Protein-DNA interaction within one cloned chloroplast DNA replication origin of Chlamydomonas

Summary A partially purified algal protein mixture which supports in vitro DNA replication consists of soluble proteins and proteins extracted from thylakoid membrane. The membrane extract is essential for the specific initiation of replication at a displacement loop (D-loop) site previously mapped by electron microscopy. D-loop site and its flanking sequences have been cloned and sequenced. In this study, fragment-retention assays using various subclones of the sequenced region indicate that some proteins in the membrane extract bind strongly and specifically with a 494 bp restriction fragment which partially overlaps the D-loop site. Protein gel analyses of the protein-DNA complex identify three DNA-binding polypeptides with apparent molecular weights of 18, 24 and 26 kDa, respectively. Treatment with chloramphenicol, an inhibitor of chloroplast protein synthesis, for 1 h has no obvious effect on the contents of the 24 or 26 kDa polypeptides but significantly reduces the content of the 18 kDa polypeptide in the membrane extract.     

Cloning of Petunia hybrida chloroplast DNA sequences capable of autonomous replication in yeast

Summary Sequences from Petunia hybrida chloroplast DNA which have the property to promote autonomous replication in Saccharomyces cerevisiae were cloned in vector YIp5. Seven cloned chloroplast DNA fragments are localized at one of two different sites on the chloroplast genome. One site, arsA was mapped on a 1.8 Kb fragment at position 27.0–28.8 Kb on the P. hybrida chloroplast genome. The plasmids containing this arsA are stable both in yeast and E. coli. The other site, arsB, was shown to be very unstable and is located either in the small single copy region close to the inverted repeat or just in the inverted repeat. The functioning of these sequences as a possible origin of replication in vivo is discussed.     

矮牵牛花色基因工程研究进展

矮牵牛花色素苷生物合成过程中至少有12种酶参与,除了AAT、AMT之外的大多数相关合成酶结构基因已经被克隆,调节基因An2、An4及酶活性调节基因difF也先后从矮牵牛中分离出来.多种花色基因如DFR、F3'5'H、CHS、CHI、CHR、Lc等转化矮牵牛都能影响花色,外源CHS导入还会引起雄性不育.该文主要对近年来国内外有关矮牵牛花色相关基因的分离、应用及外源基因转入三方面的研究进展进行综述,并对矮牵牛花色基因工程研究的应用前景进行了讨论.     

Characterization of a chloroplast DNA sequence from Chlorella ellipsoidea that promotes autonomous replication in yeast

Summary An EcoRI 2.7 kbp fragment from Chlorella ellipsoidea chloroplast DNA (cpDNA) cloned in YIp5 was shown to promote autonomous replication in Saccharomyces cerevisiae. The fragment was localized in the small single copy region close to the inverted repeat. The ARS activity (autonomously replicating sequences in yeast) was found to be confined within a subclone of a ca. 300 bp HindIII fragment. Sequence analysis of this fragment revealed its high AT content and the presence of several direct and inverted repeats and a few elements that were related to the yeast ARS consensus sequence. Electron microscopic studies revealed that this sequence did not coincide with the primary replication origin of chloroplast DNA. The functioning of this sequence as a possible origin of plasmid replication in vivo is discussed. This is the first report on Chlorella cpDNA sequence. re]19850821 rv]19851211 ac]19851216     

矮牵牛中查尔酮合成酶基因A (chsA) 2个启动子的克隆和分析

查尔酮合成酶(chalcone synthase,CHS)是类黄酮类物质生物合成途径中的第一个关键酶,其控制基因chs为超家族基因.根据前人报道的矮牵牛查尔酮合成酶基因A(chsA)启动子的保守序列设计1对特异性引物,从矮牵牛基因组DNA中通过1次PCR同时扩增出长为550 bp和354 bp的启动子(分别命名为PchsA-L和PchsA-S,GenBank登录号:EF199747和EF199748),其中PchsA-L与PchsA-S相比,除个别碱基有差异外,在88～269 bp多出一段182 bp的序列,其中103～201 bp含有典型的内含子特征.应用DNAStar软件分析表明2条序列均含有普通启动子的保守序列TATA box、CCAAT box、capsite(CCATAA),并含有花中特异表达启动子的特征序列TACPyAT box、anther box(TAGAAGTGACAGAAAT)、G-box(CACGTG)、box1元件(ATGTCACGTGCCATC)和box2元件(TGTGTTGAAGGTTTGCTA).对克隆启动子所用的矮牵牛后代群体进行分析,130个单株中只含有PchsA-S的有13株,只含有PchsA-L的有20株,同时含有2个启动子的有97株.2个启动子在后代中发生了分离,但其分离比并不符合1∶2∶1.克隆启动子所用的矮牵牛有14条染色体,为二倍体.DNA印迹表明2个启动子在基因组中均是多拷贝.qRT-PCR分析显示:未经过紫外光处理的花中以及经过紫外光处理的花中,PchsA-L启动子驱动的chsA基因与PchsA-S启动子驱动的chsA基因表达都未见明显差异;在紫外光处理的幼苗叶片中表达量相应地比紫外光处理的花中的表达量增高;在紫外光处理的幼苗叶片中,PchsA-L启动子驱动的chsA基因比PchsA-S启动子驱动的chsA基因表达量显著增高;而未经过紫外光处理的幼苗叶片中,PchsA-L启动子驱动的chsA基因、PchsA-S启动子驱动的chsA基因都没有检测到明显的表达信号.结果表明:在矮牵牛中chsA基因存在2个独立的启动子PchsA-L和PchsA-S;启动子PchsA-L中182 bp类内含子特征的序列具有显著提高chsA基因在紫外光处理的幼苗叶片中表达量的功能.     

