Tissue-specific,light-regulated and plastid-regulated expression of the single-copy nuclear gene encoding the chloroplast Rieske FeS protein of Arabidopsis thaliana

The single-copy PetC gene encoding the chloroplast Rieske FeS protein of Arabidopsis thaliana consists of five exons interrupted by four introns and encodes a protein of 229 amino acid residues with extensive sequence similarity to the chloroplast Rieske proteins of other higher plants. The N-terminal 50 amino acid residues constitute a presequence for targeting to the chloroplast and the remaining 179 amino acid residues make up the mature protein. Three of the introns are in identical positions in the PetC gene of Chlamydomonas reinhardtii, suggesting that they are of ancient origin. RNA-blot hybridisation showed that the gene was expressed in shoots, but not roots, and was light regulated and repressed by sucrose. The expression of chimeric genes consisting of PetC promoter fragments fused to the beta-glucuronidase (GUS) reporter gene was examined in A. thaliana and tobacco. In A. thaliana, GUS activity was detected in leaves, stems, flowers and siliques, but not in roots, and showed a strong correlation with the presence of chloroplasts. In transgenic tobacco, low levels of GUS activity were also detected in light-exposed roots. GUS activity in transgenic tobacco seedlings was light regulated and was decreased by norflurazon in the light suggesting regulation of PetC expression by plastid signals.     

一种受抗生素诱导的启动子的构建及活性分析

多聚ADP核糖聚合酶（PARP）受基因毒剂的特异性诱导。将拟南芥（Arabidopsis thaliana）AtPARP1基因上游长2179bp的启动子片段插入到质粒pAKK687的β-葡萄糖醛酸糖苷酶（GUS）报告基因上游,转化拟南芥。GUS组织化学染色结果表明,GUS报告基因仅在苗龄3-5天的拟南芥根部及花发育早期的雄蕊中表达;1.5μg.mL-1博莱霉素与22μg.mL-1丝裂霉素联用强烈诱导了GUS报告基因的表达（尤其在拟南芥的幼苗和果荚中）。进一步降低抗生素浓度,发现单独使用1μg.mL-1博莱霉素对GUS报告基因也具较强的诱导活性,且对拟南芥幼苗的生长无影响。上述结果表明,AtPARP1启动子是一个新型的具较大应用潜力的抗生素诱导型启动子。     

A 126 bp fragment of a plant histone gene promoter confers preferential expression in meristems of transgenic Arabidopsis

The tissue-specific pattern of expression directed by the H4A748 Arabidopsis histone promoter was investigated by analysis of beta-glucuronidase (GUS) activity in transgenic Arabidopsis containing H4A748-GUS gene fusions. As determined by fluorimetric and histochemical tests, the H4A748 promoter directs preferential expression in meristems of young seedlings and adult plants. The low activity found in nonproliferating tissues may relate to basal constitutive expression of the histone promoter and/or to endoreduplication occurring in some tissues. The endogenous histone mRNA levels parallel the GUS activity found in different tissues. Analysis of the regulatory properties of 5' deleted promoters showed that multiple positive elements exist between -900 and -219 and that the proximal region of the promoter to -219 is sufficient to establish the full tissue-specific pattern of expression. Further deletion to -93 nearly abolished the promoter activity thus suggesting that the 126 bp fragment located between -219 and -93 contains the elements responsible for the specific expression pattern. The presence of several remarkable sequences within this fragment is discussed.     

Functional analysis of yeast-derived phytochrome A and B phycocyanobilin adducts

Investigations of phytochrome mutants of Arabidopsis suggested that the expression of chalcone synthase ( chs ) and anthocyanin accumulation is predominantly controlled by phytochrome A. To test the functionality of phytochrome A and B at the molecular level recombinant, yeast-derived phytochrome-phycocyanobilin adducts (phyA*, phyB*) and oat phytochrome A (phyA) were microinjected into etiolated aurea tomato seedlings. Subsequent to microinjection anthocyanin and chlorophyll accumulation was monitored as well as β-glucuronidase (GUS) expression mediated by light-regulated promoters ( chs , chlorophyll a/b binding protein ( lhcb1 ) and ferredoxin NADP+ oxidoreductase ( fnr )). Microinjection of phyA* under white light conditions caused anthocyanin and chlorophyll accumulation and mediated chs —GUS, lhcb1 —GUS and fnr —GUS expression. Microinjection of phyB* under identical conditions induced chlorophyll accumulation and mediated lhcb1 —GUS and fnr —GUS expression but neither anthocyanin accumulation nor chs —GUS expression were observed. The characterization of Arabidopsis phytochrome mutants and the microinjection experiments suggested that phyB cannot induce the accumulation of juvenile anthocyanin. Microinjections under far-red light conditions demonstrated that phyA can act independently of other photoreceptors. By contrast, phyB* injections under red light conditions indicated that phyB* needs interactions with other photoreceptors to mediate a rapid and efficient de-etiolation signal.     

