β-N-Oxalyl-L-α, β-diaminopropionic Acid in Somaclones Derived from Internode Explants of Lathyrus sativus

Protocols have been developed for in vitro regeneration from internode explants from Lathyrus sativus. Callus raised on B₅ medium supplemented with 10.7 μM NAA + 2.2 μM BA permitted shoot regeneration upon transfer to modified MS medium containing 10.7 μM NAA + 2.2 μM BA. Rooting was obtained only on 1/2 MS media containing 0.5 μM IBA. The in vitro regenerated plants, after primary and secondary hardening, were taken to the field. Analysis of ODAP in leaves and seeds was carried out. The low toxin containing progeny of the somaclones were further grown in the field. The toxin contents varied from 0.015% to 0.460% in leaf and 0.030% to 0.539% in seed in R, generation, as compared to 0.258% in leaf and 0.406% in seed for the parent P-24. Statistical analysis showed a positive significant correlation between leaf and seed ODAP contents. Mean seed toxin in R₁ generation of some of the somaclones varied from 0.039–0.057% and single plant seed yield varied from 25.8 to 45.0 g. Some plants showed seed toxin content of less than 0.01% from 1–22 progeny. Thus, following in vitro culture of internode explant, toxin content in seeds in R₂ generation has been found to be substantially reduced with single plant seed yield either equal to or higher than that of parent cv. P 24.     

Aneuploidy among androgenic progeny of hexaploid triticale (XTriticosecale Wittmack)

Doubled haploids are an established tool in plant breeding and research. Of several methods for their production, androgenesis is technically simple and can efficiently produce substantial numbers of lines. It is well suited to such crops as hexaploid triticale. Owing to meiotic irregularities of triticale hybrids, aneuploidy may affect the efficiency of androgenesis more severely than in meiotically stable crops. This study addresses the issue of aneuploidy among androgenic regenerants of triticale. Plant morphology, seed set and seed quality were better predictors of aneuploidy, as determined cytologically, than flow cytometry. Most aneuploids were hypoploids and these included nullisomics, telosomics, and translocation lines; among 42 chromosome plants were nulli-tetrasomics. Rye chromosomes involved in aneuploidy greatly outnumbered wheat chromosomes; in C₀ rye chromosomes 2R and 5R were most frequently involved. While the frequency of nullisomy 2R was fairly constant in most cross combinations, nullisomy 5R was more frequent in the most recalcitrant combination, and its frequency increased with time spent in culture with up to 70% of green plants recovered late being nullisomic 5R. Given that 5R was not involved in meiotic aberrations with an above-average frequency, it is possible that its absence promotes androgenesis or green plant regeneration. Overall, aneuploidy among tested combinations reduced the average efficiency of double haploid production by 35% and by 69% in one recalcitrant combination, seriously reducing the yield of useful lines.     

利用杀配子染色体2C诱导中国春-黑麦二体附加系染色体畸变的研究

将中国春-黑麦(1R-7R)二体附加系与中国春-2C(Aegilops cylindrica)二体附加系杂交,获得F1,对F1体细胞染色体进行C分带鉴定和花粉母细胞减数分裂行为的观察与分析,发现减数分裂行为异常。对自交获得的430株F2进行单株染色体C分带和荧光原位分子杂交鉴定,检测到易位、缺失、等臂染色体、双着丝点染色体等染色体畸变类型。此外还检测到2C与小麦2A、2B、2D染色体的二体或单体自发代换系。杂交F。染色体畸变的规律与频率如下：研究共得到含黑麦染色体的变异22株,变异频率为5,1％。其中含黑麦染色体的易位系为10株,占2,3％;缺失12株,占2．79％;黑麦的等臂染色体3株,占O．7％。易位染色体既有含小麦着丝点的(大部分),也含有黑麦着丝点的(仅1例)。黑麦的染色体畸变中,发生于不同同祖群的频率不同,1R为5个,2R为3个;3R为1个;4R为3个;5R为6个;6R为4个。易位多为端部易位。共鉴定出小麦的缺失系54株,其中A基因组有27个,占6.27％;B基因组有20个,占4,65％;D基因组有7个,占1.66％。对杀配子染色体对小麦及黑麦不同同祖群染色体作用的差异性及作用特点进行了探讨。     

普通小麦远缘杂交F1代表现型研究

小麦远缘杂交试验采用常规杂交方法,不进行胚培养,在自然条件下,实现了普通小麦与小黑麦(6X,AABBRR)、柱穗山羊草(2X,DD)、人工合成六倍体小麦(6X,AABBDD)、CIMMYT人工合成小麦(6X,AABBDD)的杂交.发现在F1代中,出现了2～7种植株表现型、7种性状分离现象;小麦颖壳颜色变化可能受多个加性基因控制;杂交F2代结实率较F1代有数倍或十余倍的增长.     

