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1.
Bulgakov VP Tchernoded GK Mischenko NP Shkryl YN Glazunov VP Fedoreyev SA Zhuravlev YN 《Biochemistry. Biokhimii?a》2003,68(7):795-801
It has been reported that rol plant oncogenes located in Ri-plasmids of Agrobacterium rhizogenes activated synthesis of secondary metabolites in the transformed plant cells. The activator mechanism is still unknown. In this work, we studied whether the NADPH oxidase-signaling pathway, which regulates the synthesis of defense metabolites in plants, is involved in the activator function of the rol genes. It was demonstrated that the transformation of Rubia cordifolia cells by the rolB and rolC genes caused an induction of biosynthesis of anthraquinone-type phytoalexins. Inhibition studies revealed a striking difference between the rolC and rolB transformed cultures in their sensitivity to Ca2+ channel blockers and calcium deficiency. The rolC culture displayed lowered resistance to the inhibitors compared to the non-transformed culture, while the rolB culture was more resistant to the treatment. The assumption was made that the oncogenic potential of rol genes is realized through the alteration of calcium balance in the plant cells. Anthraquinone production was not inhibited in the non-transformed and transformed cultures by Ca2+ channel blockers, as well as by diphenylene iodonium, an inhibitor of NADPH oxidase, and by the protein kinase inhibitor staurosporine. These results indicate that the induction of anthraquinone production in transgenic cultures does not involve the activation of Ca2+-dependent NADPH oxidase pathway. 相似文献
2.
前期研究表明ABL1可能在植物叶发育过程中扮演重要的角色,其突变表现为叶片生长迟缓、成熟叶片叶缘缺刻明显等生长缺陷特征。该研究利用图位克隆及其精细定位技术,将ABL1基因锁定在2个SSLP标记T23K8和T8F5之间,该区间包含44个基因。通过生物信息学成功找到ABL1突变基因为拟南芥FAS1,该基因编码染色质组装因子CAF1的一个亚基,在植物顶端分生组织生长调控中扮演重要角色。RT-PCR结果显示,该基因表达受阻,功能互补实验证实abl1突变体的确是FAS1基因的一个新等位突变。研究结果暗示,ABL1/FAS1在植物叶形态建成中也起着重要作用。 相似文献
3.
We have recently characterized Nicotiana cytoplasmic (cyt) tRNAGCA
Cys as novel UGA suppressor tRNA. Here we have isolated its corresponding (NtC1) and a variant (NtC2) gene from a genomic library of Nicotiana rustica. Both tRNACys genes are efficiently transcribed in HeLa cell nuclear extract and yield mature cyt tRNAsCys. Sequence analysis of the upstream region of the RAD51 single-copy gene of the Arabidopsis thaliana genome revealed a cluster of three tRNACys genes which have the same polarity and comprise highly similar flanking sequences. Of the three Arabidopsis tRNACys genes only one (i.e. AtC2) appears to code for a functional gene which exhibits an almost identical nucleotide sequence to NtC1. These are the first sequenced nuclear tDNAsCys of plant origin. 相似文献
4.
Fluorescence in situ hybridization (FISH) is a powerful approach for physical mapping of DNA sequences along plant chromosomes. Nematode-resistant sugar beets (Beta vulgaris) carrying aBeta procumbens translocation were investigated by FISH with two differentially labelled YACs originating from the translocation. At mitotic metaphases, the translocation was identified with both YACs in the terminal region on a pair of chromosomes. Meiotic chromosomes, representing a far more extended hybridization target, were used to determine the orientation of YACs with respect to chromosomal domains in combination with chromosomal landmark probes for telomeres and centromeres. The in situ detection of plant single-copy sequences is technically difficult, and the wild beet translocation was used to explore the potential resolution of the FISH approach and to introduce the chromosomal mapping of single-copy genes into genome analysis of Beta species. An internal fragment of the nematode resistance gene Hs1
pro–1, 684 bp long, was detected on both chromatids of different Beta chromosomes and represents one of the shortest unique DNA sequences localized on mitotic plant chromosomes so far. Comparative chromosomal mapping of the 684 bp Hs1
pro–1 probe in the translocation line, a monosomic addition line and in B. procumbens revealed the origin of the wild beet translocation leading to nematode-resistant sugar beets. 相似文献
5.
6.
