Identification of a nanovirus-like DNA molecule associated with Tobacco curly shoot virus isolates containing satellite DNA

A circular single-stranded DNA molecule, designated DNA1, was identified from Tobacco curly shoot virus (TbCSV) isolates Y35 and Y115 containing satellite DNAβ using abutting primers based on the two reported DNA1 sequences of whitefly-transmitted geminiviruses, while DNA1 molecule was not found in TbCSV isolates Y1 and Y121 without DNAβ. The immunotrapping PCR test showed that DNA1 could be encapsidated in virus particles. Southern blot further confirmed that DNA1 molecules were only associated with TbCSV isolates (Y35 and Y115) containing DNAβ. Sequences of Y35 and Y115 DNA1 comprise 1367 and 1368 nucleotides, respectively, each having a conserved ORF encoding nanovirus-like replication-associated protein (Rep). A low nucleotide sequence identity was found between DNA1 molecules and their cognate DNA-As. Y35 and Y115 DNA1 shared 92% overall nucleotide sequence identity and 96% amino acid sequence identity for Rep, while 69%～79% overall nucleotide sequence identity and 87%～90% amino acid sequence identity were found when compared with two reported DNA1 molecules associated with Ageratum yellow vein virus and Cotton leaf curl Multon virus. Sequence analysis showed that DNA1 was less related to nanovirus DNA.     

There is the second virus that causes tobacco leaf curl disease (not TbLCV-CHI) in the field

Sequence analysis of virus isolation DNA of tobacco leaf curl disease shows that there is the second geminivirus (not Chinese Tobacco Leaf Curl Virus, TbLCV-CHI) that causes tobacco leaf curl disease in the field in the Guangxi Zhuang Autonomous Region, China. This virus DNA-A contains 2 734 nt. Large intergenic region (LIR) contains 269 nt, the virus sense strand contains 2 open reading frames (ORFs): AV1 (115 aa) and AV2 (coat protein gene, CP, 256 aa), and the complementary sense strand contains 4 ORFs: AC1 (replicase gene, 361 aa), AC2 (transactivator, 134 aa), AC3 (134 aa) and AC4 (97 aa). The virus belongs to one kind of subgroup III geminiviruses from old world, and could be the Chinese tomato yellow leaf curl virus (TYLCV-CHI).     

Identification of a novel DNA molecule associated with Tobacco leaf curl virus

A circular DNA molecule, designated as DNAβ, was identified in tobacco plants infected with Tobacco leaf curl virus (TLCV) isolates Y5 and Y8 by PCR using primers based on the conserved region of the two reported DNAβ sequences of whitefly-transmitted geminiviruses (WTGs). The complete nucleotide sequences of DNAβ of Y5 and Y8 (TLCV DNAβ) were determined. Y5 DNAβ comprises 1333 nucleotides encoding 8 predicted ORFs with 4 ORFs in virion-sense DNA and 4 ORFs in complementary-sense DNA; Y8 DNAβ consists of 1338 nucleotides encoding 7 predicted ORFs with 4 ORFs in virion-sense DNA and 3 ORFs in complementary-sense DNA. TLCV DNAβ has little sequence homology to DNA-A of TLCV., except that it shares conserved TAATATTAC loop sequence with TLCV DNA-A. Sequence comparison showed that Y5 DNAβ shared 85% sequence homology with Y8 DNAβ, and both Y5 DNAβ and Y8 DNAβ had relatively low sequence identity (51%–65%) with the reported DNAβ molecules associated with Ageratum yellow vein virus and Cotton leaf curl virus. The immunotrapping PCR and whitefly transmission tests showed that DNAβ molecule could be encapsidated in virus particle and transmitted by Bemisia tabaci. This is the first report of DNAβ associated with WTGs in China.     