Loss of chromosomes 2R and 5RS in octoploid triticale selected for agronomic traits

The advanced lines of octoploid triticale which have been bred for nearly a half century in China show significant improvements in agronomic traits such as plant height, fertility, threshability, maturity and seed plumpness, although no intentional cytological selection had been performed. In this study, eight primary and six advanced lines were analyzed by fluorescence and genomic in situ hybridization to elucidate their chromosome constitutions. In the advanced lines, about 70% of the plants examined had 2n = 56 chromosomes (range: 50 to 58). Almost all advanced lines, however, had lost rye chromosome 2R and the short arm of 5R (5RS). The exceptions were lines Y1005 and Y4683: The former had lost only the 2R chromosome and the latter only 5RS. The reduction of rye chromosomes was compensated by an extra pair of 2D or A-genome (possibly 2A) chromosomes in plants with 2n = 56. This suggests that the loss of 2R and 5RS chromosomes contributes to the improvement of octoploid triticale. Since the plants with chromosome 2R are non-free threshing and chromosome 2D of synthetic wheat is known to carry the Tg (tenacious glumes) gene, it is possible that chromosome 2R carries a gene affecting the threshability, and we carried out selection to remove it. We also discuss the possible relationshipbetween 5RS and the genetic stability of octoploid triticale.     

Molecular characterization of the fate of transgenes in transformed wheat (Triticum aestivum L.)

Molecular analysis of the transgenes bar and gus was carried out over successive generations in six independent transgenic lines of wheat, until the plants attained homozygosity. Data on expression and integration of the transgenes is presented. Five of the lines were found to be stably transformed, duly transferring the transgenes to the next generation. The copy number of the transgenes varied from one to five in the different lines. One line was unstable, first losing expression of and then eliminating both the transgenes in R3 plants. Although the gus gene was detected in all the lines, GUS expression had been lost in R2 plants of all but one line. Rearrangement of transgene sequences was observed, but it had no effect on gene expression. All the stable lines were found to segregate for transgene activity in a Mendelian fashion.     

Integration,expression and inheritance of two linked T-DNA marker genes in transgenic lettuce

T-DNA integration and stability were assessed in Agrobacterium-derived transgenic lettuce lines carrying a chimaeric CaMV 35S promoter-driven gus-intron gene and a chimaeric nos.nptII.nos gene. T-DNA integration was predominantly complex in transgenic plants derived from an A. tumefaciens strain carrying the supervirulent plasmid ToK47. Truncation of the right side of the T-DNA was observed in first seed generation R₁ plants from one line. Complex T-DNA integration patterns did not always correlate with low transgene expression. Despite a high T-DNA copy number, ca. 30% of the lines analysed showed high transgene expression in the R₁ generation. High transgene expression was stable at least to the R₄ seed generation in selected high-expressing lines. Transgene expression was lost in the R₂ generation in a low expressing line, while complete, heritable transgene silencing from the R₀ to R₂ generations was also observed in another line. A 50-fold variation in -glucuronidase (GUS) activity and a 16-fold variation in NPTII protein content were observed between R₁ plants derived from different R₀ parents. Reactivation of transgene expression with 5-azacytidine in partially silenced lines indicated that low expression was associated with DNA methylation.     

