Characterization of Genome and Chromosomes in Octoploid Wheat wheatgrass Amphiploid Zhong 2 Using Fluorescence in situ Hybridization and Chromosome Pairing Analysis

Genomic constitution of octoploid wheat-wheatgrass amphiploid Zhong 2 was analyzed by chromosome pairing and fluorescence in sim hybridization techniques. The results indicated that the octoploid wheatwheatgrass chromosomes in Zhong 2 were derived from the distant homologous genomes of wheatgrass ( Agropyron intermedium (Host) P.B. = Elytrigia intermedia (Host) Nevski = Thinotopyrum intermedium (Host) Barkworth and Dewey, and thew distant homologous genomes were not from the E geaome of T. elongatum 2x. Zhong 2 contained 12 wheatgrass chromosomes in which a pair of chromosomes was involved in translocation between wheatgrass and wheat chromosomes.     

应用荧光原位杂交和染色体配对研究八倍体小冰麦中2的染色体组构成及染色体特征

通过染色体配对分析和荧光原位杂交（ＦＩＳＨ）技术对八倍体小冰麦中２的染色体组构成进行分析,结果表明：八倍体小冰麦中２含有的冰草染色体是来自天蓝冰草（Ａｇｒｏｐｙｒｏｎ　ｉｎｔｅｒｍｅｄｉｕｍ（Ｈｏｓｔ）Ｐ．Ｂ．＝Ｅｌｙｔｒｉｇｉａ　ｉｎｔｅｒｍｅｄｉａ（Ｈｏｓｔ）Ｎｅｖｓｋｉ＝Ｔｈｉｎｏｐｙｒｕｍ　ｉｎｔｅｒｍｅｄｉｕｍ　（Ｈｏｓｔ）Ｂａｒｋｗｏｒｔｈ　ａｎｄ　Ｄｅｗｅｙ）具同亲关系的染色体组,但冰草的这种同亲关系的染色体组不同于二倍体长穗偃麦草（Ｔｈｉｎｏｐｙｒｕｍ　ｅｌｏｕｇａｔｕｍ　２Ｘ）的Ｅ组染色体。中２含有１２条冰草染色体,且有一对染色体为小麦（Ｔｒｉｔｉｃｕｍ　ａｅｓｔｉｖｕｍ　Ｌ．）染色体和冰草染色体之间易位所形成的。     

Pathogenicity of three RPV isolates of Barley Yellow Dwarf Virus on barley, wheat and wheat alien addition lines

Barleys with and without the Yd₂ resistance factor, wheat alien addition stocks with other barley yellow dwarf virus (BYDV) resistance factors and true wheats were challenged with three Australian isolates of BYDV-RPV. Yd₂ resistance was effective against two of the BYDV-RPV isolates and inoculated barleys which carry Yd₂ did not develop BYD symptoms and shoot growth was not affected. However, barleys with Yd₂ were susceptible to the third BYDV-RPV isolate. All barley lines inoculated with the third virus isolate developed typical BYD symptoms (yellowing), shoot growth was reduced compared to uninfected controls and virus titres determined by ELISA were high and similar in barleys with and without Yd₂. In contrast, resistances from Thinopyrum intermedium and Agropyron pulcherrimum in wheat backgrounds were effective against all three BYDV-RPV isolates. Shoot growth of inoculated plants with either of these resistance factors did not differ from uninfected controls and virus titres determined by ELISA were very low.     

A diagnostic molecular marker allowing the study of Th. intermedium-derived resistance to BYDV in bread wheat segregating populations