Malvastrum yellow vein virus,a new Begomovirus species associated with satellite DNA molecule

Virus isolate Y47 was obtained from Malvastrum coromandelianum showing yellow vein symptom in Honghe, Yunnan Province. The complete nudcotide sequence of DNA-A was determined, it contains 2731 nuclcotides,having typical genomic organiTation of a begomovirns, encoding 6ORFs with 2ORFs [AVI(CP) and AV2] in virionsense DNA and 40RFs (ACl-AC4) in complementary-sense DNA. Comparisons show that the total DNA-A of Y47 has the highest sequence identity (77%) with that of Okra yellow vein mosaic virus-[201] (AJ002451), while less than 76% identities are found when compared with other begomoviruses. The molecular data show that virus isolate Y47 is a distinct begomovirns species, for which the name Maivastrum yellow vein vorus is proposed. Satellite DNA molecule (Y47β) was found to be associated with Y47 using the primers (beta01 and beta02) specific for DNAβ Y47β consists of 1348 nuclcotides, with a functional ORF (CI) in complemen-tary-sense DNA.Y47β has 62%--67% sequence identity with DNAβ molecule associated with Cotton leaf curl Muitan virus or Cotton leaf curl Rajasthan virus, while lower than 46% sequence identities are found when compared with other reported DNA[~ molecules. Relationship dendrograms show that DNAβ molecules are co-evolved with their help begomoviruses.     

<Emphasis Type="Italic">Malvastrum yellow vein virus</Emphasis>, a new<Emphasis Type="Italic">Begomovirus</Emphasis> species associated with satellite DNA molecule

Virus isolate Y47 was obtained fromMalvastrum coromandelianum showing yellow vein symptom in Honghe, Yunnan Province. The complete nucleotide sequence of DNA-A was determined, it contains 2731 nucleotides, having typical genomic organization of a begomovirus, encoding 6 ORFs with 2 ORFs [AV1(CP) and AV2] in virionsense DNA and 4 ORFs (AC1–AC4) in complementarysense DNA. Comparisons show that the total DNA-A of Y47 has the highest sequence identity (77%) with that ofOkra yellow vein mosaic virus- [201] (AJ002451), while less than 76% identities are found when compared with other begomoviruses. The molecular data show that virus isolate Y47 is a distinct begomovirus species, for which the nameMalvastrum yellow vein virus is proposed. Satellite DNA molecule (Y47β) was found to be associated with Y47 using the primers (beta01 and beta02) specific for DNAβ. Y47β consists of 1348 nucleotides, with a functional ORF (C1) in complementary-sense DNA. Y47β has 62%–67% sequence identity with DNAβ molecule associated withCotton leaf curl Multan virus orCotton leaf curl Rajasthan virus, while lower than 46% sequence identities are found when compared with other reported DNAβ molecules. Relationship dendrograms show that DNAβ molecules are co-evolved with their help begomoviruses.     

Tobacco curly shoot virus iso-lated in Yunnan is a distinct species of Begomovirus

Virus isolate Y1 was obtained from tobacco showing curly shoot symptoms in Baoshan, Yunnan Province. Whitefly transmission test and virion morphology observation showed that it is a begomovirus. In reactions with 14 monoclonal antibodies raised against begomoviruses, Y1 was readily differentiated from begomoviruses reported in China, Pakistan and India. The complete nucleotide sequence of DNA-A was determined, it contains 2746 nucleotides, with two ORFs in virion-sense DNA and four ORFs in complementary-sense DNA. Comparisons with total DNA-A, intergenic region and deduced amino acid sequences of individual ORFs showed that Y1 is a distinct Begomovirus species, for which the name Tobacco curly shoot virus (TCSV) is proposed. The total DNA-A of TCSV is most closely related to that of Tomato leaf curl virus from India (85% sequence identity). In contrast, the deduced coat protein of TCSV is most like that of Cotton leaf curl virus 72b isolate from Pakistan (98% amino acid sequence identity).     