Aphid (Hemiptera: Aphididae) resistance in wheat near-isogenic lines

Plant and aphid biomass, photosynthetic pigment (chlorophylls a and b and carotenoids) concentrations, and chlorophyll a/b and chlorophyll/carotenoid ratios were quantified in aphid-infested 'Tugela' near-isogenic lines (Tugela, Tugela-Dn1, Tugela-Dn2, and Tugela-Dn5). The objectives were to quantify changes of photosynthetic pigments (chlorophylls a and b, and carotenoids) caused by aphid feeding and assess resistance of wheat isolines through aphid and plant biomass analysis. Biomass of bird cherry-oat aphid, Rhopalosiphum padi (L.) (Hemiptera: Aphididae)-infested plants was lower than Russian wheat aphid, Diuraphis noxia (Mordvilko) (Hemiptera: Aphididae),- infested plants. When infested by D. noxia, all lines showed increased biomass over time, except Tugela where biomass decreased on day 12. No difference in plant biomass was detected among R. padi-infested and uninfested wheat lines. Biomass of D. noxia from Tugela (D. noxia-susceptible) was significantly higher than from plants with Diuraphis noxia-resistant Dn genes. Diuraphis noxia biomass from Tugela-Dn1 and Dn2 lines was not different from each other, but they were lower than from Tugela-Dn5. In contrast, there was no difference in R. padi biomass among wheat lines. Concentrations of chlorophylls a and b and carotenoids were significantly lower in D. noxia-infested plants compared with R. padi-infested and uninfested plants. When infested by D. noxia, chlorophyll a and b concentrations were not different among wheat lines on day 3, but they were lower in Tugela and Tugela-Dn1 than in Tugela-Dn2 and -Dn5 plants on days 6 and 12. However, no difference was detected in chlorophyll a/b or chlorophyll/carotenoid ratio among Tugela lines. The study demonstrated that Dn genes in the Tugela isolines conferred resistance to D. noxia but not to R. padi. Tugela-Dn1 was antibiotic, Tugela-Dn2 was tolerant and antibiotic, and Tugela-Dn5 was moderately antibiotic.     

Transgenic disease-resistant wheat does not affect the clonal performance of the aphid Metopolophium dirhodum Walker

Ever since the introduction of transgenic crops one of the main concerns has been their potential impact on non-target organisms. In this study we looked at the impact of transgenic disease-resistant wheat on different clones of the aphid Metopolophium dirhodum. Looking at different clones allowed us to assess whether impacts depended on aphid clone and whether there were aphid clone×wheat line interactions (genotype×environment interactions). The performance of 30 aphid clones on four different transgenic wheat lines and their corresponding control lines was studied in a life-table experiment assessing the following aphid life-history parameters: development time, adult weight, daily fecundity, total offspring number and the fitness estimate F_i′. As expected, we found significant variation among aphid clones for all the measured life-history parameters. However, our experiments did not reveal any major impact of the transgenic wheat lines on aphid performance. The only significant difference was found for total offspring number which was reduced by 3.33% on the transgenic wheat lines compared with the control lines. There was no evidence for a genotype×environment interaction between aphid clones and wheat lines. In sum, our results imply that the genetically modified plants used in this assay were of similar host plant quality as the non-transformed control lines and that the introduced transgene had no major effect on the performance of individual aphid clones.     

小麦-黑麦代换系5A/5R与6A/6R杂交诱导同祖染色体配对与易位的研究

利用两个小麦-黑麦异源双代换系DS 5A/5R与DS 6A/6R杂交,探讨同祖染色体配对的可能性与创制小麦黑麦异源易位系.在方法上对杂种F1的减数分裂行为进行研究,观察5R与5A、6R与6A配对频率,探讨同祖染色体配对规律.实验结果看到杂交F1减数分裂中有22.91%的花粉母细胞有小麦染色体(ABD组)与黑麦染色体(R组)发生同祖配对.在F2及以后世代,通过染色体C分带、原位杂交检测,选择小麦-黑麦易位系.在F2代的45株中检测到9株有易位,易位频率为20%,是目前小麦-黑麦染色体易位频率最高的.染色体易位有的来源于同祖配对的交换,有的来源于单价体错分裂或断裂的重建.     

Cytological characteristics of F2 hybrids between Triticum aestivum L. and T. durum Desf. with reference to wheat breeding

Cytological and agronomic characteristics of a F2 population from Triticum aestivum L. x T. durum Desf. hybrids were analyzed plant by plant. Means of morphologic traits in the F2 population were similar to those of the low-value parent. On average, F2 hybrids had 36.54 chromosomes per plant, indicating that each gamete lost 2.73 chromosomes at meiosis of the F1 generation. More than half of plants had 36-39 chromosomes, so male gametes with 19-21 chromosomes seemed to be superior to the others. The distribution frequency of chromosomes in this study differed from that in a previous report, where a different tetraploid wheat was used. This shows that a different breeding strategy may need to be taken when exploiting a different tetraploid wheat. According to our results, some plants with 42 chromosomes, having all the wheat A, B and D chromosomes, would appear in the F3 population, which provides a chance to obtain stable bread wheat lines from the self-pollinated progenies. Alternatively, the desirable individuals of the F2 population were backcrossed to bread wheat, which is very useful and efficient for the improvement of bread wheat by exploiting desirable genes in durum wheat.     