Barley yellow dwarf (BYD) is the most important viral disease of small cereal grains. True resistance to the disease is not found in wheat (Triticum aestivum L.), but it has been introgressed from Thinopyrum intermedium (Ti) on chromosome 7DL of recombinant wheat lines designated TC. The objectives of our study were to identify a high through-put scoring tool for the presence of the translocated Th. intermedium fragment and to assess its suitability for evaluating resistance to BYDV in segregating populations. Segregation of the Ti fragment was followed in the F₂ population of an Anza (bread wheat) by TC14/2*Spear (TC14) cross. Resistance to BYDV isolates PAV-Mex and MAV-Mex in F_3, F₄, and F₅ populations was evaluated under field and/or greenhouse conditions by measuring the virus titers of infected plants using ELISA, and the number of infected plants per plot. The SSR marker gwm37 was polymorphic for the translocation. In F₄ lines it was associated with the physical presence of an intact translocation on chromosome 7DL and with low virus titers of BYDV-PAV. Reductions in virus titer of 27% and 55% in the F₃ and 18% and 45% in the F₅ populations were observed when the fragment was present in the heterozygous and homozygous states, respectively, confirming a dosage effect of the resistance allele. A lower proportion of infected individuals in the field was associated with the presence of the fragment, indicating a mechanism that may interfere with aphid feeding or virus translocation within infected plants. Despite significant differences between groups with and without the fragment, the OD values of infected lines overlapped, and it was not possible to definitively detect the fragment based solely on ELISA. We conclude that gwm37 is a reliable marker for the Ti translocation that will allow efficient detection of the translocation in breeding populations and greatly assist in selecting BYDV-resistant wheats in the absence of the disease. Received: 13 April 2000 / Accepted: 9 August 2000     

Study on Genomic Changes in Partial Amphiploids of Common Wheat Wheatgrass

According to conventional theory, little genomic changes should occur in homozygous and stable amphiploids of the grass family, particularly those involving polyploid wheat as a parent. In the present study, however, extensive genomic changes were detected in two octoploid partial amphiploids of common wheat ( Triticum aestivum L. )-wheatgrass ( Agropyron intermedium (Host) P.B. = Elytrigia intermedia (Host) Nevski = Thinopyrum intermedium (Host) Barkworth and Dewey), namely Zhong 3 and Zhong 5, by RFLP an, analysis using 10 low-copy, wheat chromosome-specific sequences and 33 representative homoeologous group-specific sequences as probes. C, enomic changes involved loss of wheat hybridization fragment (s) and/or acquisition of new fragment(s). Uniformity of the RFLP patterns among 5 individual plants taken respectively from Zhong 3 and Zhong 5 in two successive generations, suggested that genomic changes probably had occurred in the early few generations after octoploid amphiploid formation, and remained essentially static thereafter, The highly similar RFLP patterns between Zhong 3 and Zhong 5, which had identical genomic constitution but differed from each other due to involvement of different wheat varieties as parents imply that genomic changes were probably not at random. Possible causes for the extensive and rapid genomic changes in the newly formed plant amphiploids, as well as their implications for polyploid genome evolution and breeding application are discussed.     

Identification of polypeptide markers of barley yellow dwarf virus resistance and susceptibility genes in non-infected barley (Hordeum vulgare) plants

Summary Barley yellow dwarf (BYDV) is a group a closely related viruses which cause economic losses in a wide range of graminaceous species throughout the world. Barley plants can be protected from the effects of BYDV by the Yd2 resistance gene. Plants which contain the Yd2 gene also contain a constitutively expressed polypeptide which was not found in any plants without Yd2. Conversely, BYDV susceptible plants contain another constitutively expressed polypeptide which was not found in any of the BYDV-resistant lines examined. These two polypeptides appear to have the same molecular weight (as assessed by SDS-PAGE) and only slightly different iso-electric points. They also appear to contain an extensive range of similar antigenic determinants. Both polypeptides were found in F₁ hybrids made from resistant and susceptible plants. We suggest that these two polypeptides are the products of two allelic genes. Analysis of near-isogenic lines showed that the locus which controls the Yd2 resistance gene and the locus controlling the synthesis of the two polypeptides may be within ± 9 cM of each other. We have developed a Western blot technique which allows assessment of barley lines, 4-days after seed imbibition, for the presence of the Yd2 gene.     

