Effects of Overexpression of the Endogenous Farnesyl Diphosphate Synthase on the Artemisinin Content in Artemisia annua L.

Artemisinin is a novel effective antimalarial drug extracted from the medicinal plant Artemisia annua L. Owing to the tight market and low yield of artemisinin, there is great interest in enhancing the production of artemisinin. In the present study, farnesyi diphosphate synthase （FPS） was overexpressed in high-yield A. annua to Increase the artemisinin content. The FPS activity in transgenic A. ennue was twoto threefold greater than that In non-transgenic A. annua. The highest artemisinin content in transgenic A. annua was approximately 0.9% （dry weight）, which was 34.4% higher than that in non-transgenic A. annua. The results demonstrate the regulatory role of FPS in artemisinin biosynthesis.     

Nutrient content affecting Spodoptera frugiperda and Dalbulus maidis occurrence in corn

This work aims to study the effect of the nutrient contents in the leaves of corn on the incidence of Spodopterafrugiperda （Smith） （Lepidoptera： Noctuidae） and Dalbulus maidis （Delong ＆ Wolcott） （Homoptera： Cicadellidae）. The treatments were represented by unfertilized corn plants and corn plants fertilized with 250 kg of the formulation 4-14-8 （N- P-K） ＋ 100 kg of ammonium sulfate （AS）/ha and 500 kg of the formulation 4-14-8 （N-P-K） ＋200 kg of AS/ha, arranged in randomized blocks with four replicates. Attacks by S. frugiperda and D. maidis were higher as the nitrogen, sulfur, calcium and copper content in the leaves of corn increased. The effects of calcium and copper found in this study were not consistent with that of lower susceptibility associated with higher levels of these nutrients mentioned in the literature. We believe that there was a cumulative effect of the nutrients altogether, building up a nutritiously better vegetable which in turn had less reserve for defense, or that the content of both nutrients in the leaves were not high enough to induce such effects.     

Nitric oxide potentiates oligosaccharide-induced artemisinin production in Artemisia annua hairy roots

The purpose of the present study was to characterize the generation of nitric oxide （NO） in Artemisia annua roots induced by an oligosaccharide elicitor （OE） from Fusarium oxysporum mycelium and the potentiation role of NO in the elicitation of artemisinin accumulation. The OE （0.3 mg total sugar/mL） induced a rapid production of NO in cultures, which exhibited a biphasic time course, reaching the first plateau within 1.5 h and the second within 8 h of OE treatment. Artemisinin content in 20-day-old hairy roots was increased from 0.7mg/g dry wt to 1.3 mg/g dry wt by using the OE treatment for 4d. In the absence of OE, the NO donor sodium nitroprusside （SNP） at 10, 50 ~1 and 100 ~1 enhanced the growth of hairy roots, but had no effect on artemisinin synthesis, The combination of SNP with OE increased artemisinin content from 1.2 mg/g drywt to 2.2 mg/g dry wt, whereas the maximum production of artemisinin in cultures was 28.5 mg/L, a twofold increase over the OE treatment alone. The effects of SNP on the OE-induced artemisinin were suppressed strongly by the NO scavenger 2-（4- carboxyphenyl）-4,4,5,5-tetramethylimidazoline-l-oxyl-3-oxide （cPTIO）. The results suggest that NO can strongly potentiate elicitor-induced artemisinin synthesis in A. annua hairy roots.     

Cotton Leaf Curl Virus： Ionic Status of Leaves and Symptom Development

In the present study, the relationship between the nutritional status of leaves and the development of symptoms of cotton leaf curl virus （CLCuV） in two cotton （Gossypium hirsutum L.） cuItlvars （I.e. CIM-240 and S-12） was Investigated. The incidence of disease attack was found to be 100% In the S-12 cuItlvar and 16% in the CIM-240 cuItivar. Geminivirus particles in infected leaves were confirmed by transmission electron microscope examination of highly specific geminivirus coat protein antlsera-treated cell sap. The CLCuV Impaired the accumulation of different nutrients in both cuItivars. A marked decrease in the accumulation of Ca^2＋ and K^＋ was observed in infected leaves. However, the disease had no effect on leaf concentrations of Na^＋, N, and P. It was observed that the curling of leaf margins in CLCuV-Infected plants was associated with the leaf Ca^2＋ content; leaf curling was severe in plants with a significant reduction In Ca^2＋ content. Moreover, leaf K＆＋ content was found to be associated with resistance/susceptibility to CLCuV infection.     