应用原位杂交技术对小麦—黑麦代换系间杂交的细胞遗传研究

应用原位杂交技术结合染色体组型分析方法,对两个小麦-黑麦异源双代换系5R/5A和6R/6A杂交后代的遗传进行了研究,探讨同祖染色体配对的可能性并获得小麦-黑麦易位系。实验中对杂种F1代植株减数分裂各时期的花粉母细胞染色体行为进行分析,结果发现有22.91%的花粉母细胞中黑麦染色体与小麦染色体发生同祖配对。F2代通过C-分带、原位杂交鉴定,在45株中检测到9株易位,易位频率为20%,是目前报道易位频率最高的。染色体易位有的来源于同祖配对交换,有的来源于单价体错分裂或断裂的重建。     

水稻MYB cDNA的克隆和表达分析

根据植物MYB类转录因子DNA结合功能域的保守区设计一对简并引物 ,以水稻根、小苗和未成熟种子中的RNA为材料 ,用RT PCR方法扩增出约 180bp的片段。序列分析表明 ,它们与MYB基因的保守区有很好的同源性。以未成熟种子中获得的这一 180bp片段作探针 ,从水稻未成熟种子cDNA文库中分离到 5个新的MYB基因家族成员 ,它们是OsMYB12、13、14、15和5 1。在酵母系统中证实OsMYB13、OsMYB15和Os MYB5 1蛋白具有转录激活功能。Northern印迹分析表明 ,OsMYB5 1主要在未成熟种子中表达 ,在根和小苗中表达水平较低。RT PCR分析表明 ,OsMYB15在根、茎、小穗、叶片和种子中有低水平的表达     

籼稻转反义蜡质基因后代的直链淀粉含量测定和纯系选育

通过根癌农杆菌介导将反义蜡质基因导入籼型雄性不育保持系龙特甫B中,获得30个PCR检测为阳性的转基因植株,其中,28个为Southern检测阳性。T1种子直链淀粉含量测定结果表明,有21个转基因植株比龙特甫B明显下降,下降幅度为3％-13％,并在部分转基因植株的种子中观察到蜡质状籽粒;对6个转基因植株进行了不同世代的直链淀粉含量测定,在L3和L5的T4代中,选择到直链淀粉含量分别为15．9％和8．4％的纯合株系,经凝胶电泳测定,WX蛋白量明显降低,并与直链淀粉含量下降表现一致。以L3-1-1-1(15．9％)和L5-8-2-1(8．4％)纯合株系为亲本,分别与龙特甫A进行成对杂交和回交,并测定了F1和B1F1种子直链淀粉含量,以L3-1-1-1作亲本的F1为21．4％,B1F1为17．1％;以L5-8-2-1作亲本的F1为13．6％,B1F1为9．3％,结果表明：在不育系的转育过程中,以中低直链淀粉含量的转基因纯合株系为亲本,能有效降低F1和B1F1的种子直链淀粉含量。     

矮败蓝标型小麦不育系的选育与研究

利用蓝粒太谷核不育硬粒小麦89-2343[AABB 4D(MS2)/4E]与普通小麦7739-3(2n=42)杂交、回交所产生的蓝粒可育株与白粒矮败材料杂交、回交,育成了一份矮败蓝粒小麦.选用13份遗传背景不同的白粒普通小麦与之杂交、回交,育成了13份矮败蓝粒小麦.对后代的粒色和育性分离进行分析,蓝粒矮败不育株占22.1%,白粒非矮秆可育株占77.7%,表明蓝粒基因、Ms2和Rht10均位于附加染色体上,且连锁紧密;但不同轮回亲本,矮败蓝粒的传递率有差异,477A的传递率最高,接近50%.细胞学分析表明矮败蓝粒小麦仍为单体附加系;探讨了矮败蓝粒小麦在群体改良和杂种小麦生产中的应用.     

Temporal generation of multiple antifungal proteins in primed seeds

A drastic increase of antifungal activity was demonstrated during plant seed germination and in seed protein extract in vitro. Multiple antifungal proteins with a wide spectrum of activity were generated and identified. Chromatographic and electrophoretic analysis demonstrated that during seed germination, more fractions with potent antifungal activity were generated, and the antifungal activity shifted from small molecules to high molecular proteins. This germination-related increase of antifungal activity were observed in all three plants tested, i.e., cheeseweed, cigar tree and wheat. This rapid increase of antifungal activity was also observed with incubation of seed proteins in vitro, suggesting that at least part of the antifungal protein generation is independent of gene expression. Seven antifungal proteins with activities against five different plant pathogens were isolated from the active fractions. However, random digestion of purified seed protein with multiple proteinases failed to generate any antifungal proteins. It is suggested that during plant seed germination, a regulated biochemical process takes place that results in the generation of multiple peptides or proteins with antifungal activities. This onset of antifungal proteins is transitional in nature, but could play an important role in the protection of plants in early stage of development when the more sophisticated defense system has yet to develop.     

