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1.
以小麦-黑麦1BL·1RS易位系(Kavkaz、山农030-1)、1AL·1RS易位系(Amigo)、荆州黑麦、八倍体小黑麦劲松49、1R-7R二体异附加系以及普通小麦中国春、辉县红、铭贤169、Chancellor等为材料,对65个黑麦1RS特异标记进行鉴定,从中筛选出8个稳定的标记,即NOR-1、SECA2/SECA3、SCSS30.2、Sec1Gene、Sec1Pro、ω-Sec-P1/P2、ω-Sec-P3/P4和IB-267,可用于检测1AL·1RS易位系或1BL·1RS易位系;另外3个特异标记O-SEC5′-A/O-SEC3′-R、IAG95-1和SCM-9可用于区别1RS来源不同的1AL·1RS和1BL·1RS易位系。利用这11个标记和染色体原位杂交技术对40份山东省近年育成小麦品种(系)进行检测,发现潍麦8号、鲁麦14、济宁13、山农664、山农优麦3号和烟农25为1BL·1RS易位系,而且是1RS的整臂易位系,未检测到1AL·1RS易位系和其他易位类型。 相似文献
2.
Biochemical, molecular, and cytogenetic technologies for characterizing 1RS in wheat: A review 总被引:4,自引:0,他引:4
Chromosome arm 1RS of rye ( Secale cereale L.), when transferred to wheat ( Triticum sp.), significantly influences variety
performance, because it carries genes for resistance to disease and insect pathogens. Inserted into wheat, 1RS also promotes
haploid production, affects end-product quality, and sometimes affects yield. Therefore, its detection by breeders and geneticists
is important. The entire 1RS arm is present in chromosome substitutions and in Robertsonian translocations involving chromosomes
1A, 1B, or 1D of wheat. In recombinant lines, a segment of 1RS has been exchanged with a segment of a group-1 wheat chromosome.
Determining the wheat chromosome arm involved in a translocation, the source of rye chromatin, and the amount of 1RS chromatin
introduced is necessary for a complete characterization of the introgressed segment. Biochemical, molecular, and cytogenetic
technologies are described which enable such a characterization of 1RS in wheat. Examples of using gel electrophoresis, high-performance
liquid chromatography, monoclonal antibodies, rye-specific molecular probes, RFLP and PCR assays, chromosome banding, in situ
hybridization, and flow cytometry are provided. A comparison of these technologies is made and the advantages and disadvantages
of each technology are discussed relative to modern wheat breeding efforts.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
3.
A. Carvalho A. Martín J. S. Heslop-Harrison H. Guedes-Pinto J. Lima-Brito 《Plant Breeding》2009,128(1):105-108
The F1 AABBRHch hybrids studied here were produced by crosses between the Portuguese triticale cultivar 'Douro' (AABBRR) and the tritordeum line HT9 (AABBHch Hch ). Fluorescent in situ hybridization performed with genomic DNA probes genomic in situ hybridization (GISH) from rye and Hordeum chilense allowed the unequivocal parental genomes discrimination in all hybrids. Among 55 plants, one presented a spontaneous wheat–rye translocation which was successfully detected after GISH. Recombinant chromosomes identification was made after reprobe with pTa71 and pSc119.2. Nine rDNA loci were detected by pTa71 and pSc119.2 identified the chromosome arms involved in the translocation, after comparing the observed hybridization patterns with those described by several authors. We identified the spontaneous wheat–rye translocation as being the 7BS/7RL. Many wheat–rye translocations have been found (e.g. 1BL.1RS and 1AL.1RS), but as far as we know, this is the first time that this translocation is reported. We considered it helpful for wheat breeding programmes as it could provide the transference of interesting agronomic characteristics from rye (e.g. leaf rust resistance) to wheat. 相似文献
4.