The SQUA family (AP1/FUL family) of MADS-box genes plays an important role in the transition from the vegetative to the reproductive development of
angiosperms, and its origin might be concurrent with fixation of floral structure in angiosperms. Here, we isolated two Phalaenopsis MADS-box genes designated ORAP11 and ORAP13, both of which belong to the monocot FUL-like clade of the SQUA family. RT-PCR showed that both genes are strongly expressed in the floral bud, and also detected in the vegetative organs.
During later stages, ORAP11 was only detected in the column, but ORAP13 signal was absent from all of the floral organs. In-situ hybridization experiments detected both genes in the tips and margins
of developing petals and lips, the developing column, and ovule. Over-expression of both genes in tobacco induced early flowering
and changed plant architecture. Our results suggest that in Phalaenopsis, both genes might share partly redundant activities and play important roles in the process of floral transition and morphological
architecture.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
7.
Fruit trees, such as apple (Malus × domestica Borkh.), are woody perennial plants with a long juvenile phase. The biological analysis for the regulation of flowering time
provides insights into the reduction of juvenile phase and the acceleration of breeding in fruit trees. In Arabidopsis, LIKE HETEROCHROMATIN PROTEIN1 (LHP1) is involved in epigenetic silencing of the target genes such as flowering genes. We isolated and characterized twin apple
LHP1 homolog genes, MdLHP1a and MdLHP1b. These genes may have been generated as a result of ancient genome duplication. Although the putative MdLHP1 proteins showed
lower similarity to any other known plant LHP1 homologs, a chromo domain, a chromo shadow domain, and the nuclear localization
signal motifs were highly conserved among them. RT-PCR analysis showed that MdLHP1a and MdLHP1b were expressed constantly in developing shoot apices of apple trees throughout the growing season. Constitutive expression
of MdLHP1a or MdLHP1b could compensate for the pleiotropic phenotype of lhp1/tfl2 mutant, suggesting that apple LHP1 homolog genes are involved in the regulation of flowering time and whole-plant growth. Based on these results, LHP1 homolog genes might have rapidly evolved among plant species, but the protein functions were conserved, at least between
Arabidopsis and apple.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
8.
P. D. Nguyen C.-L. Ho J. A. Harikrishna M. C. V.-L. Wong R. Abdul Rahim 《Trees - Structure and Function》2007,21(5):515-520
Salinity reduces plant growth and crop production globally. The discovery of genes in salinity tolerant plants will provide
the basis for effective genetic engineering strategies, leading to greater stress tolerance in economically important crops.
In this study, we have identified and isolated 107 salinity tolerant candidate genes from a mangrove plant, Acanthus ebracteatus Vahl by using bacterial functional assay. Sequence analysis of these putative salinity tolerant cDNA candidates revealed that 65% of them have not been reported to
be stress related and may have great potential for the elucidation of unique salinity tolerant mechanisms in mangrove. Among
the genes identified were also genes that had previously been linked to stress response including salinity tolerance, verifying
the reliability of this method in isolating salinity tolerant genes by using E. coli as a host. 相似文献
9.
10.
The ras genes from yeast and mammalian cells were fused to plant expression promoters, and introduced into plant cells via Agrobacterium, to study their effect on cell growth and development. All introduced ras genes had a strong inhibitory effect on callus and shoot regeneration from plant tissues. This is consistent with earlier findings that heterologous ras genes were highly lethal to protoplasts following direct DNA uptake. These effects could not be reversed by increasing exogenous or endogenous cytokinin levels. These effects were also independent of the v-Ha-ras mutations in functionally important regions of Ras proteins such as effector-binding and membrane-binding sites. Similarly, co-transformation with the genes encoding the Ras-negative regulators, GTPase-activating protein and neurofibromin did not affect the ras inhibitory effect, indicating that the mechanism of ras inhibition of plant cells is not related to normal ras cellular functions. This conclusion was supported by further studies in which ras gene expression was modified using various promoters and antisense constructs. The introduced ras sequences remained fully inhibitory regardless of which promoters (inducible or tissue-specific) or which orientations (sense or antisense) were tested. This strongly suggests that the ras DNA sequence itself, rather than the Ras protein or ras mRNA, is directly involved in the inhibitory effect. The mechanism underlying this novel phenomenon remains unknown. Introduced ras genes may inhibit plant cell growth by inducing co-suppression of unknown endogenous ras or ras-related genes, thereby leading to the arrest of cell growth. 相似文献
11.