Effect of chitosan on tobacco mosaic virus（TMV） accumulation,hydrolase activity,and morphological abnormalities of the viral particles in leaves of N. tabacum L. cv. Samsun

The effect of chitosan on the development of infection caused by Tobacco mosaic virus（TMV） in leaves of Nicotiana tabacum L. cv. Samsun has been studied. It was shown that the infectivity and viral coat protein content in leaves inoculated with a mixture of TMV（2 μg/mL） and chitosan（1 mg/mL） were lower in the early period of infection（3 days after inoculation）, by 63% and 66% respectively, than in leaves inoculated with TMV only. Treatment of leaves with chitosan 24 h before inoculation with TMV also caused the antiviral effects, but these were less apparent than when the virus and polysaccharide were applied simultaneously. The inhibitory effects of the agent decreased as the infection progressed. Inoculation of leaves with TMV together with chitosan considerably enhanced the activity of hydrolases（proteases, RNases） in the leaves, in comparison with leaves inoculated with TMV alone. Electron microscope assays of phosphotungstic acid（PTA）-stained suspensions from infected tobacco leaves showed that, in addition to the normal TMV particles（18 nm in diameter, 300 nm long）, these suspensions contained abnormal（swollen, “thin” and “short”） virions. The highest number of abnormal virions was found in suspensions from leaves inoculated with a mixture of TMV and chitosan. Immuno-electron microscopy showed that “thin” virus particles, in contrast to the particles of normal diameter, lost the ability to bind to specific antiserum. It seems that the chitosan-induced activation of hydrolases stimulates the intracellular degradation of TMV particles and hence hydrolase activation may be considered to be one of the polysaccharide-mediated cellular defense mechanisms that limit virus accumulation in cells.     

Effect of pine foliage damage on the incidence of larval diapause in the pine caterpillar Dendrolimus punctatus （Lepidoptera： Lasiocampidae）

The pine caterpillar Dendrolimus punctatus （Walker） with a larval facultative diapause is one of the most destructive insect pests of the pine tree Pinus massoniana in China. The larvae feeding on pine trees with different damage levels were studied to determine the induction of diapause under both laboratory and field conditions. Developmental duration of larvae before the third instar was the longest when fed with 75%-90% damaged needles, followed by 25%-40% damaged needles and intact pine needles, whereas mortalities did not differ among different treatments under the conditions of 25℃ and critical photoperiod 13.5：10.5 L：D. At 25 ℃, no diapause was induced under 15：9 L：D, whereas 100% diapause occurred under 12：12 L：D regardless of the levels of needle damage. Incidences of larvae entering diapause when they were fed with intact, 25%-40% and 75%- 90% damaged pine needles were 51.7%, 70.8% and 81% under 13.5：10.5 L：D, respectively. Similar results were obtained in the field experiment. Incidence of diapause was significantly different among the pine needle damage levels of pine trees when the photoperiod was close to the critical day length, indicating that the effect of host plants on diapause induction was dependent on the range of photoperiod. The content of amino acid and sugar decreased and tannin increased in pine needles after feeding by the pine caterpillars, suggesting that changed levels of nutrients in damaged needles or a particular substance emitted by damaged pine trees was perhaps involved in the diapause induction of the pine caterpillar.     

