amplicons to subgenomes was accomplished by comparing their sequence compositions with those from the ancestor species of wheat. ESTs coding for CRY-DASH like proteins were identified in wheat EST database in GenBank. Southern blot showed that TaCRY1a, TaCRY1b and TaCRY2 are single copy genes. We mapped TaCRY1a and TaCRY2 to chromosomes of homoeologous group 6, TaCRY1b to group 2, and TaCRY-DASH to group 7. Phylogenetic analysis showed that CRY subfamily diversification occurred before the divergence of monocots and dicots. The regulatory and functional changes of CRY members within subfamily are discussed.     

甘蓝型油菜热激转录因子的克隆及表达分析

以甘蓝型纯系油菜为试材,用RT-PCR和RACE方法首次从油菜种子中获得油菜热激转录因子的cDNA全长序列,命名为BnHSFA4a,GenBank登录号为HQ435241。结果表明:该cDNA长1 667bp,编码1个具有389aa的蛋白质,该基因编码的氨基酸序列与拟南芥热激转录因子AtHSFA4a编码的氨基酸序列间相似度为82%。对34条编码不同热激转录因子的氨基酸序列进行多重比对,结果在100～190aa处序列间氨基酸总相似性超过60%,显示出较高的保守性。构建原核表达载体并成功表达出预期蛋白。半定量RT-PCR结果显示,该基因的表达先于油菜肌醇半乳糖苷合成酶(BnGOLS1)基因,符合该基因调控BnGOLS1的假设。推测AtHSFA4a基因可能通过调控BnGOLS1的表达量进而在油菜种子脱水耐性获得过程中发挥一定的作用。     

A nomenclature for the genes encoding the chlorophylla/b-binding proteins of higher plants

We propose a nomenclature for the genes encoding the chlorophylla/b-binding proteins of the light-harvesting complexes of photosystem I and II. The genes encoding LHC I and LHC II polypeptides are namedLhca1 throughLhca4 andLhcb1 throughLhcb6, respectively. The proposal follows the general format recommended by the Commision on Plant Gene Nomenclature. We also present a table for the conversion of old gene names to the new nomenclature.     

甘菊3个ClSCL6基因的克隆及表达分析

GRAS家族HAM亚家族基因是维持植物茎端分生组织(shoot apical meristem,SAM)未分化状态的重要因子,并影响着植物的成花转化进程。该研究基于转录组数据中甘菊(Chrysanthemum lavandulifolium)HAM亚家族基因同源序列设计引物,利用RT PCR技术从甘菊中克隆得到3个HAM类基因。序列分析结果表明,所克隆的3个基因开放阅读框长度分别为1 845、1 479和1 881 bp,分别编码614、492和626个氨基酸。Blastp分析显示,3个基因的编码蛋白均含有典型HAM亚家族蛋白特征,并与菊科植物黄花蒿(Artemisia annua)SCL6蛋白具有较高的一致性,分别达到了94.39%、91.90%和94.27%。进一步分析表明,3个基因的编码蛋白与所有拟南芥GRAS家族中的SCL6蛋白进化关系最近,故将其分别命名为ClSCL6a、ClSCL6b和ClSCL6c。荧光定量分析显示,3个ClSCL6基因均在甘菊茎中表达量最高,而在根和花中表达量普遍较低。在不同发育时期的花器官中,3个ClSCL6基因均有表达,其中ClSCL6a在管状花花粉散开前达到表达高峰,ClSCL6b和ClSCL6c则在小花蕾时期表达量最高,在其他时期表达水平差异不大。该研究结果为进一步研究ClSCL6在菊花成花转化过程中的功能奠定了基础。     

Chromosomal Mapping ofTmp(Emp1),Xmp(Emp2), andYmp(Emp3), Genes Encoding Membrane Proteins Related toPmp22