Structure-function relationships in replication origins of the yeast Saccharomyces cerevisiae: higher-order structural organization of DNA in regions flanking the ARS consensus sequence

In order to better understand the involvement of the DNA molecule in the replication initiation process we have characterized the structure of the DNA at Autonomously Replicating Sequences (ARSs) in Saccharomyces cerevisiae. Using a new method for anti-bent DNA analysis, which allowed us to take into account the bending contribution of each successive base plate, we have investigated the higher-order structural organization of the DNA in the region which immediately surrounds the ARS consensus sequence (ACS). We have identified left- and right-handed anti-bent DNAs which flank this consensus sequence. The data show that this organization correlates with an active ACS. Analysis of the minimum nucleotide sequence providing ARS function to plasmids reveals an example where the critical nucleotides are restricted to the ACS and the right-handed anti-bent DNA domain, although most of the origins considered contained both left- and right-handed anti-bent DNAs. Moreover, mutational analysis shows that the right-handed form is necessary in order to sustain a specific DNA conformation which is correlated with the level of plasmid maintenance. A model for the role of these individual structural components of the yeast replication origin is presented. We discuss the possible role of the right-handed anti-bent DNA domain, in conjunction with the ACS, in the process of replication initiation, and potentialities offered by the combination of left- and right-handed structural components in origin function. Received: 29 October 1999 / Accepted: 14 March 2000     

The function of the nuclear matrix attachment region of silkworm rDNA as an autonomously replicating sequence in plasmid and chromosomal replication origin in yeast

Nuclear matrix attachment regions (MARs) play a crucial role in chromatin architecture, gene expression, and DNA replication. Although it is well known that yeast autonomously replicating sequences (ARSs) bind nuclear matrix and MARs also function as ARS elements in yeast, whether a heterologous MAR or ARS element acts as a replication origin in the chromosome has not been elucidated. We previously identified a MAR (rMAR) located in the nontranscribed spacer (NTS) of silkworm Attacus ricini rDNA. We report here that this rMAR contains 10 copies of ARS consensus sequence (ACS) and several DNA unwinding regions. The rMAR employs ARS activity in yeast and a rARS element locates in the 3(') region of the rMAR. Furthermore, we have also revealed that either the rMAR or the rARS element functions as a replication origin in the chromosome. Our results provide the first direct evidence to demonstrate that heterologous rMAR and rARS display chromosomal origin activity, suggesting that the chromosome structure and replication origin of rDNA reserve some common features during evolution.     

Cloning of DNA sequences from Methanococcus vannielii capable of autonomous replication in yeast

Total DNA of the archaebacterium Methanococcus vannielii was digested with BamHI or BamHI/HindIII, cloned with plasmid Yip5 and analyzed for sequences capable of autonomous replication (ARSs) in the eukaryote Saccharomyces cerevisiae. Two recombinant plasmids were isolated which contained 3.3 kb and 8 kb fragments of methanogen derived DNA with ARS activity. They exhibited low transformation efficiencies for yeast and promoted slow growth of yeast transformants.Abbreviations Ap ampicillin - ARS autonomously replicating sequence - EtBr ethidium bromide - kb kilobase(s) - Mc. Methanococcus - R resistance - RE replication enhancer - RS replication sequence - Tc tetracycline     

Roa307, a protein encoded onCoxiella burnetii plasmid QpH1, shows homology to proteins encoded in the replication origin region of bacterial chromosomes

TnphoA mutagenesis identified an open reading frame,roa307, immediately upstream of the partition locusqsopAB on theCoxiella burnetii plasmid QpH1. The protein sequence deduced fromroa307 displayed homology to Orf290 ofPseudomonas putida, Orf283 and Orf282 (SpoOJ) ofBacillus subtilis —hypothetical products of genes in the chromosomal replication origin region. Expression ofroa307 was demonstrated by PhoA activity of an Roa307-PhoA fusion.     