Effects of Nitrogen Source and Bacterial Elicitor on Isoflavone Accumulation in Root Cultures of Albizzia kalkora （Roxb.） Prain

Changes in cellular isoflavone （daidzein and genistein） contents were monitored in root cultures of Albizzia kalkora （Roxb.） Prain after feeding different ratios of NH4^＋/NO3^- and treatment with a biotic elicitor （three strains of Rhizobium sp.）. The NH4^＋/NO3^- ratio appears to be positively correlated with daidzein content in the roots and shows a negative correlation with genistein. Among the three different strains of Rhizobium used, the strain ATCC 15834 caused a 35% increase in daidzein production by infection. In the case of genistein, maximum production （94%） was obtained when cultures were treated on Day 6 by the strains ATCC 15834 and KCTC 1541. The biosynthetic pathway of the two isoflavones apparently reacts differently to the same culture conditions and the same strains of Rhizobium. Therefore, the present data suggest that the production of daidzein and genistein could be modulated by changing the NH4^＋/NO3^- ratio and the application of Rhizobium.     

CHARACTERIZATION OF GENETIC MARKERS LINKED TO SEX DETERMINATION IN THE HAPLOID‐DIPLOID RED ALGA GRACILARIA CHILENSIS1

Bulk segregant analysis, random amplified polymorphic DNA (RAPD), and sequence characterized amplified region (SCAR) methods were used to identify sex‐linked molecular markers in the haploid‐diploid rhodophyte Gracilaria chilensis C. J. Bird, McLachlan et E. C. Oliveira. One hundred and eighty 10 bp primers were tested on three bulks of DNA: haploid males, haploid females, and diploid tetrasporophytes. Three RAPD primers (OPD15, OPG16, and OPN20) produced male‐specific bands; and one RAPD primer (OPD12), a female‐specific band. The sequences of the cloned putative sex‐specific PCR fragments were used to design specific primers for the female marker SCAR‐D12‐386 and the male marker SCAR‐G16‐486. Both SCAR markers gave unequivocal band patterns that allowed sex and phase to be determined in G. chilensis. Thus, all the females presented only the female band, and all the males only the male band, while all the tetrasporophytes amplified both male and female bands. Despite this sex‐specific association, we were able to amplify SCAR‐D12‐386 and SCAR‐G16‐486 in both sexes at low melting temperature. The differences between male and female sequences were of 8%–9% nucleotide divergence for SCAR‐D12‐386 and SCAR‐G16‐486, respectively. SCAR‐D12‐386 and SCAR‐G16‐486 could represent degenerated or diverged sequences located in the nonrecombining region of incipient sex chromosomes or heteromorphic sex chromosomes with sequence differences at the DNA level such that PCR primers amplify only one allele and not the other in highly specific PCR conditions. Seven gametic progenies composed of 19 males, 19 females, and the seven parental tetrasporophytes were analyzed. In all of them, the two SCAR markers segregated perfectly with sexual phenotypes.     

Molecular characterization of RAPD and SCAR markers linked to the Tm-1 locus in tomato

We have cloned and sequenced six RAPD fragments tightly linked to the Tm-1 gene which confers tomato mosaic virus (ToMV) resistance in tomato. The terminal ten bases in each of these clones exactly matched the sequence of the primer for amplifying the corresponding RAPD marker, except for one in which the 5-endmost two nucleotides were different from those of the primer. These RAPD clones did not cross-hybridize with each other, suggesting that they were derived from different loci. From Southern-hybridization experiments, five out of the six RAPD clones were estimated to be derived from middle- or high-repetitive sequences, but not from any parts of the ribosomal RNA genes (rDNA), which are known to be tightly linked with the Tm-1 locus. The remaining clone appeared to be derived from a DNA family consisting of a few copies. These six RAPD fragments were converted to sequence characterized amplified region (SCAR) markers, each of which was detectable using a pair of primers having the same sequence as that at either end of the corresponding RAPD clone. All pairs of SCAR primers amplified distinct single bands whose sizes were the same as those of the RAPD clones. In four cases, the SCAR markers were present in the line with Tm-1 but absent in the line without it, as were the corresponding RAPD markers. In the two other cases, the products of the same size were amplified in both lines. When these SCAR products were digested with different restriction endonucleases which recognize 4-bp sequences, however, polymorphisms in fragment length were found between the two lines. These co-dominant markers are useful for differentiating heterozygotes from both types of homozygote.     