We have recently characterized a novel mammalian gene family, encoding membrane glycoproteins with four trans-membrane domains. This gene family includes the previously studiedPMP22,which is involved in the Charcot–Marie–Tooth neuropathy, and three novel genes:TMP, XMP,andYMP(HGMW-approved symbolsEMP1, EMP2andEMP3,respectively). TheTmp(tumor-associated membrane protein) gene was isolated from a c-mycinduced mouse brain tumor and is expressed in several highly proliferative cell types. We have now isolated cDNAs of the mouseXmpandYmpgenes and determined the chromosomal localization of mouseTmp, Xmp,andYmp. Tmpwas mapped to mouse chromosome 6,Xmpwas mapped to chromosome 16, andYmpwas mapped to chromosome 7.TmpandYmpmap to paralogous chromosomal regions, whereasXmpmaps to a chromosomal region that is putatively paralogous to a region on chromosome 11, to whichPmp22was previously mapped. These data suggest that this family of membrane glycoproteins evolved as a result of chromosomal duplications.     

At UBP3 and At UBP4 are two closely related Arabidopsis thaliana ubiquitin-specific proteases present in the nucleus

The ubiquitin-specific proteases (UBPs) are a class of enzymes vital to the ubiquitin pathway. These enzymes cleave ubiquitin at its C-terminus from two types of substrates containing (i) ubiquitin in an α-amino linkage, as found in the primary ubiquitin translation products, polyubiquitin and ubiquitin-ribosomal fusion proteins, or (ii) ubiquitin in an ɛ-amino linkage, as found in multiubiquitin chains either unattached or conjugated to cellular proteins. We have isolated cDNAs for two Arabidopsis thaliana genes, AtUBP3 and AtUBP4, which encode UBPs that are 93% identical. These two cDNAs represent the only two members of this subgroup and encode the smallest UBPs described to date in any organism. Using in vivo assays in Escherichia coli that allow the coexpression of a UBP with a putative substrate, we have shown that AtUBP3 and AtUBP4 can specifically deubiquitinate the artificial substrate Ub-X-β-gal but cannot act upon the natural α-amino-linked ubiquitin fusions Arabidopsis Ub-CEP52 and Arabidopsis polyubiquitin. Affinity-purified antibody prepared against AtUBP3 expressed in E. coli recognizes both AtUBP3 and AtUBP4. AtUBP3 and/or AtUBP4 are present in all Arabidopsis organs examined and at multiple developmental stages. Subcellular localization studies show that AtUBP3 and/or AtUBP4 are present in nuclear extracts. Possible physiological roles for these UBPs are discussed. Received: 14 November 1996 / Accepted: 6 February 1997     

Molecular characterization of the rbcS multi-gene family of Petunia (Mitchell)

Summary The small subunit (RbcS) of ribulose bisphosphate carboxylase (RuBPCase) is encoded by eight genes in Petunia (Mitchell). These genes can be divided into three subfamilies (51, 117 and 71) based upon hybridization to three petunia rbcS cDNA clones. The nucleotide sequence of six of the eight petunia rbcS genes is presented here and the structure of the genes is discussed with respect to their genomic linkage and their expression levels in petunia leaf tissue. The rbcS genes belonging to the same subfamily encode an identical mature RbcS polypeptide, however the different subfamilies encode distinguishable polypeptides. All the genes, except one, contian two introns within the mature subunit coding region; one gene contains one extra intron within the coding region. There are large regions of nucleotide sequence homology within the introns of genes within a subfamily, but significantly less homology between the introns of genes of different subfamilies. A complex pattern of homology within the multiple genes of the 51 subfamily is observed. There are regions within these genes which share high levels of sequence homology; this homology does not extend throughout the whole gene and the regions of homology do not always occur in adjacent genes. Two 3 rbcS gene fragments which we isolated from the petunia genome show high levels of homology to two of the intact rbcS genes.     