拟南芥AtNHX6基因启动子的克隆及表达分析

为了探明拟南芥内膜反向转运体AtNHX6基因的组织表达模式,从基因组中克隆了AtNHX6基因开放阅读框(ORF)上游侧翼调控区1 922bp序列,并成功构建AtNHX6基因启动子与GUS融合表达载体pCAM-BIA1381-proNHX6-GUS,通过农杆菌花序浸染法转化野生型拟南芥获得T3代纯合转基因拟南芥株系,经PCR检测扩增得到2 187bp目的条带。利用组织染色法鉴定转基因拟南芥的GUS表达模式发现,在子叶、下胚轴和花中GUS活性显著。在这些广泛表达的部位中,微管系统中的表达最为显著,真叶中只有局部检测到GUS表达;在根中GUS在根毛和侧根生长部位表达;在未成熟果荚中只有在果荚顶端和基部存在GUS活性,成熟果荚中只在果柄检测到GUS表达;在花中,雄蕊的花丝和花粉粒及雌蕊的柱头中检测到GUS表达。GUS染色分析结果表明,AtNHX6基因启动子与GUS的融合表达载体成功构建并正常启动GUS基因表达,且AtNHX6基因主要在拟南芥的子叶、下胚轴、根、花、果荚中的微管系统、根毛和侧根生长部位以及花丝、花粉、柱头中表达。     

Localization of expression of KNAT3, a class 2 knotted1-like gene

KNAT3 is a class 2 kn1 -like gene in Arabidopsis thaliana . The RNA expression patterns of KNAT3 were characterized through the use of promoter-GUS fusion analysis and in situ hybridization. KNAT3 is expressed in several tissues and at several times during development. There are three main expression patterns: (1) during early organ development in young leaves, buds and pedicels; (2) at and near the junction between two organs at specific times during development, including the hypocotyl-root boundary in young seedlings, the anther-filament junction in mature flowers, and the ovule-funiculus and peduncle-silique boundaries in elongating siliques; and (3) in maturing tissues such as the style of elongating siliques, the petioles of maturing leaves, and most of the root. The varied expression patterns may indicate that KNAT3 plays several different roles in plants, depending on when and where it is expressed. Previous work on KNAT3 (Serikawa et al. , 1996) indicated that expression of its RNA is regulated by light. Promoter-GUS seedlings were grown under different light conditions (continuous white, red and far-red light) to examine more closely the light regulation of the KNAT3 promoter. Continuous white light resulted in stronger overall GUS staining in the same patterns seen in seedlings grown under long-day conditions (cotyledons, upper hypocotyl and roots). Continuous red light resulted in reduced GUS expression in those same tissues. Continuous far-red light led to seedlings showing stronger staining in the hypocotyl and cotyledons than red light-grown plants but no staining in the roots. Thus, the KNAT3 promoter responds differently to red and far-red light.     

The Arabidopsis floral homeotic gene PISTILLATA is regulated by discrete cis-elements responsive to induction and maintenance signals

PISTILLATA is a B-class floral organ identity gene required for the normal development of petals and stamens in Arabidopsis. PISTILLATA expression is induced in the stage 3 flowers (early expression) and is maintained until anthesis (late expression). To explore in more detail the developmentally regulated gene expression of PISTILLATA, we have analyzed the PISTILLATA promoter using uidA (beta)-glucuronidase gene) fusion constructs (PI::GUS) in transgenic Arabidopsis. Promoter deletion analyses suggest that early PISTILLATA expression is mediated by the distal region and that late expression is mediated by the proximal region. Based on the PI::GUS expression patterns in the loss- and gain-of-function alleles of meristem or organ identity genes, we have shown that LEAFY and UNUSUAL FLORAL ORGANS induce PISTILLATA expression in a flower-independent manner via a distal promoter, and that PISTILLATA and APETALA3 maintain PISTILLATA expression (autoregulation) in the later stages of flower development via a proximal promoter. In addition, we have demonstrated that de novo protein synthesis is required for the PISTILLATA autoregulatory circuit.     

Expression of an auxin-inducible promoter of tobacco in Arabidopsis thaliana

The expression of the auxin-inducible Nt103-1 gene of tobacco was studied in Arabidopsis thaliana. For this purpose we introduced a gene fusion between the promoter of the gene and the -glucuronidase reporter gene (GUS) into Arabidopsis thaliana. The expression and location of GUS activity were studied histochemically in time and after incubation of seedlings on medium containing auxins or other compounds. The auxins 2,4-dichlorophenoxyacetic acid (2,4-D), indole-3-acetic acid (IAA), and 1-naphthylacetic acid (1-NAA) were able to induce GUS activity in the root tips of transgenic seedlings. The auxin transport inhibitor 2,3,5-triiodobenzoic acid was able to induce GUS activity not only in the root tip, but also in other parts of the root. Induction by the inactive auxin analog 3,5-dichlorophenoxyacetic acid was much weaker. Compounds like glutathione and the heavy metal CuSO₄ were weak inducers. GUS activity observed after induction by glutathione was located in the transition zone. Salicylic acid and compounds increasing the concentration of hydrogen peroxide in the cell were also very well able to induce GUS activity in the roots. The possible involvement of hydrogen peroxide as a second messenger in the pathway leading to the induction of the Nt103-1 promoter is discussed.