Molecular characterization of the SCAR markers tightly linked to the Tm-2 locus of the genus Lycopersicon

The Tm-2 gene and its alleles conferring tomato mosaic virus resistance in tomato originate from Lycopersicon peruvianum, a wild relative of tomato. DNA fragments of several RAPD markers tightly linked with the Tm-2 locus in tomato were successfully cloned and sequenced. Subsequently, the 24-mer oligonucleotide primer pairs of the SCAR markers corresponding to the RAPD markers were designed based on the 5’-endmost sequences. A fragment of the same size as that of a SCAR marker was amplified in the ToMV-susceptible tomato line with no Tm-2, but the digests of the PCR fragments by AccI exhibited polymorphism in fragment length between the two lines. We chose three SCAR markers and three RAPD markers tightly linked with the Tm-2 locus, and examined whether the same-sized fragments corresponding to these markers were also present in three other lines carrying Tm-2a or one of the other Tm-2 alleles. The fragments corresponding to the three SCAR markers were present in all of the three lines, but the other markers (three RAPDs ) were absent in one or two lines, suggesting that the three SCAR markers are closer to Tm-2 than the other markers. Comparison of the nucleotide sequences of these fragments revealed that they are all homologous to the corresponding SCAR markers. Received: 8 November 1999 / Accepted: 15 November 1999     

RAPD and SCAR Markers Linked to a Gene Conferring Resistance to Angular Leaf Spot in Common Bean

Angular leaf spot, caused by the fungus Phaeoisariopsis griseola , is one of the most important bean diseases in Brazil. The objectives of this study were to determine the inheritance of angular leaf spot resistance and to identify random amplified polymorphic DNA (RAPD) and sequence-characterized amplified region (SCAR) markers linked to the resistance gene present in cv. Cornell 49-242, in a cross between this cultivar and susceptible cv. Rudá. The parents, F₁, F₂ and backcross-derived plants were inoculated with P. griseola pathotype 31-17 under environmentally controlled greenhouse conditions. The results indicate that one single dominant gene controls the resistance in Cornell 49–242. Two RAPD markers, OPN 02_890c and OPE 04_650c, were found to be linked in the coupling phase, at 3.2 and 12.5 c m of the resistance gene, respectively. To increase the reproducibility of the detection of marker OPN02_890c it was converted into a SCAR marker. It is proposed that the designation of Phg-2 be used for the angular leaf spot resistant gene present in Cornell 49-242.     

A SCAR MOLECULAR MARKER SPECIFICALLY RELATED TO THE FEMALE GAMETOPHYTES OF SACCHARINA (LAMINARIA) JAPONICA (PHAEOPHYTA)1

PCR amplification was employed to identify female or male gametophyte associated markers in Saccharina japonica (Aresch.) C. E. Lane, C. Mayes et G. W. Saunders (=Laminaria japonica Aresch.). One pair of the primers, P5, was screened from five pairs designed based on a specific sequence (GenBank accession no. AB069714 ) of Marchantia polymorpha Y chromosome, resulting in a differential band ～500 bp in size between female and male gametophytes of Rongfu strain of S. japonica. According to the SCAR (sequence‐characterized amplified regions) strategies, one pair of primers, P51, was designed on the basis of the sequence of this band that was only present in female gametophytes. A SCAR marker, designated FRML‐494 (494‐bp Female‐Related Marker of S. japonica, GenBank accession no. EU931619 ), was developed successfully by PCR amplification using the designed P51 primer pair. The SCAR marker was verified to be present only in female gametophytes of another variety 901 of this kelp that was a hybrid between S. japonica as paternal and S. longissima (Miyabe) C. E. Lane, C. Mayes, Druehl et G. W. Saunders (=Laminaria longissima Miyabe) as maternal, suggesting that the FRML‐494 marker was specifically related to female gametophytes of the genus. This marker is the first molecular tool reported for sex identification in kelps. This study was beneficial for identifying gametophyte gender during vegetative growth and for judging whether the monogenetic sporophytes came from exclusive male or female gametophytes, as well as for further research on sex determination at the molecular level in kelps.     