In order lo investigate the origin of two of the German 1RS. 1BL wheat-rye translocations used world-wide in breeding, a number of DNA probes were considered which (a) were critical for the short arm of the rye chromosome 1 R and (b) should show a specificity for the gene pool of Petkus rye. The DNA probe CDO580 was revealed as a specific one. (1) It clearly differentiated 1RS.1AL (‘Amigo’). 1RS.lBL (‘Salmon’) and 1RS.1DL (‘Gabo’) from the two German sources. (2) Both translocation wheats deriving from the Weihenstephan (Munich) and from the Salzmünde (Halle/S.) origin showed an identical DNA fragment which was typical for the gene pool of Petkus rye. It is supposed that both German sources have one progenitor in common. 相似文献
5.
The wheat-rye 1BL.1RS translocation chromosomes have been used widely around the world in commercial wheat ( Triticum aestivum L.) production because of the presence of several disease resistance genes and a yield enhancement factor on the rye ( Secale cereale L.) chromosome. However, the recent reports of the loss of complete effectiveness of the disease resistance genes on the most commonly used 1BL.1RS chromosome have highlighted the need to seek and deploy additional sources of disease resistance genes. Three new sibling wheat cultivars, 'CN12', 'CN17' and 'CN18', were developed carrying 1RS arms derived from the rye inbred line L155. Genomic in situ hybridization and C-banding analysis revealed that all the three cultivars contained the rye chromosome 1RS arm fused to the wheat 1BL wheat chromosome arm. The three cultivars displayed high yields and high resistance to local powdery mildew and stripe rust pathotypes. Fluorescence in situ hybridization analysis indicated the different structure of 1BL.1RS chromosome between 'CN18' and the other two cultivars. The present study provides a new 1RS resource for wheat improvement. 相似文献
6.
Genetic, agronomic and quality comparisons of two 1AL.1RS. wheat-rye chromosomal translocations 总被引:2,自引:0,他引:2
R. A. Graybosch J.-H. Lee C. J. Peterson D. R. Porter O. K. Chung 《Plant Breeding》1999,118(2):125-131
The 1AL.1RS wheat-rye chromosomal translocation originally found in ‘Amigo’ wheat possesses resistance genes for stem rust, powdery mildew and greenbug biotypes B and C, but also has a negative effect on wheat processing quality. Recently, a second 1AL.1RS translocation carrying Gb6, a gene conferring resistance to greenbug biotypes B, C, E, G and I, was identified in the wheat germplasm line ‘GRS1201′. Protein analytical methods, and the DNA polymerase chain reaction were used to identify markers capable of differentiating the 1RS chromosome arms derived from ‘Amigo’ and ‘GRS1201′. The secalin proteins encoded by genes on 1RS chromosome arms differed in ‘Amigo’ and ‘GRS1201′. A 70 kDa secalin was found in the ‘Amigo’1AL.1RS, but did not occur in the ‘GRS1201’1AL.1RS. Polymorphisms detected by PCR primers derived from a family of moderately repetitive rye DNA sequences also differentiated the two translocations. When ‘GRS1201’was mated with a non-1RS wheat, no recombinants between 1RS markers were observed. In crosses between 1RS and non-1RS parents, both DNA markers and secalins would be useful as selectable markers for 1RS-derived greenbug resistance. Recombination between 1RS markers did occur when 1RS from ‘Amigo’ and 1RS from ‘GRS1201’were combined, but in such intermatings, the molecular markers described herein could still be used to develop a population enriched in lines carrying Gb6. No differences in grain yield or grain and flour quality characteristics were observed when lines carrying 1RS from ‘Amigo’ were compared with lines with 1RS from ‘GRS1201′. Hence, differences in secalin composition did not result in differential quality effects. When compared with sister lines with 1AL.1AS derived from the wheat cultivar ‘Redland’, lines with ‘GRS1201’had equal grain yield, but produced flours with significantly shorter mix times, weaker doughs, and lower sodium dodecyl sulphate sedimentation volumes. 相似文献
7.
