赤松毛虫性信息素次要组分的鉴定——组分、电生理和田间效果

用带有极性和非极性毛细柱的气相色谱(GC)分析赤松毛虫Dendrolimus spectabilis性信息素腺体提取物,发现腺体中除含有已鉴定的性信息素(顺,反)-5,7-十二碳二烯醇(Z5,E7-12∶OH)外,还有微量的(顺,反)-5,7-十二碳二烯醛(Z5,E7-12∶Ald)和(顺,反)-5,7-十二碳二烯乙酸酯(Z5,E7-12∶Oac),三种成分以100∶5-6±5-4∶3-2±1-8的比例存在。使用气相色谱-质谱选择性离子检测法（GC-MS-SIM）分析赤松毛虫腺体提取物,发现腺体中确实含有微量的Z5,E7-12∶Oac和痕量的Z5,E7-12∶Opr。赤松毛虫腺体提取物的气相色谱和触角电位检测联用（GC-EAD）分析发现只有Z5,E7-12∶OH能激起EAD反应,然而使用较高剂量的标准化合物进行GC-EAD分析发现Z5,E7-12∶OH、Z5,E7 12∶Oac和(顺,反)-5,7-十二碳二烯丙酸酯(Z5,E7-12∶Opr)均能刺激起EAD反应,而Z5,E7-12∶Ald则不能。触角电位（EAG）剂量-反应关系研究表明,当剂量变化范围在0.01～1 μg时,雄虫触角对Z5,E7-12∶OH最敏感,对Z5,E7-12∶Oac和Z5,E7-12∶Opr次之。田间试验表明,由Z5,E7-12∶OH, Z5,E7-12∶Oac和Z5,E7-12∶Opr配制的三组分诱芯,其诱蛾量显著高于由Z5,E7-12∶OH组成的单组分或是它与其乙酸酯或丙酸酯组成的两组分诱芯,当Z5,E7-12∶OH,Z5,E7-12∶Oac和Z5,E7-12∶Opr的比例为100∶3∶25时,诱蛾效果最佳。在上述三组分混合物中加入一定量的Z5,E7-12∶Ald,则对诱蛾有明显的抑制作用。上述事实表明,Z5,E7-12∶Oac和Z5,E7-12∶Opr是赤松毛虫性信息素的两种次要组分,而Z5,E7-12∶Ald则是信息素的抑制剂。     

A Novel Nuclear-Encoded Protein, NDH-Dependent Cyclic Electron Flow 5, is Essential for the Accumulation of Chloroplast NAD(P)H Dehydrogenase Complexes

The chloroplast NAD(P)H dehydrogenase (NDH) complex, which reducesplastoquinones in thylakoid membranes, is involved in PSI cyclicelectron flow and chlororespiration. In addition to land plants,the NDH complex is conserved in cyanobacteria. In this study,we identified a novel NDH-related gene of Arabidopsis, NDH-dependentcyclic electron flow 5 (NDF5, At1g55370). Post-illuminationincreases in chlorophyll fluorescence were absent in ndf5 mutantplants, which indicated that NDF5 is essential for NDH activity.Sequence analysis did not reveal any known functional motifsin NDF5, but there was some homology in amino acid sequencebetween NDF5 and NDF2, a known NDH subunit. NDF5 and NDF2 homologswere present in higher plants, but not cyanobacteria. A singlehomolog, which had similarity to both NDF5 and NDF2, was identifiedin the moss Physcomitrella patens. Immunoblot analysis showedthat NDF5 localizes to membrane fractions of chloroplasts. Thestability of NdhH, a subunit of the NDH complex, as well asNDF5 and NDF2, was decreased in ndf5, ndf2 and double ndf2/ndf5mutants, resulting in a loss of NDH activity in these mutants.These results indicated that both NDF5 and NDF2 have essentialfunctions in the stabilization of the NDH complex. We proposethat NDF5 and NDF2 were acquired by land plants during evolution,and that in higher plants both NDF5 and NDF2 are critical toregulate NDH activity and each other's protein stability, aswell as the stability of additional NDH subunits.     