谭清苏铁性别连锁的RAPD和SCAR分子标记

利用RAPD(Random amplified polymorphic DNA)分子标记技术,寻找谭清苏铁（Cycas tanqingii）中与性别相关的分子标记,筛选了160个10bp的随机引物,产生了2500多个RAPD条带。只有引物S0465 (CCCCGGTAAC)产生了一条大约500bp的雌性特异RAPD标记,该分子标记出现在所有的供试雌性植株中,而所有的供试雄性植株都不具有该标记。对该特异片段进行了克隆和序列测定,并根据序列分析结果将RAPD标记转化为重复性和特异性更好的特异特征序列扩增区域（SCAR）分子标记,并命名为STQC-S465-483。分子标记的建立可用于谭清苏铁幼苗性别的早期鉴定,为谭清苏铁就地保护和迁地保护提供技术支持。     

RAPD and RFLP markers tightly linked to the locus controlling carnation (Dianthus caryophyllus) flower type

 Flower doubleness as a breeding characteristic is of major importance in carnation (Dianthus caryophyllus), one of the major cut-flowers sold worldwide, since flower architecture is of the utmost value in ornamentals. Based on the number of petals per flower, carnations are grouped into “single”, “semi-double” and “double” flower types. The first have five petals and are easily distinguishable, but of no economic value to the carnation industry. Flowers of standard and spray varieties, which constitute the largest market share, are usually of the double and semi-double type, respectively. These flower types are not easily distinguishable due to phenotypic overlaps caused by environmental conditions. To study the inheritance of this trait, several progeny segregating for flower type were prepared. Based on the number of single-flower type fullsibs among the offspring, we found that this phenotype is expressed only in plants homozygous for the recessive allele and that a dominant mutation in this allele causes an increase in petal number. Using random decamer primers, we identified a random amplified polymorphic DNA (RAPD) marker which is tightly linked to this recessive allele. The RAPD marker was cloned and used to generate a restriction fragment length polymorphic (RFLP) marker. This RFLP marker could discriminate with 100% accuracy between the semi-double and double- flower phenotypes in carnations of both Mediterranean and American groups. The advantages of RFLP over RAPD markers and their applicability to markerassisted selection in carnation are discussed. Received: 11 August 1997 / Accepted: 22 August 1997     

Identification of random amplified polymorphic DNA (RAPD) markers for self-incompatibility alleles in Corylus avellana L.

 Random amplified polymorphic DNA (RAPD) markers were identified for self-incompatibility (SI) alleles that will allow marker-assisted selection of desired S-alleles in hazelnut (Corylus avellana L.). DNA was extracted from young leaves collected from field-planted parents and 26 progeny of the cross OSU 23.017 (S₁S₁₂)×VR6-28 (S₂S₂₆) (OSU23×VR6). Screening of 10-base oligonucleotide RAPD primers was performed using bulked segregant analysis. DNA samples from 6 trees each were pooled into four ‘bulks’, one for each of the following: S₁ S₂, S₁ S₂₆ ^, S₂ S₁₂, and S₁₂ S₂₆. ‘Super bulks’ of 12 trees each for S₁, S₂, S₁₂, and S₂₆ were then created for each allele by combining the appropriate bulks. The DNA from these four super bulks and from the parents was used as a template in the PCR assays. A total of 250 primers were screened, and one RAPD marker each was identified for alleles S₂ (OPI07₇₅₀) and S₁ (OPJ14₁₇₀₀). OPJ14₁₇₀₀ was identified in 13 of 14 S₁ individuals of the cross OSU23×VR6 used in bulking and yielded a false positive in 1 non-S₁ individual. This same marker was not effective outside the original cross, identifying 4 of 5 S₁ progeny in another cross, ‘Willamette’×VR6-28 (‘Will’×VR6), but yielded false positives in 4 of 9 non-S₁ individuals from the cross ‘Casina’×VR6-28 (‘Cas’×VR6). OPI07₇₅₀ served as an excellent marker for the S₂ allele and was linked closely to this allele, identifying 12 of 13 S₂ individuals in the OSU23×VR6 population with no false positives. OPI07₇₅₀ was found in 4 of 4 S₂ individuals from ‘Will’×VR and 7 of 7 S₂ individuals of ‘Cas’×VR6 with no false positives, as well as 10 of 10 S₂ individuals of the cross OSU 296.082 (S₁S₈)×VR8-32 (S₂S₂₆), with only 1 false positive individual out of 21 progeny. OPI07₇₅₀ was also present in 5 of 5 cultivars carrying the S₂ allele, with no false-positive bands in non-S₂ cultivars, and correctly identified all but 2 S₂ individuals in 57 additional selections in the breeding program. In the OSU23×VR6 population, the recombination rate between the marker OPJ14₁₇₀₀ and the S₁ allele was 7.6% and between the OPI07₇₅₀ marker and the S₂ allele was 3.8%. RAPD marker bands were excised from gels, cloned, and sequenced to enable the production of longer primers (18 or 24 bp) that were used to obtain sequence characterized amplified regions (SCARs). Both the S₁ and S₂ markers were successfully cloned and 18 bp primers yielded the sole OPJ14₁₇₀₀ product, while 24-bp primers yielded OPI07₇₅₀ as well as an additional smaller product (700 bp) that was not polymorphic but was present in all of the S-genotypes examined. Received: 10 January 1998 / Accepted: 26 January 1998     