Many studies have been conducted to determine the relative effects of the 1BL.1RS translocation on various traits in wheat.
The effects of different wheat (Triticum aestivum L.) genetic backgrounds and rye (Secale cereale L.) sources have been addressed as major factors for inconsistent agronomic performance and end-use-quality traits of 1BL.1RS
translocation wheats. However, all these studies were accomplished by using 1BL.1RS translocations with impure wheat genetic
bases and narrow rye origins. The objective of this study was to test the genetic effects of centric fusion translocations
by using primary 1BL.1RS lines derived from various pure wheat lines and rye sources. Twenty-one primary 1BL.1RS translocation
lines were created from crosses between two pure wheat lines and three Chinese local rye varieties. These translocation lines
and their wheat parents were then evaluated in southwestern China. The results provide direct evidence of the diverse effects
of the different wheat parents and rye sources, taking part in 1BL.1RS translocations, on resistance to diseases, agronomic
performance, and end-use quality traits. The highest amount of genetic diversity was observed in 1BL.1RS translocations derived
from the same wheat lines and diverse rye varieties. The results suggest that the genetic diversity of 1BL.1RS translocation
lines may originate from the different wheat genetic backgrounds, from different rye sources, from their interaction, and
from the translocation itself. Creation of diverse 1BL.1RS translocations offers ample possibilities to introduce more variation
into wheat for improved performance. 相似文献
8.
Reynaldo L. Villareal Oscar Bañuelos Abdul Mujeeb-Kazi Sanjaya Rajaram 《Euphytica》1998,102(2):195-202
The T1BL.1RS wheat (Triticum aestivum L.) - rye (Secale cereale L.) translocations have been of particular interest and are
widely used in bread wheat breeding programs. The objective of this study was to determine the effect of the T1BL.1RS chromosome
on grain yield and its components using 20 near-isolines of spring bread wheat cultivar ‘Seri M82’ (10 homozygous for chromosome
1B substitution and 10 homozygous for T1BL.1RS). The test lines have been produced by substituting the 1B chromosome in Seri
M82 (T1BL.1RS, T1BL.1RS) through backrossing. Two field experiments were evaluated under optimum (five irrigations) and reduced
(one irrigation) moisture conditions for two consecutive production cycles at the Mexican National Agricultural Research Institute,
Ciudad Obregon, Sonora, Mexico. The presence of T1BL.1RS had a significant effect on grain yield, harvest index, grains/m2, grains/spike, 1000-grain weight, test weight, flowering date and physiological maturity in both moisture conditions. The
agronomic advantage of the 1B substitution lines on above-ground biomass yield at maturity, spikes/m2and grain-filling duration was expressed only under the optimum moisture condition. The presence of T1BL.1RS increased grain
yield 1.6% and 11.3% for optimum and reduced moisture conditions, respectively. These results encourage further use of T1BL.1RS
wheats in improving agronomic traits, especially for reduced irrigation or rainfed environments.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
9.
小麦育种亲本材料Dx5、Bx14亚基及1BL/1RS易位的分子检测 总被引:1,自引:0,他引:1
为给小麦优质育种的亲本选配等研究提供参考,利用优质谷蛋白Dx5、Bx14亚基及1BL/1RS易位的特异性分子标记,对本课题组近年常用的38份杂交亲本材料进行了分子检测.结果表明,在引进品种和自育品种(系)中,含Dx5亚基的材料分别占16.0%和7.7%,含Bx14亚基的材料分别占16.0%和23.1%,1BL/1RS易位材料分别占24.0%和38.5%.与引进品种相比,自育品种(系)含Dx5亚基的材料很少,而含Bx14亚基和1BL/1RS易位的材料较多.总体来看,育种亲本含Dx5、Bx14亚基的材料较少,而含1BL/1RS易位的材料相对较多.因此,今后小麦优质育种中应重视含Dx5、Bx14亚基材料的引进和利用,合理使用1BL/1RS易位材料,并加强杂种后代的分子鉴定与选择. 相似文献
10.