Bending of DNA segments with Saccharomyces cerevisiae autonomously replicating sequence activity, isolated from basidiomycete mitochondrial linear plasmids

Summary Previous studies have indicated that DNA bending is a general structural feature of sequences (ARSs) from cellular DNAs of yeasts and nuclear and mitochondrial genomic DNAs of other eukaryotes that are capable of autonomous replication in Saccharomyces cerevisiae. Here we showed that bending activity is also tightly associated with S. cerevisiae ARS function of segments cloned from mitochondrial linear DNA plasmids of the basidiomycetes Pleurotus ostreatus and Lentinus edodes. Two plasmids, designated pLPO2-like (9.4 kb), and pLPO3 (6.6 kb) were isolated from a strain of P. ostreatus. A 1029 by fragment with high-level ARS activity was cloned from pLPO3 and it contained one ARS consensus sequence (A/T)TTTAT(A/G)TTT(A/T) indispensable for activity and seven dispersed ARS consensus-like (10/11 match) sequences. A discrete bent DNA region was found to lie around 500 by upstream from the ARS consensus sequence (T-rich strand). Removal of the bent DNA region impaired ARS function. DNA bending was also implicated in the ARS function associated with a 1430 by fragment containing three consecutive ARS consensus sequences which had been cloned from the L. edodes plasmid pLLE1 (11.0 kb): the three consecutive ARSs responsible for high-level ARS function occurred in, and immediately adjacent to, a bent DNA region. A clear difference exists between the two plasmid-derived ARS fragments with respect to the distance between the bent DNA region and the ARS consensus sequence(s).     

The consensus sequence of Kluyveromyces lactis centromeres shows homology to functional centromeric DNA from Saccharomyces cerevisiae

Summary The nucleotide sequences of five of the six centromeres of the yeast Kluyveromyces lactis were determined. Mutual comparison of these sequences led to the following consensus: a short highly conserved box (5-ATCACGTGA-3) flanked by an AT-rich (±90%) stretch of ± 160 by followed by another conserved box (5-TNNTTTATGTTTCCGAAAATTAATAT-3).These three elements were named K1CDEI, K1CDEII, and K1CDEIII respectively, by analogy with the situation in Saccharomyces cerevisiae. In addition, a second 100 by AT-rich (±90%) element, named K1CDE0, was found ± 150 by upstream of K1CDEI. The sequences of both K1CDEI and K1CDEIII are highly conserved between K. lactis and S. cerevisiae; however, centromeres of K. lactis do not function in S. cerevisiae and vice versa. The most obvious differences between the centromeres of the two yeast species are the length of the AT-rich CDEII, which is 161–164 by in K. lactis versus 78–86 by in S. cerevisiae and the presence in K. lactis of K1CDEO, which is not found in S. cerevisiae.     

In addition to the ARS core, the ARS box is necessary for autonomously replicating sequences

Summary Autonomously replicating sequences (ARSs) were cloned from nuclear and mitochondrial DNA of D. melanogaster using YIp5, which is composed of pBR322 and the yeast ura3 gene, as the cloning vector and YNN27, a Ura^- yeast strain as the recipient. The nucleotide sequences of six ARSs, two from nuclear bulk, two from the nuclear 1.688 satellite, and two from mitochondorial DNA, were determined. The relationship between the transformation frequency and the inclusion of the ARS core, 5 _T ^A TT-TAT _A ^G TTT _T ^A 3, of these fragments was analysed. All the ARSs contained an ARS core or a single base change of it. However, not all the fragments that contained a single base change of the ARS core were able to transform the recipient cells, suggesting that certain bases in the ARS core were not exchangeable. It is suggested by transformation experiments with subfragments that in addition to an ARS core, an ARS box which is located within 25 bp upstream of the ARS core and whose sequence is composed of 5TNT _G ^A AA 3, is necessary for autonomous replication.     

Yeast ARS function and nuclear matrix association coincide in a short sequence from the human HPRT locus

Summary A sequence that supports extrachromosomal replication of plasmids in yeast has been identified within the first intron of the human hypoxanthine-guanine phosphori bosyltransferase (HPRT) gene. This represents the first isolation of such an autonomously replicating sequence (ARS) from an exactly known position in the human genome. This ARS shares similarities of imparted yeast phenotype and DNA sequence with other heterologus ARSs. In addition, this sequence is found to be a matrix association region (MAR) on the basis of specific binding to nuclear matrices prepared from several mammalian cell types. It also exhibits anomalous electrophoretic behavior, characteristic of bent DNA, on polyacrylamide gels. The coincidence of these properties supports the possibility that this region may play a role in DNA replication within its normal chromosomal context.     