Somatic Excision of the Ac Transposable Element in Transgenic Arabidopsis thaliana after 5-Azacytidine Treatment

We have introduced the maize Ac transposable element in Arabidopsisthaliana and found that after three selfing generations, theelement is immobile and extensively methylated. Moreover, thenopaline synthase (nos) gene present on the same transferredT-DNA, was active early after transformation and regeneration,but inactive in most of the S1 progeny. We used 5-azacytidine(5AzaC) to determine whether a reduction in the methylationwould affect both Ac transposition and expression of the nosgene. After treatment with 5AzaC doses from 0.3 mM to 1.0 mM,approximately 25% of the plants produced detectable amountsof nopaline, indicating that the nos gene was reactivated. Usingthe polymerase chain reaction (PCR) to detect the empty donorsite left by Ac transposition, we demonstrated that 5AzaC alsoactivates Ac excision in the transgenic plants. Approximately13% of the 5AzaC treated plants (doses from 0.1 mM to 1.0 mM)were shown to have empty donor sites due to Ac excision. Noneof the plants cultivated in the absence of 5AzaC showed evidencefor Ac transposition or reactivation of the nos gene. Furtheranalysis using Southern blot indicate that some de-methylationocurred in the genome of individual plants. These results mayrepresent demethylation in few cells during development whichmay be sufficient to reactivate in these cells the expressionof the nos and Ac transposase transgenes, the latter promotingAc transposition in somatic cells. (Received July 16, 1996; Accepted January 8, 1997)     

Cloning and Functional Expression of a Novel Geranylgeranyl Pyrophosphate Synthase Gene from Arabidopsis thaliana in Escherichia coli

A gene encoding a novel geranylgeranyl pyrophosphate (GGPP)synthase from Arabidopsis thaliana has been identified and termedGGPS5. The gene has been sequenced and expressed in Escherichiacoli. The deduced amino acid sequence showed 64.5% and 57.5%identity with a putative GGPP synthase from Arabidopsis andCapsicum annuum, respectively. GGPP enzymatic activity was detectedin E. coli cells expressing the GGPS5 gene in two differentways. One was the direct measurement of GGPP synthase activityin cell extracts and the other was the yellow color productionof cells when the GGPS5 gene was co-expressed with crtB, crtI,crtX, crtY and crtZ genes derived from Erwinia uredovora. (Received May 20, 1996; Accepted December 14, 1996)     

C21orf5, a New Member of Dopey Family Involved in Morphogenesis, Could Participate in Neurological Alterations and Mental Retardation in Down Syndrome

Availability of the human genome sequence promises importantprogress in the understanding of human pathologies, particularlyfor multifactorial diseases. Among these, Down syndrome (DS)is the most frequent genetic cause of mental retardation. Acritical region of chromosome 21, the Down syndrome ChromosomalRegion-1 (DCR-1), is responsible for many features of the DSphenotype including mental retardation. We studied DCR-1 C21orf5as a new candidate gene for DS considering its restricted expressionin key brain regions altered in DS patients and involved inlearning and memory processes. To elucidate C21orf5 molecularfunction, we performed a comparative study of protein sequencesin several species and showed that C21orf5 represents a newmember of the Dopey leucine zipper-like family. The C21orf5C-termini contains two highly conserved leucine-like zipperdomains in invertebrate and vertebrate species. Evolution analysisindicated a common ancestral origin of these protein sequencesalso suggesting a conserved function of this gene throughoutphylogenesis. Mutations of the known C21orf5 homologous genesAspergillus nidulans DopA, Saccharomyces cerevisiae Dop1 andCaenorhabditis elegans pad1, determine morphological abnormalities.We studied transgenic mice carrying the human C21orf5 gene andwe showed that this gene is overexpressed in brain regions byin situ hybridization and by real-time RT–PCR experiments.Interestingly, we also showed that these transgenic mice havean increased density of cortical cells overexpressing C21orf5.Similarly, DS patients have an altered lamination pattern intheir cortex. Considering together our and previous findings,we suggest that the human dopey family member, C21orf5, couldplay a role in brain morphogenesis and, when overexpressed,it could participate in neurological features and mental retardationobserved in DS patients.     