Evolutionary conservation and DNA binding properties of the Ssh7 proteins fromSulfolobus shibatae

The thermoacidophilic archaeon Sulfolobus shibatae synthesizes a large amount of the 7-ku DNA binding proteins known as Ssh7. Our hybridization experiments showed that two Ssh7-encoding genes existed in the genome of S. shibatae. These two genes, designated ssh7a and ssh7b, have been cloned, sequenced and expressed in Escherichia coli. The two Ssh7 proteins differ only at three amino acid positions. In addition, the cis-regulatory sequences of the ssh7a and ssh7b genes are highly conserved. These results suggest the presence of a selective pressure to maintain not only the sequence but also the expression of the two genes. We have also found that there are two genes encoding the 7-ku protein in Sulfolobus solfataricus. Based on this and other studies, we suggest that the gene encoding the 7-ku protein underwent duplication before the separation of Sulfolobus species. Binding of native Ssh7 and recombinant (r)Ssh7 to short duplex DNA fragments was analyzed by electrophoretic mobility shift assays. Both native and recombinant forms of the protein behaved in a similar fashion in the assays, suggesting that the interaction of Ssh7 with DNA is not affected either by specific lysine methylation found in the native Ssh7 proteins or by the difference between the two Ssh7 isomers in amino acid sequence. Our data show that Ssh7 binds duplex DNA fragments with a binding size of ~ 6.6 base pairs and an apparent dissociation constant of (0.7—1.0)×10^-7 mol/L under the assay conditions employed in the present study. In addition, Ssh7 binds more tightly to negatively supercoiled DNA than to linear or relaxed DNA. :     

Sequence analysis and phylogenetic reconstruction of the genes encoding the large and small subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase from the chlorophyllb-containing prokaryoteProchlorothrix hollandica

Summary Prochlorophytes similar toProchloron sp. andProchlorothrix hollandica have been suggested as possible progenitors of the plastids of green algae and land plants because they are prokaryotic organisms that possess chlorophyllb (chlb). We have sequenced theProchlorothrix genes encoding the large and small subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco),rbcL andrbcS, for comparison with those of other taxa to assess the phylogenetic relationship of this species. Length differences in the large subunit polypeptide among all sequences compared occur primarily at the amino terminus, where numerous short gaps are present, and at the carboxy terminus, where sequences ofAlcaligenes eutrophus and non-chlorophyllb algae are several amino acids longer. Some domains in the small subunit polypeptide are conserved among all sequences analyzed, yet in other domains the sequences of different phylogenetic groups exhibit specific structural characteristics. Phylogenetic analyses ofrbcL andrbcS using Wagner parsimony analysis of deduced amino acid sequences indicate thatProchlorothrix is more closely related to cyanobacteria than to the green plastid lineage. The molecular phylogenies suggest that plastids originated by at least three separate primary endosymbiotic events, i.e., once each leading to green algae and land plants, to red algae, and toCyanophora paradoxa. TheProchlorothrix rubisco genes show a strong GC bias, with 68% of the third codon positions being G or C. Factors that may affect the GC content of different genomes are discussed.     

Evolution and divergence in the coding and promoter regions of the Populus gene family encoding xyloglucan endotransglycosylase/hydrolases

Xyloglucan endotransglycosylase/hydrolases (XTHs) are believed to modify the cell wall structure by cleaving a xyloglucan polymer and transferring the newly generated, potentially reducing, terminal to another xyloglucan. We report here the detailed analysis of 37 Populus trichocarpa XTH genes/proteins in their divergence in both the coding and 5′ promoter regions. Our results show that the Populus XTH genes have experienced whole-genome and local duplications and pre- and post-speciation divergence. Genome-wide and segmental duplications seem to be dominant in subfamily I and III, while tandem duplication seems to be the major mechanism for the subfamily II expansion, which also has higher average ratios of K _a/K _s compared to those in subfamily I and III. There was a general lack of organ-specific gene expression. In contrast, the expression patterns in subfamily II varied in response to various hormone treatments, with II-A being up-regulated and II-B down-regulated after 2 h of hormone treatment. Expression for this subfamily was verified using the 1.5-kb PtXTH22 promoter that was fused with the GUS reporter gene and transformed into Arabidopsis. The PtXTH22 promoter contains auxin response element, ethylene insensitive 3-like factors, and brassinosteroid response cis-elements. Histochemical GUS staining of transgenic Arabidopsis seedlings confirmed that the PtXTH22 promoter was up-regulated by several hormones.