A,D组染色体对普通小麦光合碳同化特性的影响

系统研究了普通小麦中国春Ａ、Ｄ组端二体的光合特性。结果表明,４Ａ的双臂对光合速率,光合速率高值持续期、叶绿素含量、叶肉导度均具显著的正效应,１Ａ的短臂的双臂对光合速率和光合速率高值持续期也具有正交应,但４Ｄ的长臂对光合速率、光合速率高值持续期和ＲｕＢＰＣａｓｅ活性具负效应。     

山东烟台小麦土传病毒病由小麦黄花叶病毒和土传小麦花叶病毒相关病毒复合侵染所致

在山东省烟台地区的小麦上发生一种由土壤中禾谷多粘菌Polymyxa graminis传播的病毒病,感病小麦植株表现矮化褪绿和花叶症状.我们于1997年4月从病区采集感病小麦植株,进行了病毒种类鉴定.直接电镜观察发现有二种病毒粒子,一种粒子呈棒状,占大多数,其长度约为300nm和150nm; 另一种粒子呈线状,数量较少,长度为500nm～700nm.免疫电镜结果表明,棒状病毒粒子仅与土传小麦花叶病毒(soil-borne wheat mosaic virus, SBWMV)抗血清反应,而不与小麦黄花叶病毒(wheat yellow mosaic virus,WYMV)抗血清和小麦梭条斑花叶病毒(wheat spindle streat mosaic virus,WSSMV)抗血清反应;反之,线状病毒仅与WYMV、WSSMV抗血清反应,而不与SBWMV抗血清反应.用WYMV和SBWMV两种抗血清同时进行修饰时,线状病毒粒子和棒状病毒粒子均发生反应.     

Comparison of the potential rate of population increase of brown and green color morphs of Sitobion avenae (Homoptera: Aphididae) on barley infected and uninfected with Barley yellow dwarf virus

Life tables of brown and green color morphs of the English grain aphid, Sitobion avenae (Fabricius) reared on barley under laboratory conditions at 20 ± 1°C, 65% ± 5% relative humidity and a photoperiod of 16 : 8 h (L : D) were compared. The plants were either: (i) infected with the Barley yellow dwarf virus (BYDV); (ii) not infected with virus but previously infested with aphids; or (iii) healthy barley plants, which were not previously infested with aphids. Generally, both color morphs of S. avenae performed significantly better when fed on BYDV‐infected plants than on plants that were virus free but had either not been or had been previously infested with aphids. Furthermore, when fed on BYDV‐infected plants, green S. avenae developed significantly faster and had a significantly shorter reproductive period than the brown color morph. There were no significant differences in this respect between the two color morphs of S. avenae when they were reared on virus‐free plants that either had been or not been previously infested with aphids. These results indicate that barley infected with BYDV is a more favorable host plant than uninfected barley for both the color morphs of S. avenae tested, particularly the green color morph.     

The Distribution of Garlic Viruses in Leaves and Bulbs during the First Year of Infection

Garlic plants are naturally infected with a mixture of viruses. Virus‐free garlic plants, obtained by meristem culture, rapidly become reinfected when planted in the field. With the aim of understanding virus movement and fluctuations in virus concentration in leaves and cloves of garlic plants in the first year after infection, Onion yellow dwarf virus, Leek yellow stripe virus, and other viruses were analyzed by double‐antibody sandwich enzyme‐linked immunosorbent assay. Significant differences were detected in virus concentration in different leaves, but the distribution of the viruses was variable. Therefore, no one type or position of leaf is preferable for detecting virus presence. Instead, sampling any leaf at the end of the crop cycle, about 200 days after planting, is advisable because virus concentration is several times higher in older plants. The analysis of virus distribution in bulbs revealed that virus concentration was higher in early‐inoculated than in late‐inoculated plants. In 81% of the bulbs, cloves were either all positive or all negative in serological tests. Only in 6% of the cases were positive and negative cloves found in the same bulb, and in 13% of the bulbs, negative results coexisted with an uncertain status. The tests of virus concentration in relation to the layers of each bulb revealed important differences. Only the innermost layer showed differences with other layers, but this was poorly represented as it had fewer cloves.     

细胞生长和表面精蛋白的N－糖链中核心岩藻糖的关系

细胞生长和表面精蛋白的Ｎ－糖链中核心岩藻糖的关系董素才,杨小平,陈惠黎（上海医科大学生物化学教研室,２０００３２）关键词精蛋白Ｎ—糖链,核心岩藻糖,小扁豆凝集素,细胞生长细胞表面精蛋白Ｎ一糖链的结构与细胞生长、分化、恶变有密切关系,除糖链的类型和天线...     