The complete sequence of the mitochondrial genome of the plant parasitic nematode Xiphinema americanum sensu stricto has been determined. At 12626bp it is the smallest metazoan mitochondrial genome reported to date. Genes are transcribed
from both strands. Genes coding for 12 proteins, 2 rRNAs and 17 putative tRNAs (with the tRNA-C, I, N, S1, S2 missing) are
predicted from the sequence. The arrangement of genes within the X. americanum mitochondrial genome is unique and includes gene overlaps. Comparisons with the mtDNA of other nematodes show that the small
size of the X. americanum mtDNA is due to a combination of factors. The two mitochondrial rRNA genes are considerably smaller than those of other nematodes,
with most of the protein encoding and tRNA genes also slightly smaller. In addition, five tRNAs genes are absent, lengthy
noncoding regions are not present in the mtDNA, and several gene overlaps are present.
[Reviewing Editor: Dr. Yues van de Peer]
F. Lamberti: Deceased, 2004 相似文献
12.
【目的】乌头酸异构酶(aconitate isomerase,AI)可介导具有多重生物学活性及应用潜力的小分子物质反式乌头酸(trans-aconiticacid,TAA)的合成。本文通过表征来自苏云金芽胞杆菌的生物体首条AI基因(tbrA)的产物——TbrA蛋白的催化性质,填补人们对于AI酶学特性的认识。【方法】我们利用大肠杆菌Rosetta菌株和Ni2+柱亲和纯化获得了His6-TbrA蛋白,并在体外通过HPLC检测了产物生成及对应酶活。【结果】TbrA蛋白的最适pH、温度与离子强度分别为8.0,37°C和25 mmol/L。TbrA在10°C时仍保留约60%的活性,展现了较好的耐低温特性。金属离子Mg2+、Ca2+与还原剂DTT可显著增强TbrA活性,而Fe2+、Cu2+、Zn2+、Mn2+则强烈抑制TbrA活性。TbrA将顺式乌头酸(cis-aconitic acid,CAA)异构为TAA的正反应Km、V... 相似文献
13.
Medicago
truncatula, barrel medic, is a forage crop that has been developed into a model legume. The development of new transformation methods is important for functional genomic studies in this species. Based on Agrobacterium tumefaciens-mediated transformation of root explants, we developed an effective system for producing M. truncatula (genotype R108) transgenic plants. Among the four A. tumefaciens strains (AGL1, C58C1, EHA105 and LBA4404) tested, EHA105 and AGL1 were most effective in regenerating transgenics. Callus induction frequency from root explants was 69.8%, and plantlet/shoot regeneration frequency was 41.3% when EHA105 was used. Transgenic nature of the regenerated plants was confirmed by PCR and Southern hybridization analyses. Progeny analysis revealed stable Mendelian meiotic transmission of transgenes. Because M. truncatula is particularly useful for the study of root endosymbiotic associations, we further developed a plant regeneration system from A. rhizogenes-transformed hairy roots of M. truncatula. Fertile true transgenic plants were regenerated from the hairy roots, thus allowing the assessment of gene functions at the whole plant level. Segregation analysis revealed that the hairy root genes could be segregated out in the progenies. By coupling A. rhizogenes-mediated hairy root transformation and the regeneration system reported here, once potential genes of interest are identified, the transformed hairy roots carrying such genes could be directly regenerated into plants for more detailed characterization of the genes. 相似文献
14.
Inheritance of gusA and neo genes in transgenic rice 总被引:21,自引:0,他引:21
Jianying Peng Fujiang Wen Richard L. Lister Thomas K. Hodges 《Plant molecular biology》1995,27(1):91-104
Inheritance of foreign genes neo and gusA in rice (Oryza sativa L. cv. IR54 and Radon) has been investigated in three different primary (T0) transformants and their progeny plants. T0 plants were obtained by co-transforming protoplasts from two different rice suspension cultures with the neomycin phosphotransferase II gene [neo or aph (3) II] and the -glucuronidase gene (uidA or gusA) residing on separate chimeric plasmid constructs. The suspension cultures were derived from callus of immature embryos of indica variety IR54 and japonica variety Radon. One transgenic line of Radon (AR2) contained neo driven by the CaMV 35S promoter and gusA driven by the rice actin promoter. A second Radon line (R3) contained neo driven by the CaMV 35S promoter and gusA driven by a promoter of the rice tungro bacilliform virus. The third transgenic line, IR54-1, contained neo driven by the CaMV 35S promoter and gusA driven by the CaMV 35S.Inheritance of the transgenes in progeny of the transgenic rice was investigated by Southern blot analysis and enzyme assays. Southern blot analysis of genomic DNA showed that, regardless of copy numbers of the transgenes in the plant genome and the fact that the two transgenes resided on two different plasmids before transformation, the introduced gusA and neo genes were stably transmitted from one generation to another and co-inherited together in transgenic rice progeny plants derived from self-pollination. Analysis of GUS and NPT II activities in T1 to T2 plants provided evidence that inheritance of the gusA and neo genes was in a Mendelian fashion in one plant line (AR2), and in an irregular fashion in the two other plant lines (R3 and IR54-1). Homozygous progeny plants expressing the gusA and neo genes were obtained in the T2 generation of AR2, but the homozygous state was not found in the other two lines of transgenic rice. 相似文献
15.