Molecular characterization of<Emphasis Type="Italic">Tomato yellow leaf curl China</Emphasis> virus and its satellite DNA isolated from tobacco

Virus isolates, Y8, Y36 and Y38, were obtained from tobacco plants showing leaf curl symptoms in Honghe,Yunnan Province. In reactions with 14 monoclonal antibodies raised against Begomoviras particles, Y8, Y36 and Y38 had similar antigenic reaction in TAS-ELISA as Tomato yellow leaf carl China virus (TYLCCNV). The complete DNA-A nueleotide sequences of Y8, Y36 and Y38 were determined and they contain 2727, 2730 and 2730 nueleotides, respectively. Each of the DNA-A sequences has a typical Begomovirus genome organization encoding 60RFs with 20RFs[AVI(CP) and AV2] in virion-sense DNA and 40RFs (AC1 to AC4) in complementary-sense DNA. Comparisons with total DNA-A, intergenie region and deduced amino acid sequences of individual ORFs show that Y8, Y36 and Y38 are isolates of TYLCCNV. Satellite DNA molecules (DNAβ) were found to be associated with Y8, Y36 and Y38, which consist of 1338, 1339 and 1338 nucleotides, respectively. Comparisons show that these DNAβ molecules share 98%--99% sequence identities on nucleotide level and have a common ORF (designated C1) encoding 126 amino acids on the complementary strand.     

Function of A-Rich region in DNAβ associated with Tomato yellow leaf curl China virus

A novel type of circular single-stranded satellite DNA, known as DNAβ, was recently characterized and demonstrated to be associated with monopartite begomoviruses. DNAβ was essential for induction of characteristic symptoms in plants. DNAβ has three structural features: an 115 bp highly conserved region, tiC/gene and A-Rich region. The in-frame ATG mutation of βC1 gene of Tomato yellow leaf curl China virus isolate Y10 (TYLCCNV-TY10) DNAβ demonstrated that βC1 gene is required for leaf curl symptom. Here, the function of A-Rich region in TYLCCNV-Y10 DNAβ was identified. When A-Rich region was deleted, the A-Rich deleted mutant was still capable of replication and systemic infection in plant, indicating that A-Rich region is not required for trans-replication of DNAβ. The immunotrapping-PCR demonstrated that A-Rich deleted mutant could be encapsidated in the coat protein encoded by TYLCCNV-Y10 DNA-A, suggesting that A-Rich region is not related with DNAβ encapsidation. However, the A-Rich region deleted mutant caused milder symptom.     

Tobacco curly shoot virus isolated in Yunnan is a distinct species of Begomovirus

Virus isolate Y1 was obtained from tobacco showing curly shoot symptoms in Baoshan, Yunnan Province. Whitefly transmission test and virion morphology observation showed that it is a begomovirus. In reactions with 14 monoclonal antibodies raised against begomoviruses, Y1 was readily differentiated from begomoviruses reported in China, Pakistan and India. The complete nucleotide sequence of DNA-A was determined, it contains 2746 nucleotides, with two ORFs in virion-sense DNA and four ORFs in complementary-sense DNA. Comparisons with total DNA-A, intergenic region and deduced amino acid sequences of individual ORFs showed that Yl is a distinct Begomovirus species, for which the name Tobacco curly shoot virus (TCSV) is proposed. The total DNA-A of TCSV is most closely related to that of Tomato leaf curl virus from India (85% sequence identity). In contrast, the deduced coat protein of TCSV is most like that of Cotton leaf curl virus 72b isolate from Pakistan (98% amino acid sequence identity).     

吐鲁番温室番茄病株及传毒烟粉虱的双生病毒检测与鉴定

为了明确吐鲁番地区温室番茄黄化曲叶病的病毒种类及传毒烟粉虱的生物型及携带病毒的情况,本研究利用番茄黄化曲叶病毒的特异引物通过PCR检测和DNA测序,对温室采集的43个番茄病株进行了病毒种类的分子鉴定;利用烟粉虱特异引物和番茄黄化曲叶病毒特异性引物通过PCR检测和DNA测序,对鄯善县温室采集的180头烟粉虱进行了生物型鉴定和带毒检测,并构建了双重PCR检测方法。结果显示:吐鲁番市和鄯善县温室发生的番茄黄化曲叶病的病毒种类为番茄黄化曲叶病毒(Tomato yellow leaf curl virus,TYLCV),病株带毒率为39.5%。鄯善县温室发生的烟粉虱主要为Q型烟粉虱,带毒率为67.8%,是主要的传毒介体。本研究建立的双重PCR检测技术,能快速有效地确定Q型烟粉虱的生物型和携带TYLCV的情况。     