Characterization and physical mapping of ribosomal RNA gene families in Plantago

• Background and Aims The organization of rRNA genes incultivated Plantago ovata Forsk. and several of its wild allieswas analysed to gain insight into the phylogenetic relationshipsof these species in the genus which includes some 200 species. • Methods Specific primers were designed to amplify theinternal transcribed spacer (ITS1 and ITS2) regions from sevenPlantago species and the resulting fragments were cloned andsequenced. Similarly, using specific primers, the 5S rRNA genesfrom these species were amplified and subsequently cloned. Fluorescencein-situ hybridization (FISH) was used for physical mapping of5S and 45S ribosomal RNA genes. • Results The ITS1 region is 19–29 bp longer thanthe ITS2 in different Plantago species. The 5S rRNA gene-repeatingunit varies in length from 289 to 581 bp. Coding regions arehighly conserved across species, but the non-transcribed spacers(NTS) do not match any database sequences. The clone from thecultivated species P. ovata was used for physical mapping ofthese genes by FISH. Four species have one FISH site while threehave two FISH sites. In P. lanceolata and P. rhodosperma, the5S and 45S (18S-5·8S-25S) sites are coupled. • Conclusions Characterization of 5S and 45S rRNA geneshas indicated a possible origin of P. ovata, the only cultivatedspecies of the genus and also the only species with x = 4, froma species belonging to subgenus Psyllium. Based on the studiesreported here, P. ovata is closest to P. arenaria, althoughon the basis of other data the two species have been placedin different subgenera. FISH mapping can be used as an efficienttool to help determine phylogenetic relationships in the genusPlantago and show the interrelationship between P. lanceolataand P. lagopus.     

The GUS reporter-aided analysis of the promoter activities of Arabidopsis ACC synthase genes AtACS4, AtACS5, and AtACS7 induced by hormones and stresses

Ethylene biosynthesis in higher plants is regulated developmentallyand environmentally. To investigate the regulation of ACC synthasegene expression, the promoters of Arabidopsis ACS genes, AtACS4,AtACS5, and AtACS7, were fused to a GUS reporter gene, and therecombinant transgenes were introduced into Arabidopsis to producethree groups of AtACS::GUS transgenic plants. Histochemic andfluorometric study of these transgenic plants revealed thatpromoters of AtACS4, AtACS, and AtACS7 are all active in dark-germinatedseedlings. AtACS5 has the highest promoter activity in leavesof 2-week-old light-grown seedlings among the three AtACS genesstudied. In the mature leaves, AtACS4 and AtACS7 genes are expressedin both veins and areoles, whereas AtACS5 is expressed at ahigher level in the areoles and epidermal cells surroundingtrichomes. The promoter activities of all these AtACS genesare found in the reproductive organs. AtACS5 and AtACS7 arehighly expressed in petals, sepals, carpels, stamens, caulineleaves, inflorescence stems, and siliques, while AtACS4 expressionis undetectable in the petals of open flowers. All three AtACSgenes are expressed in root tissue. In the 2-week-old light-grownArabidopsis, the AtACS4 promoter is responsive to the planthormones IAA, ethylene, and ABA, and to darkness and wounding;the AtACS5 promoter to IAA, ABA, salt, high temperature, andwounding; and the AtACS7 promoter to GA₃, ethylene, and ABA,and to darkness and salt. Low-temperature treatment abolishesthe darkness-induced AtACS7 gene expression, but not that ofAtACS4. Each AtACS gene has a unique expression profile duringgrowth and development. It appears that at any developmentalstage or any growth period of Arabidopsis, there is always amember of AtACS multigene family that is actively expressed. Key words: ACC synthase, Arabidopsis, ethylene, gene expression, GUS histochemical staining, reporter, stress treatments     