Production of wheat-rye substitution lines and identification of chromosome composition of karyotypes using C-banding, GISH, and SSR markers

Based on the cross (Triticum aestivum L. x Secale cereale L.) x T. aestivum L., wheat-rye substitution lines (2n = 42) were produced with karyotypes containing, instead of a pair of homologous wheat chromosomes, a homeologous pair of rye chromosomes. The chromosome composition of these lines was described by GISH and C-banding methods, and SSR analysis. The results of genomic in situ hybridization demonstrated that karyotype of these lines included one pair of rye chromosomes each and lacked wheat--rye translocations. C-banding and SSR markers were used to identify rye chromosomes and determine the wheat chromosomes at which the substitution occurred. The lines were designated 1R(1D), 2R(2D)2, 2R(2D)3, 3R(3B), 6R(6A)2. The chromosome composition of lines IR(1A), 2R(W)1, 5R(W), 5R(5A), and 6R(W)1, which were earlier obtained according to the same scheme for crossing, was characterized using methods of telocentric analysis, GISH, C-banding, and SSR analysis. These lines were identified as 1R(1A), 2R(2D)1, 5R(5D), 5R(5A), and 6R(6A)1, C-banding of chromosomes belonging to line 1R(1A) revealed the presence of two translocated chromosomes (3DS.3DL-del. and 4AL.W) during simultaneous amplification of SSR markers located on 3DL and 4AS arms. The "combined" long arm of the newly derived chromosome 4A is assumed to be formed from the long arm of chromosome 4AS itself and a deleted segment 3DL. All examined lines are cytologically stable, except for 3R(3B), which does not affect the stability of rye 3R chromosome transfer. Chromosome identification and classification of the lines will permit them to be models for genetic studies that can be used thereafter as promising "secondary gene pools" for the purpose of plant breeding.     

Expression of the Bar Gene Confers Herbicide Resistance in Transgenic Lettuce

Resistance to bialaphos, a broad-spectrum herbicide, was introduced into Lactuca sativa cv. Evola by Agrobacterium tumefaciens-mediated transformation. A. tumefaciens strains 0310 and 1310, both carrying the bialaphos resistance (bar) and neomycin phosphotransferase (nptII) genes, were used for transformation. Primary transformants were selected on kanamycin sulphate-supplemented shoot regeneration medium. Integration of both transgenes was confirmed by non-radioactive Southern hybridisation. The hypervirulent plasmid ToK47 in A. tumefaciens strain 1310 generated multiple insertions of T-DNA in some transgenic plants; the absence of pToK47 (strain 0310) resulted in single gene inserts in all plants tested. Resistance to glufosinate ammonium was observed in axenic seedlings grown on medium supplemented with the herbicide at 5 mg l–1 and in glasshouse-grown plants sprayed with the compound at 300 mg l–1. Stable expression of the bar gene was observed in R2 generation plants. The kanamycin resistance of R1 seedlings was observed by germinating seeds on medium supplemented with 200 mg l–1 kanamycin sulphate. The presence of NPTII protein and PAT enzyme activity were demonstrated by ELISA and PAT enzyme assay respectively. Transgenes segregated in a Mendelian fashion in some plant lines in the R1 generation; herbicide resistance also segregated in the expected ratio in the R2 generation in most transgenic lines. This study confirmed that an agronomically important transgene can be integrated and stably expressed over several generations in lettuce.     

花药培养对籼稻两用核不育系培矮64S的提纯与改良

以籼稻两用雄性核不育系（简称两用系）培矮６４Ｓ为供体,通过花药培养,获得了２６个愈伤系共１９６９株花粉植株。根据花粉一代（Ｈ１）的倍性和育性,可把它们分为三种类型,即ａ）单倍体：有１个愈伤系４１株全为单倍体植株;ｂ）不分离型：有１９个愈伤系的群体育性不分离,全部植株均在不育期表现败育,其它性状有差异但不显著;ｃ）分离型：其余６个愈伤系表现分离,其中３个各有２－７株单倍体植株出现,并且这些愈伤系中均