Adam J. Lukaszewski 《Euphytica》2017,213(9):214
Wheat-rye translocation 1RS.1AL from cv. Amigo is still popular in wheat breeding and commercial cultivars. It introduces several disease and pest resistance genes from rye into wheat, and appears to enhance root system development. To create a set of uniform stocks for precise tests, the rye arm 1RS was separated from the wheat arm in the translocation by misdivision of centromeres in univalents, fused into a complete chromosome 1R, and then re-translocated to all group-1 wheat chromosomes 1A, 1B and 1D, creating a set of three translocation and three substitution lines in a uniform background of cv. Pavon 76. Misdivision frequencies of the chromosomes mirrored those observed earlier in that shorter chromosomes broke less frequently than the long ones, and chromosomes from previous misdivision-fusion events misdivided more frequently than normal intact chromosomes. This set of chromosome lines with 1RS from cv. Amigo increases to three the number of such translocations stocks in wheat. 相似文献
11.
Isolation of a new repetitive DNA sequence from Secale africanum enables targeting of Secale chromatin in wheat background 总被引:1,自引:0,他引:1
Cheng Liu Zu-Jun Yang Guang-Rong Li Zi-Xian Zeng Yong Zhang Jian-Ping Zhou Zhao-Hui Liu Zheng-Long Ren 《Euphytica》2008,159(1-2):249-258
A genome specific DNA sequence that detects Secale africanum chromatin incorporated into wheat was developed in this study. Random amplified polymorphic DNA (RAPD) analysis was used
to search for genome specific DNA sequences of S. africanum in lines, R111, “mianyang11” (MY11) and wheat-rye 1RS/1BL translocations R25 and R57. A high copy rye-specific DNA segment
pSaD15940 of the S. africanum genome was obtained. The sequence of pSaD15 did not show any significant homology to other reported sequences in databases
and it is therefore a new repetitive sequence of Secale. PCR primers were designed for pSaD15940, which amplify a clear 887 bp fragment in S. africanum but not in any wheat. The primers also amplified an 887 bp fragment in other accessions of rye, Chinese Spring-Imperial rye
chromosome additions and a diverse range of material carrying different rye chromosomes or chromosomal segments. In situ hybridization
showed that probe pSaD15940 was specifically hybridized throughout all rye chromosomes arms except for the terminal regions. The advantage of the rye-specific
probe developed herein compared to those of previous reports is that it has been shown to be widely applicable to other Secale species. The probe will be useful as a molecular marker for the introgression of S. africanum and other rye chromosome segments into the wheat genome. 相似文献
12.
Shuiyang Yu Hai Long Hong Yang Jie Zhang Guangbing Deng Zhifen Pan Erliang Zhang Maoqun Yu 《Euphytica》2012,186(1):247-255
Powdery mildew (Pm), caused by Blumeria graminis f. sp. tritici (Bgt), is one of the most serious diseases for common wheat in many regions around the world. Seeking for new resistance source
is urgently required to meet the challenge of the rapid loss of resistance due to the co-evolution of the pathogen’s virulence.
Wheat line 07jian126 (Triticum aestivum L.) is highly resistant to the Pm disease prevailing in Sichuan province of China. Previous study showed that a SSR marker
Xbarc183 was linked to the Pm resistance in 07jian126, which might be controlled by a single dominant gene, designated as Pm07J126. In this study, two additional F2 populations were used to confirm the linkage between Pm07J126 and Xbarc183. Furthermore, rye chromatin was detected in 07jian126 by molecular analysis of a rye-specific SCAR marker O5 which co-segregated with Pm07J126. This result indicated that Pm07J126 might originate from rye. The reaction patterns to 21 Bgt isolates and molecular marker analysis implied that Pm07J126 might be different from the known rye-derived Pm genes Pm7, Pm8, Pm17 and PmJZHM2RL. Chromosome observation, molecular marker, and A-PAGE analysis suggested that 07jian126 might be a rye introgression line
and neither contain 1RS translocation nor secalins gene. Consequently, 07jian126 could be considered as a valuable resource
for Pm resistance development of wheat. Besides, the molecular markers Xbarc183 and O5 are useful in marker-assisted selection of Pm07J126 in wheat breeding programs. 相似文献
13.