Breeding of T. aestivum-Ag. intermedium translocation lines with T. timopheevii cytoplasm and characterization by GISH

A male-sterileT. aestivum-Ag. intermedium partial amphiploid with cytoplasm ofT. timopheevii as a female parent was crossed to common wheat. The hybrid was backcrossed to the male parent several times continually and setf-crossed at last. Two stable lines with common wheat phenotype, H96269-2 and H96278, have been obtained. The chromosome numbers of the two lines are all2n = 42 in somatic cetls. By inoculation test, the two lines show a high levet of resistance to yetlow rust. Through genomicin situ hybridization (GISH) withAg. intermedium total genomic DNA as a probe, it is demonstrated that the two stable lines are all small segmental translocation lines, and the translocated chromosome segments fromAg. intermedium are located on the short arm terminals of wheat chromosomes. Genetics analysis suggests that the yetlow rust resistance gene(s) are probably located on the translocated chromosome segments ofAg. intermedium.     

Isolation of genetic elements that increase frequencies of plasmid recombinants

Some plasmid DNAs, when maintained in wild-type Escherichia coli strains, form high levels of oligomeric species while others remain primarily monomers. One explanation of this observation is that the plasmids that do not form circular oligomers lack a DNA sequence necessary for the formation or maintenance of circular oligomeric species. Here we describe the isolation of segments of DNA from the E. coli genome and other sources that through a recA+ -dependent process: (1) stimulate the conversion of monomeric plasmids to different oligomeric forms, (2) stimulate the conversion of an oligomeric plasmid to a mixture of monomeric and different oligomeric forms, and (3) increase the frequency of recovery of figure-8 molecules. Both cis-acting and trans-acting elements were found. These elements seen to act by stimulating either the frequency of the recombination events that lead to the interconversion of different oligomeric plasmid DNA molecules or some process involved in the maintenance of newly-formed recombinant molecules.     

The virophage as a unique parasite of the giant mimivirus

Viruses are obligate parasites of Eukarya, Archaea and Bacteria. Acanthamoeba polyphaga mimivirus (APMV) is the largest known virus; it grows only in amoeba and is visible under the optical microscope. Mimivirus possesses a 1,185-kilobase double-stranded linear chromosome whose coding capacity is greater than that of numerous bacteria and archaea1, 2, 3. Here we describe an icosahedral small virus, Sputnik, 50 nm in size, found associated with a new strain of APMV. Sputnik cannot multiply in Acanthamoeba castellanii but grows rapidly, after an eclipse phase, in the giant virus factory found in amoebae co-infected with APMV4. Sputnik growth is deleterious to APMV and results in the production of abortive forms and abnormal capsid assembly of the host virus. The Sputnik genome is an 18.343-kilobase circular double-stranded DNA and contains genes that are linked to viruses infecting each of the three domains of life Eukarya, Archaea and Bacteria. Of the 21 predicted protein-coding genes, eight encode proteins with detectable homologues, including three proteins apparently derived from APMV, a homologue of an archaeal virus integrase, a predicted primase-helicase, a packaging ATPase with homologues in bacteriophages and eukaryotic viruses, a distant homologue of bacterial insertion sequence transposase DNA-binding subunit, and a Zn-ribbon protein. The closest homologues of the last four of these proteins were detected in the Global Ocean Survey environmental data set5, suggesting that Sputnik represents a currently unknown family of viruses. Considering its functional analogy with bacteriophages, we classify this virus as a virophage. The virophage could be a vehicle mediating lateral gene transfer between giant viruses.     