The course of chloroplast DNA replication and its relationship to other reproductive processes in the chloroplast and nucleocytoplasmic compartment during the cell cycle of the algaScenedesmus quadricauda

Summary DNA containing structures (cellular, chloroplast and mitochondrial nuclei) were stained with the fluorochrome DAPI. Fluorescence intensity, as a measure of DNA content, was estimated during the mitotic cycle in synchronized populations of the chlorococcal alga,Scenedesmus quadricauda. In cells yielding eight daughter cells, three consecutive steps in chloroplast DNA increase occurred over one mitotic cycle. The first step was performed shortly after releasing the daughter cells, the second and third steps occurred consecutively during the first half of the mitotic cycle. Commitment to chloroplast DNA replication was chronologically separated from commitment to division of chloroplast nuclei, revealing that these two chloroplast reproductive steps were under different control mechanisms. The replication of chloroplast DNA occurred at a different time to that of cell-nuclear DNA. The coordination of chloroplast reproductive processes and those in the nucleocytoplasmic compartment were governed by the mutual trophic and metabolic dependency of these compartments rather than by any direct or feedback control controlled by either of them.Abbreviations DAPI 46-diamidino-2-phenylindole - ptDNA DNA in chloroplast nuclei - nucDNA DNA in cell nuclei     

Cloning and nucleotide sequence of the Salmonella typhimurium LT2 gnd gene and its homology with the corresponding sequence of Escherichia coli K12

Summary The complete nucleotide sequence of the Salmonella strain LT2 gnd gene for 6-phosphogluconate dehydrogenase was determined. The gene contains 1404 bases and encodes a 468 amino acid polypeptide, which is the same as for Escherichia coli K12. The DNA sequence shows 14.8% difference between the two and the amino acid sequence 3.6% difference. Changes are mostly in the third codon base and most of the amino acid changes are conservative.     

Petunia plants escape from negative selection against a transgene by silencing the foreign DNA via methylation

Summary TransgenicPetunia hybrida clones harbouring the T-DNA gene2 ofAgrobacterium tumefaciens were used to test a strategy for the trapping of plant transposable elements. In thePetunia line used, floral variegation is due to the presence of the non-autonomous transposable elementdTph1 at theAn1 locus. The gene2 product converts the auxin precursor indole-3-acetamide and its analogue 1-naphthalene acetamide into the active auxins indole-3-acetic acid and 1-naphthalene acetic acid. Plant cells that express gene2 can use a low concentration of the precursors as auxins and become sensitive to the toxicity of high concentrations of these compounds. By selecting protoplast-derived microcalli or seedlings able to grow on medium with high precursor concentrations, variant plants were obtained in which gene2 was no longer expressed. Southern analysis, using gene2-specific probes, revealed that in one variant the T-DNA was deleted. For 30 other variants no alteration in gene2 structure was observed, indicating that transposable element insertion was not responsible for the inactivation of gene2. Analysis with restriction enzymes allowing discrimination between methylated or non-methylated DNA sequences showed that the inactivated gene2 sequences were methylated. Addition of the in vivo methylation inhibitor 5-azacytidine to the medium led to reactivation of gene2 expression in some of the variants. These observations demonstrated that reversible DNA methylation was the main cause of silencing of gene2 in this system.     

Chloroplast DNA of black pine retains a residual inverted repeat lacking rRNA genes: nucleotide sequences of trnQ, trnK, psbA, trnI and trnH and the absence of rps16

Summary A physical map of black pine (Pinus thunbergii) chloroplast DNA (120 kb) was constructed and two separate portions of its nucleotide sequence were determined. One portion contains trnQ-UUG, ORF510, ORF83, trnK-UUU (ORF515 in the trnK intron), ORF22, psbA, trnI-CAU (on the opposing strand) and trnH-GUG, in that order. Sequence analysis of another portion revealed the presence of a 495 by inverted repeat containing trnI-CAU and the 3 end of psbA but lacking rRNA genes. The position of trnI-CAU is unique because most chloroplast DNAs have no gene between psbA and trnH (trnI-CAU is usually located further downstream). Black pine chloroplast DNA lacks rps16, which has been found between trnQ and trnK in angiosperm chloroplast DNAs, but possesses ORF510 instead. This ORF is highly homologous to ORF513 found in the corresponding region of liverwort chloroplast DNA and ORF563 located downstream from trnT in Chlamydomonas moewusii chloroplast DNA. A possible pathway for the evolution of black pine chloroplast DNA is discussed.