Purification of Ribulose 5-phosphate Kinase and Minor Polypeptides of Pyrenoid from the Green Alga Bryopsis maxima

Ribulose 5-phosphate (Ru5P) kinase (ATP:D-ribulose 5-phosphate1-phosphotrans- ferase; EC 2.7.1.19 [EC] ), an enzyme in the reductivepentose phosphate cycle, was purified from the green alga Bryopsismaxima and its activity and peptide composition were studied.The specific activity of purified Ru5P kinase was 20 µmoleRuBP formed (mg protein)^–1 min^–1 corresponding toa 490-fold purification from the supernatant of chloroplasts.The K_m values of Ru5P kinase for ATP and Ru5P were 69 µMand 330 µM, respectively. The molecular size of Ru5P kinase was estimated as 90 kDa bygel filtration and that of its polypeptide as 41 kDa by SDS-polyacrylamidegel electrophoresis. A small portion of the Ru5P kinase wasfound in a large molecular state (500 kDa) which was consideredto be an inactive form of the enzyme. Ru5P kinase activity has been reported in the pyrenoid of Eremosphaeraviridis as well as ribulose 1,5-bisphosphate carboxylase-oxygenase(RuBisCO) and ribose 5-phosphate isomerase activity (Holdsworth1971). In Bryopsis maxima, among the pyrenoid polypeptides otherthan that of RuBisCO, we found a polypeptide of 42 kDa, similarto that of Ru5P kinase in molecular size and ratio to RuBisCO.A peptide map of the 42 kDa pyrenoid polypeptide, however, showedthat it differed from that of Ru5P kinase. In conclusion, Ru5Pkinase may be not involved in the pyrenoid of this alga. (Received January 19, 1985; Accepted May 15, 1985)     

Purification and Characterization of Light-Harvesting Chlorophyll a/b-Protein Complexes of Photosystem II from the Green alga, Bryopsis maxima

Light-harvesting chlorophyll a/b-proteins of photosystem II(LHC II) were purified from thylakoid membranes of the greenalga, Bryopsis maxima. Extraction with digitonin did not solubilizechlorophylls (Chl) and carotenoids to any significant extent.Two forms of purified LHC II, P4 and P5, with respective apparentparticle sizes of 280 and 295 kDa, were obtained by sucrosedensity gradient centrifugation and column chromatography onDEAE-Toyopearl. P4 and P5 had similar spectral absorption at77 K with Chl a maxima at 674, 658 and 438 nm and Chl b maximaat 649 and 476 nm. Carotene was not present in P4 or P5. Fluorescenceexcitation spectra demonstrated that Chl b, siphonaxanthin andsiphonein can efficiently transfer absorbed light energy toChl a. P4 and P5 each contained two apoproteins of 28 and 32kDa, with similar but not identical amino acid compositions.P5 contained 6 molecules of Chl a, 8 of Chl b and 5 of xanthophyll(three molecules of siphonaxanthin and one each of siphoneinand neoxanthin) per polypeptide. (Received September 11, 1989; Accepted December 11, 1989)     