Dominique Morandi Christine le Signor Vivienne Gianinazzi-Pearson Gérard Duc 《Mycorrhiza》2009,19(6):435-441
One key strategy for the identification of plant genes required for mycorrhizal development is the use of plant mutants affected
in mycorrhizal colonisation. In this paper, we report a new Medicago truncatula mutant defective for nodulation but hypermycorrhizal for symbiosis development and response. This mutant, called B9, presents
a poor shoot and, especially, root development with short laterals. Inoculation with Glomus intraradices results in significantly higher root colonisation of the mutant than the wild-type genotype A17 (+20% for total root length,
+16% for arbuscule frequency in the colonised part of the root, +39% for arbuscule frequency in the total root system). Mycorrhizal
effects on shoot and root biomass of B9 plants are about twofold greater than in the wild-type genotype. The B9 mutant of
M. truncatula is characterised by considerably higher root concentrations of the phytoestrogen coumestrol and by the novel synthesis of
the coumestrol conjugate malonyl glycoside, absent from roots of wild-type plants. In conclusion, this is the first time that
a hypermycorrhizal plant mutant affected negatively for nodulation (Myc++, Nod −/+ phenotype) is reported. This mutant represents a new tool for the study of plant genes differentially regulating mycorrhiza
and nodulation symbioses, in particular, those related to autoregulation mechanisms. 相似文献
16.
Laurian S. Robert Sharon Allard Tanya M. Franklin Martin Trick 《Molecular & general genetics : MGG》1994,242(2):209-216
Brassica napus is an amphidiploid plant which is self-compatible even though it is derived from hybridisation of the self-incompatible species B. oleracea and B. campestris. Experiments were undertaken to establish if S-locus glycoprotein (SLG) genes exist in B. napus and whether these are expressed as in self-incompatible Brassica species. Two different stigma-specific cDNA sequences homologous to SLG genes were obtained from the B. napus cultivar Westar. One of these sequences, SLG
WS1, displayed highest homology to class I SLG alleles, whereas the other, SLG
WS2, showed greatest homology to class II SLG genes. Both were expressed at high levels in Westar stigmas following a developmental pattern typical of SLG genes in the self-incompatible diploids. We infer that they represent the endogenous SLG genes at the two homoeologous S-loci. The occurrence of normally expressed SLG genes and its relevance to the self-compatible phenotype of B. napus is discussed. 相似文献
17.
Summary We have studied the embryonic and adult phenotypes of genetic combinations between Polycomb (Pc), Regulator of bithorax (Rg-bx) and the genes of the Bithorax complex (BX-C) and the Antennapedia complex (ANT-C). The products of Pc and Rg-bx genes act antagonistically, their mutant combinations leading to the ectopic expression of genes of the BX-C and ANT-C. The genetic analysis of the Pc locus suggests it is a complex gene. Pc+ products behave as members of a regulatory set that negatively control the expression of BX-C and ANT-C genes. Genetic combinations between different doses of Pc, Rg-bx and the genes of the BX-C and ANT-C have phenotypes which may be interpreted as resulting from ectopic derepression of posterior selector genes repressing selector genes of anterior segments. The transformation phenotypes of certain genetic combinations differ in embryos and adults. A model of regulation of the BX-C and the ANT-C genes during the imaginal cell proliferation is presented, in which the specification state is maintained by self-activation of a given selector gene and down modulation of other selector genes in the same cell. 相似文献
18.