小偃麦附加系Z1和Z2中外源染色体2Ai-2的结构组成

小偃麦附加系Z1和Z2中外源染色体2Ai-2的结构组成@张增燕$中国农业科学院作物育种栽培研究所!北京100081@辛志勇$中国农业科学院作物育种栽培研究所!北京100081@陈孝$中国农业科学院作物育种栽培研究所!北京100081小偃麦;;附加系;;染色体     

大麦黄矮病毒运动蛋白核定位信号对PVX病毒运动的影响

应用马铃薯X病毒(PVX)载体研究大麦黄矮病毒运动蛋白(BYDV-MP)核定位信号对PVX病毒运动的影响。我们将BYDV-MP克隆到PVX改造载体pGR107中,同时用GFP作为指示蛋白,研究BYDV-MP对异源病毒PVX系统运动的影响。侵染烟草发现BYDV-MP能够在PVX载体中表达并能加强病毒的系统侵染;将PVX编码系统运动蛋白25kD基因进行缺失突变,重复上述试验发现BYDV-MP能够补偿PVX系统运动;将BYDV-MP的N端的第五、六位氨基酸和第七位氨基酸进行替换突变,侵染烟草发现BYDV-MP的N端的第五、六位氨基酸突变不能完全抑制PVX系统运动,但是可以延迟并减弱PVX系统运动;BYDV-MP的N端的第七位氨基酸突变能够完全抑制PVX系统运动。     

大麦黄矮病毒GAV株系ORF4基因在杆状病毒-昆虫细胞系统中的表达及亚细胞定位

根据已报道的大麦黄矮病毒GAV株系(BYDV-GAV)相关基因序列,利用RT-PCR方法获得ORF4基因。在杆状病毒-昆虫细胞系统中,成功表达了ORF4和GFP（绿色荧光蛋白）的融合蛋白(GFP: ORF4),Western blot检测到目的蛋白的表达。利用激光共聚焦显微镜观察其在细胞中的积累和亚细胞分布,发现ORF4基因编码的17 kD蛋白（P4）能进入细胞核,并在细胞核膜上聚集。通过对ORF4基因编码的P4蛋白的N端和C端缺失突变结合蛋白质的结构预测分析,鉴定出N端α螺旋结构对于P4蛋白的核膜定位是必需的。这些结果为进一步研究ORF4基因在黄矮病毒GAV系统侵染中的生物学功能奠定了基础。     

大麦黄矮病毒GAV株系ORF4基因在杆状病毒-昆虫细胞系统中的表达及亚细胞定位

根据已报道的大麦黄矮病毒GAV株系(BYDV-GAV)相关基因序列,利用RT-PCR方法获得ORF4基因。在杆状病毒-昆虫细胞系统中,成功表达了ORF4和GFP(绿色荧光蛋白)的融合蛋白(GFP:ORF4),Western blot检测到目的蛋白的表达。利用激光共聚焦显微镜观察其在细胞中的积累和亚细胞分布,发现ORF4基因编码的17kD蛋白(P4)能进入细胞核,并在细胞核膜上聚集。通过对ORF4基因编码的P4蛋白的N端和C端缺失突变结合蛋白质的结构预测分析,鉴定出N端α螺旋结构对于P4蛋白的核膜定位是必需的。这些结果为进一步研究ORF4基因在黄矮病毒GAV系统侵染中的生物学功能奠定了基础。     

普通小麦多子房基因单体分析的染色体定位及双端体分析的染色体臂定位

本研究以普通小麦——“中国春”的单体系统和多子房小麦杂交,确定控制多子房性状的基因数目及关键染色体。通过单体分析,初步确定多子房性状分别受染色体5D和6B上的2个非互补的同效异位被动隐性基因所控制,分别用m_1和m_2表示。 继续用“中国春”双端体5DL、6BL和6BS分别与多子房进行正反交,在5DL、6BL与多子房的正反交F_1植株上均出现多子房表型。由此确定,控制多子房性状的m_1、m_2基因分别位于染色体5D和6B的短臂上(5DS、6BS)。     