卡瓦胡椒SCAR标记的研究

目的：采用6份卡瓦胡椒材料、21份栽培胡椒和野生胡椒材料、1份不同属的草胡椒材料共计28份试验材料,开发1对特异SCAR引物。方法：在对它们进行了RAPD研究的基础上,通过克隆、测序和引物设计进行了SCAR分子标记研究。结果：本研究开发了1对特异SCAR引物P10．1和P10．2,用这对特异引物对本次试验的28份材料进行PCR扩增,结果显示,6份卡瓦胡椒材料扩增出了三条带,三条带离的较近,中间一条为预期494bp特异片段。其它胡椒属材料均扩增出一条494bp的特异带,而不同属的草胡椒无任何扩增。结论：这说明引物P10．1和P10．2适用于卡瓦胡椒的分子鉴定(三条带),也可用于胡椒属植物的分子鉴定(一条带),这对卡瓦胡椒种质资源的真伪鉴定及胡椒属植物的分子分类有一定帮助。     

Molecular studies on mungbean (Vigna radiata (L.) Wilczek) and ricebean (Vigna umbellata (Thunb.)) interspecific hybridisation for Mungbean yellow mosaic virus resistance and development of species-specific SCAR marker for ricebean

The aim of this study was to identify the molecular markers (SSR, RAPD and SCAR) associated with Mungbean yellow mosaic virus resistance in an interspecific cross between a mungbean variety, VRM (Gg) 1 X a ricebean variety, TNAU RED. The parental survey was carried out by using 118 markers (including 106 azuki bean primers, seven mungbean primers and five ricebean primers). This study revealed that 42 azuki bean markers (39.62%) and four mungbean markers (54.07%) showed parental polymorphism. These polymorphic markers were surveyed among the 187 F₂ plants and the results showed distorted segregation or chromosomal elimination at all the marker loci (thus, deviating from the expected 1:2:1 segregation). None of the plants harboured the homozygous ricebean allele for the markers surveyed and all of them were skewed towards mungbean, VRM (Gg) 1, allele, except a few plants which were found to be heterozygous for few markers. Among the 42 azuki bean SSR markers surveyed, only 10 markers produced heterozygotic pattern in six F₂ lines viz. 3, 121, 122, 123, 185 and 186. These markers were surveyed in the corresponding F₃ individuals, which too skewed towards the mungbean allele. In this study, one species-specific SCAR marker was developed for ricebean by designing primers from the sequenced putatively species-specific RAPD bands. A single, distinct and brightly resolved band of 400?bp was found amplified only in the resistant parent, TNAU RED, and not in any other six species or in the resistant or the susceptible bulks of the mapping population clearly indicated the identification of SCAR marker specific to the ricebean.