R. J. M. van Veen H. den Dulk-Ras R. A. Schilperoort P. J. J. Hooykaas 《Archives of microbiology》1989,153(1):85-89
We examined the expression of the vir genes of the Agrobacterium tumefaciens Ti plasmid in Rhizobium meliloti, which remains non-tumorigenic on plants after introduction of a Ti- or Ri-plasmid. Both the levels of virulence (vir) gene expression, induced by the plant phenolic compound acetosyringone, and of subsequent T-strand formation were comparable to what is observed in Agrobacterium. In contrast to the situation in Agrobacterium, though, vir induction in R. meliloti did not require a low pH (5.3) of the induction medium and the optimum temperature for induction in R. meliloti was significantly lower than in Agrobacterium. At 37°C no induction of the vir genes was found both in Agrobacterium and R. meliloti. We postulate that the lack of tumorigenicity of Ti carrying R. meliloti strains is due either to a lack of proper attachment of the bacteria to plant cells, or to an improper assembly of a virB-determined essential structure in the cell wall of R. meliloti. 相似文献
19.
Two callose synthases,GSL1 and GSL5, play an essential and redundant role in plant and pollen development and in fertility 总被引:7,自引:0,他引:7
Callose, a β-1,3-glucan that is widespread in plants, is synthesized by callose synthase. Arabidopsis thaliana contains a family of 12 putative callose synthase genes (GSL1–12). The role of callose and of the individual genes in plant development is still largely uncertain. We have now used TILLING and T-DNA insertion mutants (gsl1-1, gsl5-2 and gsl5-3) to study the role of two closely related and linked genes, GSL1 and GSL5, in sporophytic development and in reproduction. Both genes are expressed in all parts of the plant. Sporophytic development was nearly normal in gsl1-1 homozygotes and only moderately defective in homozygotes for either of the two gsl5 alleles. On the other hand, plants that were gsl1-1/+ gsl5/gsl5 were severely defective, with smaller leaves, shorter roots and bolts and smaller flowers. Plants were fertile when the sporophytes had either two wild-type GSL1 alleles, or one GSL5 allele in a gsl1-1 background, but gsl1-1/+ gsl5/gsl5 plants produced an extremely reduced number of viable seeds. A chromosome with mutations in both GSL1 and GSL5 rendered pollen infertile, although such a chromosome could be transmitted via the egg. As a result, it was not possible to obtain plants that were homozygous for mutations in both the GSL genes. Pollen grain development was severely affected in double mutant plants. Many pollen grains were collapsed and inviable in the gsl1-1/gsl1-1 gsl5/+ and gsl1-1/+ gsl5/gsl5 plants. In addition, gsl1-1/+ gsl5/gsl5 plants produced abnormally large pollen with unusual pore structures, and had problems with tetrad dissociation. In this particular genotype, while the callose wall formed around the pollen mother cells, no callose wall separated the resulting tetrads. We conclude that GSL1 and GSL5 play important, but at least partially redundant roles in both sporophytic development and in the development of pollen. They are responsible for the formation of the callose wall that separates the microspores of the tetrad, and also play a gametophytic role later in pollen grain maturation. Other GSL genes may control callose formation at different steps during pollen development. 相似文献
20.
Rosellini D Capomaccio S Ferradini N Savo Sardaro ML Nicolia A Veronesi F 《Plant cell reports》2007,26(7):1035-1044
A selectable marker gene (SMG), usually conferring resistance to an antibiotic or herbicide, is generally introduced into
the plant cells with the gene(s) for the trait of interest to allow only the cells that have integrated and express the foreign
sequences to regenerate into a plant. The availability of several SMGs for each plant species is useful for both basic and
applied research to combine several genes of interest in the same plant. A selection system based on gabaculine (3-amino-2,3-dihydrobenzoic
acid) as the selective substance and the bacterial hemL gene [encoding a mutant for of the enzyme glutamate 1-semialdehyde aminotransferase (GSA-AT)] as the SMG was previously
used for genetic transformation of tobacco. The hemL gene is a good candidate for a safe SMG, because GSA-AT is present in all plants and is likely involved in one metabolic
step only, so that unintended effects of its overexpression in plants are not probable. In this work, we have compared this
new selection system with the conventional, kanamycin-based system for alfalfa Agrobacterium-mediated transformation. The hemL and NptII genes were placed together into a T-DNA under the control of identical promoters and terminators. We show that the gabaculine-based
system is more efficient than the conventional, kanamycin-based system. The inheritance of hemL was Mendelian, and no obvious phenotypic effect of its expression was observed. 相似文献