家蝇抗菌肽对细菌细胞表面特性影响及其作用机理的研究

利用微生物对十六烷吸附的方法(MATS方法)、微电泳方法与测定细菌质膜上β-半乳糖苷酶活性的方法,探讨了家蝇抗菌肽对大肠杆菌等6种细菌细胞表面特性及其细胞膜的作用机制。研究结果表明,抗菌肽使细菌表面电负性增强,对G 细菌细胞表面电荷的改变大于对G-的改变,使细菌细胞表面疏水性不同程度的下降。抗菌肽引起细菌细胞膜通透性迅速增加,不同细菌β-半乳糖苷酶释放的最大速度VP在3.86pmol/min～6.92pmol/min,相应的时间TP为0,由此推测抗菌肽对细胞膜的作用机制是“形成孔洞”。     

小麦遗传背景对普通小麦×6x小簇麦杂种F_1减数分裂行为的影响及育性

利用普通小麦与6x小簇麦杂交转移簇毛麦有利基因的过程中,发现由小麦品系J－11为亲本的杂种F1花粉具有高可育的特性,研究结果表明,它可能是由小麦品系J－11核基因组上所携带的基因与簇毛麦染色体相互作用影响杂种F1减数分裂四分体时期的行为而形成的,导致其花粉育性及结实性的增高和外源染色体传递行为的不同。结果指出了可能存在一类影响远缘杂种减数分裂四分体时期行为的新基因,这种基因与外源染色体的相互作用对控制远缘杂种结实性及其外源基因的转移具有重要意义。     

The effect of temperature and inoculation access period on the transmission of barley yellow dwarf virus byRhopalosiphum padi (L.) and Sitobion avenae (F.)

Winged individuals of Rhopalosiphum padi and Sitobion avenae transmitted the PAV-like and MAV-like isolates of barley yellow dwarf virus respectively. Success of transmission after inoculation access periods of 2, 6, 12, 24, 48 and 72 h were examined and survival, reproduction and movement of the aphid vectors were recorded at these times. The experiment was done at four different temperatures: 6^oC, 12^oC, 18^oC and 23^oC. For both isolates the inoculation efficacy did not increase after a 24 h inoculation access period and there was no difference in inoculation efficiency at the three highest temperatures, that at 6^oC being significantly lower than at 12^oC to 23^oC. The results suggest that autumn temperature is a critical factor for BYDV epidemiology in Britain with a small increase in autumn temperature leading to greatly increased infection rates.     

Rapid and informative assays for Yd2, the barley yellow dwarf virus resistance gene, based on the nucleotide sequence of a closely linked gene

This paper describes the isolation of the cDNA encoding a protein previously shown to be indicative of the disease-resistance phenotype mediated by the Yd2 gene in barley (Hordeum vulgare L.). Amino acid sequences of four peptides obtained after isolation of the protein on two-dimensional polyacrylamide gels were completely homologous to sequences occurring within subunit E of barley vacuolar proton-translocating ATPase. Nucleotide sequence data of cloned cDNAs from both Yd2 and non-Yd2 barley varieties showed an amino acid change arising from a single-base-pair polymorphism. This was predicted to result in the shift in isoelectric point used previously to differentiate the protein in Yd2 and non-Yd2 barleys. Earlier work had indicated very close linkage between the gene from which this cDNA is derived, which we have named Ylp, and Yd2, the barley yellow dwarf virus resistance gene. We report here the development of PCR-based assays which discriminate between the two alleles of Ylp and thereby act as valuable predictors of Yd2 for barley breeders and others looking to study this important gene in cereal crops. The validity of each assay was tested with an extensive survey of over 100 barley varieties currently under cultivation in Australia or of importance to Australian barley breeding programmes. Complete agreement was observed between the allele of Ylp detected by the assay and the known Yd2 status of the barleys. A dominant PCR marker for the Yd2-associated allele of Ylp was subsequently developed using an allele-specific primer pair. This fast and economical assay will have broad application in the marker-assisted selection of Yd2-containing lines.