Identification of a bi-directional promoter from Tomato yellow leaf curl China virus

A bi-directional promoter of Tomato yellow leaf curl China virus (TYLCCNV) was obtained with the total DNA from TYLCCNV isolate Y10 infected tobacco leaves as a template. Plant expression vectors were constructed by fusing the amplified DNA fragment with the gus gene and nopaline terminator in different orientations. The vectors containing promoter fragments were transferred into leaf cells and plant stems of Nicotiana benthamiana by Agrobacterium-mediated method. Transient expression results showed that both the complementary and virion-sense promoters could drive the gus gene to express, and the GUS activity of the complementary-sense promoter was stronger than that of the virion-sense. Co-expression of the vector containing βC1 gene of TYLCCNV DNAβ with the vector containing a bi-directional promoter revealed that the βC1 protein has no impact on expression of either the virion- or the complementary-sense promoter.     

Regulatory effect of cotton leaf curl virus AC2 on virion sense promoter

The AC2 gene of cotton leaf curl virus (CLCuV) was obtained by polymerase chain reaction (PCR) . The total DNA of the CLCuV infected tomato leaves was used as template, and the amplified DNA fragment was inserted into a cloning vector. Transient expression vectors were constructed by inserting the AC2 gene into downstream region of CaMV 35S promoter. These constructs were delivered into tobacco and cotton leaf cells for transient expression by particle bombardment. The results indicated that the virion sense promoter was activated by AC2 and its activity increased remarkably. However, the activity of transactivated virion sense promoter was still lower than that of the complementary sense promoter. The expression pattern of transactivated virion sense promoter was similar to that of the complementary sense promoter, namely with high activity in both mesophyll and vascular tissues. The possibility of application of AC2 in plant genetic manipulation was also explored.     

一阶非完整约束系统动轴理论的方程

本文使用旋量方法建立一阶非完整约束系统动轴理论的方程,以匀质圆球在铅垂固定粗糙圆锥内壁上滚动作为具体算例,并与新近发展的Kane方程进行比较。     

Nonspecific integration of the HTLV provirus genome into adult T-cell leukaemia cells

Human T-cell leukaemia virus (HTLV), previously also reported as ATLV, is a recently identified retrovirus which is closely associated with adult T-cell leukaemia (ATL) endemic in southwestern Japan and the Caribbean. Determination of the total nucleotide sequence of the HTLV genome has revealed no typical onc gene acquired from the cellular sequence. Screening of the HTLV provirus genome in tumour cells has shown that in all cases of ATL examined, the primary tumour cells contained the provirus genome and were monoclonal with respect to the integration site of the provirus. These findings suggest that ATL leukaemogenesis may be due to insertional mutagenesis in which the provirus genome is integrated into a specific locus on the chromosomal DNA and then activates an adjacent cellular onc gene, a mechanism already demonstrated in avian lymphoma and erythroblastosis induced by avian leukosis viruses. A common site of HTLV provirus integration in leukaemic cells among some ATL patients was reported by Hahn et al. but subsequently retracted. However, this retraction does not imply the random integration of the proviruses. Independently, we have been testing this insertional mutagenesis model in ATL and report here that the provirus did not have a common locus of integration in 35 ATL patients and did not integrate on the same chromosome in 2 ATL patients.     

利用Tn5转座子构建杆状病毒AcMNPV随机突变体的初步研究

以杆状病毒模式种AcMNPV为研究对象,应用基于Tn5转座子的随机转座的方法,构建杆状病毒突变体库将果蝇hsp70启动子后接绿色荧光蛋白基因后插入Tn5转座子,构建了可以在昆虫细胞中表达,易于跟踪的转座载体．利用体外转座系统将转座子随机插入AcMNPV基因组,并用转座反应液转染Sf21细胞,得到了表达绿色荧光蛋白的病毒突变体库进一步纯化了两株病毒B9F和Li6A,进行了转座子插入位点的分析,确定两株病毒中,转座子分别插入了94K基因和p10基因．该方法将为杆状病毒功能基因组研究提供重要的手段。