Overexpression of human KCNA5 increases IK V and enhances apoptosis

Apoptotic cell shrinkage, an early hallmark of apoptosis, is regulated by K⁺ efflux and K⁺ channel activity. Inhibited apoptosis and downregulated K⁺ channels in pulmonary artery smooth muscle cells (PASMC) have been implicated in development of pulmonary vascular medial hypertrophy and pulmonary hypertension. The objective of this study was to test the hypothesis that overexpression of KCNA5, which encodes a delayed-rectifier voltage-gated K⁺ (Kv) channel, increases K⁺ currents and enhances apoptosis. Transient transfection of KCNA5 caused 25- to 34-fold increase in KCNA5 channel protein level and 24- to 29-fold increase in Kv channel current (I_K(V)) at +60 mV in COS-7 and rat PASMC, respectively. In KCNA5-transfected COS-7 cells, staurosporine (ST)-mediated increases in caspase-3 activity and the percentage of cells undergoing apoptosis were both enhanced, whereas basal apoptosis (without ST stimulation) was unchanged compared with cells transfected with an empty vector. In rat PASMC, however, transfection of KCNA5 alone caused marked increase in basal apoptosis, in addition to enhancing ST-mediated apoptosis. Furthermore, ST-induced apoptotic cell shrinkage was significantly accelerated in COS-7 cells and rat PASMC transfected with KCNA5, and blockade of KCNA5 channels with 4-aminopyridine (4-AP) reduced K⁺ currents through KCNA5 channels and inhibited ST-induced apoptosis in KCNA5-transfected COS-7 cells. Overexpression of the human KCNA5 gene increases K⁺ currents (i.e., K⁺ efflux or loss), accelerates apoptotic volume decrease (AVD), increases caspase-3 activity, and induces apoptosis. Induction of apoptosis in PASMC by KCNA5 gene transfer may serve as an important strategy for preventing the progression of pulmonary vascular wall thickening and for treating patients with idiopathic pulmonary arterial hypertension (IPAH). potassium ion channel; pulmonary hypertension     

Phylogenetic Analysis and Karyotype Evolution in the Genus Clivia(Amaryllidaceae)

Phylogenetic relationships of five taxa of Clivia, one probablenew species plus four recognized species, and three outgroupspecies were studied using sequences of the nuclear ribosomal5S non-transcribed spacer and the internal transcribed spacer(ITS) of 45S rDNA. Analysis of the data sets separately generatedsome well-supported groupings and congruent phylogenies. Cliviaminiata and C. gardenii are closely related. ‘Robust Gardenii’,the putative new species, is a sister clade of this group. Clivianobilis is distantly related to these three taxa and C. caulescensoccupies an intermediate position between the two groups. Chromosomelocations and distribution patterns of the 5S nuclear ribosomalgene in the species of Clivia were investigated using fluorescenceinsitu hybridization (FISH). In all species, only one pair of5S rDNA signals was observed. These were located on the shortarm of chromosome 8, at the position of the interstitial C-bands.The phylogenies obtained from the DNA sequences together withthe chromosome data accumulated here and previously publishedinformation on the location of the 45S rDNA sites have beenused to postulate evolutionary trends in Clivia chromosomes.Copyright 2001 Annals of Botany Company Clivia, chromosome evolution, 45S and 5S rDNA, ITS, FISH, molecular phylogeny     

Messenger RNA in the Ungerminated Pollen Grain: A Direct Demonstration of its Presence

The presence of presynthesized messenger RNAs in the mature,dehydrated pollen grains of Tradescantia paludosa L. has beendemonstrated by translation of total RNA and poly (A)⁺ RNA ina wheat germ cell-free system, and a comparison of in vitroand in vivo synthesized proteins by SDS-polyacrylamide gel electrophoresis.The mRNAs are capped at their 5'-termini with a guanosine 5'phosphate moiety which is methylated. messenger RNAs, guanosine 5' phosphate, pollen, Tradescantia paludosa L     

Isolation of Rhizobium leguminosarum biovar viciae Variants with Indole-3-acetamide Hydrolase Activity

The IAA biosynthetic pathway from tryptophan to IAA via IAM(IAM pathway) was investigated in Rhizobium spp. (fast-growingrhizobium). Southern hybridization with the bam gene, a structuralgene for IAM hydrolase (the enzyme that converts IAM to IAA)cloned from Bradyrhizobium japonicum J1063, indicated that homologoussequences exist among wild-type Rhizobium spp. However the IAMpathway has not been detected biochemically in free-living bacteria.When 5-methyltryptophan-resistant strains were screened forRhizobium leguminosarum biovar viciae K5 which has DNA sequenceswith high homology to the bam gene, spontaneous mutants showingIAM hydrolase activity were isolated. The results suggest thepossibility that the activity of IAM hydrolase is suppressedin free-living state in Rhizobium leguminosarum biovar viciaeK5. In addition we detected the peak at the same t_R of IAM byHPLC analysis using two columns when a large amount of L-tryptophanwas added to the suspension of 5-methyltryptophan-resistantvariants. Whether or not tryptophan-2-monooxygenase activity,however, actually works in Rhizobium cells remained to be solved. (Received September 20, 1989; Accepted March 6, 1990)     

Calcineurin-NFATc signaling pathway regulates AQP2 expression in response to calcium signals and osmotic stress

The aquaporin (AQP)2 channel mediates the reabsorption of water in renal collecting ducts in response to arginine vasopressin (AVP) and hypertonicity. Here we show that AQP2 expression is induced not only by the tonicity-responsive enhancer binding protein (TonEBP)/nuclear factor of activated T cells (NFAT)5-mediated hypertonic stress response but also by the calcium-dependent calcineurin-NFATc pathway. The induction of AQP2 expression by the calcineurin-NFATc pathway can occur in the absence of TonEBP/NFAT5. Mutational and chromatin immunoprecipitation analyses revealed the existence of functional NFAT binding sites within the proximal AQP2 promoter responsible for regulation of AQP2 by NFATc proteins and TonEBP/NFAT5. Contrary to the notion that TonEBP/NFAT5 is the only Rel/NFAT family member regulated by tonicity, we found that hypertonicity promotes the nuclear translocation of NFATc proteins for the subsequent induction of AQP2 expression. Calcineurin activity was also found to be involved in the induction of TonEBP/NFAT5 expression by hypertonicity, thus further defining the signaling mechanisms that underlie the TonEBP/NFAT5 osmotic stress response pathway. The coordinate regulation of AQP2 expression by both osmotic stress and calcium signaling appears to provide a means to integrate diverse extracellular signals into optimal cellular responses. aquaporin; nuclear factor of activated T cells; tonicity-responsive enhancer binding protein; osmotic response     

Sequence Organization of Simple, Highly Repetitive DNA Elements in Brassica species

The amphidiploid (AACC) nuclear genome of Brassica napus (oil-seedrape) contains c. 5 ? 10⁵ copies of a simple, highly repetitiveDNA element; each repeat is 176 or 177 base pairs long and isdefined by Hind III cutting sites. The diploid (AA) Brassicacampestris (turnip) possesses a very similar repetitive DNA,the consensus sequence of which does not differ from that inB. napus. The 176/177 bp unit consists of three 59 bp sub-units,defined by vestigial EcoRII sites. Analysis of the distributionof variants from consensus in adjacent and non-adjacent unitsprovides evidence for homogenization of sequences by the fixationof independent mutations and for tandem duplication of units.Within units, there is also evidence for inversion and tandemduplication of short (5–8 bp) motifs. Previously published data show that 176/177 base pair repetitiveDNA elements, defined by Hind III cutting sites, are also presentin Sinapis and Raphanus. There is a sequence homology betweenBrassica and Sinapis, and between Brassica and Raphanus, of75%. Sequence homology between Raphanus and Sinapis is 73%. Key words: Repetitive DNA, Brassica, Cruciferae     

Thiophene Content in Normal and Transformed Root Cultures of Tagetes erecta: A Comparison with Thiophene Content in Roots of Intact Plants

Transformed roots of Tagetes erecta were obtained followinginfection of stems of sterile plantlets with Agrobacterium rhizogenesstrain TR105. The thiophenes detected were 5-(4-hydroxy-l-butenyl)-2,2'-bithienyl,5-(4-acetoxy-l-butenyl)-2,2'-bithienyl, 5-(3-buten-l-enyl)-2,2',-bithienyl and 2.2': 5', 2'-terthienyl. The thiophene patternwas the same in normal root cultures and roots of the intactplant. Transformed roots showed a higher growth rate and a higherbiomass yield than normal root cultures on a hormone-free media. Key words: Transformed roots normal roots, Tagetes erecta, thiophenes, Agrobacterium rhizogenes