Adam J. Lukaszewski 《Euphytica》1997,94(3):257-261
Complete chromosomes 1R and 1B were reconstructed in wheat from the centric wheat-rye translocation 1RS.1BL. Three substitutions:
1R(1A), 1R(1B), 1R(1D), and three new centric translocations: 1RS.1AL, 1RS.1BL, 1RS.1DL were produced from the reconstructed
chromosome 1R. Each one of these has the same rye chromosome arm 1RS which was present in the original translocation 1RS.1BL
of ‘Kavkaz’ wheat. Reconstructed chromosome 1B and a normal chromosome 1R were used to produce a new 1RS.1BL translocation.
This translocation has the long arm from the original 1RS.1BL translocation of ‘Kavkaz’, but a different 1RS arm. The third
generation centric translocations were mitotically stable and were normally transmitted to progeny. Misdivision frequency
of the reconstructed chromosomes 1R did not change relative to normal 1R, whereas the misdivision frequency of the two reconstructed
chromosomes 1B tested was significantly higher relative to normal 1B. These experiments demonstrate that repeated cycles of
centric breakage and fusion do not impair the function of centromeres in wheat and rye but may change chromosome's susceptibility
to misdivision.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
14.
Segregation for isozymes and HMW glutenins in a doubled-haploid cross of winter wheat carrying 1BL.1RS and 5DL.5RS translocations from rye 总被引:1,自引:0,他引:1
The doubled haploid (DH) wheat line ‘dh 5841’ carrying two translocations from rye, 5DL.5RS and 1BL.1RS, has been crossed to the subline of wheat cultivar ‘Amadeus 7143’ with a 1BL.1RS translocation. The resulting F1 hybrid IJ 98 with a heterozygous 5DL.5DS‐5DL.5RS chromosome pair has been used to produce doubled haploids. A total of 57 DH lines were obtained from plantlets regenerated in anther culture after successful colchicine treatment and seed set. These lines were identified regarding the constitution of chromosome 5D (5DL.5DS or 5DL.5RS) by means of isoenzyme marker analysis. Thirty DH lines possessed the 5DL.5DS chromosome, while the remaining 27 lines carried the 5DL.5RS translocation. For some of these lines, the 5DL.5RS chromosome was cytologically confirmed by C‐banding. Furthermore, the DH lines were evaluated for their high molecular weight glutenin subunit composition. All possible combinations for the four independent loci —Skdh, Glu‐Al, Glu‐B1 and Glu‐D1— were detected in only 57 DH lines and no segregation distortion was observed. 相似文献
15.
A comparison of methods for identifying and surveying the presence of 1BL.1RS translocations in bread wheat 总被引:2,自引:0,他引:2
Summary Four methods for detecting 1BL. 1RS translocations in bread wheat have been compared winter wheat cultivars: N-banding of mitotic metaphase chromosomes, sodium lactate electrophoresis at pH 3.1, sodium dodecyl sulphate-polyacrylamide gel electrophorests under conditions, and a recently characterised protein, subtilisin inhibitor, separated by isoelectric N-banding was much the most labour intensive method, and, of the three electrophoretic recommend the use of subtilisin inhibitor, which is at least as easy to interpret as the other is often faster for screening purposes. The sources of the 1BL. 1RS translocation in this matenal Avrora. Kavkaz and Skorospelka 35, which have been extensively used as parents in breeding programmes. Out of 59 cultivars that include a line carrying the 1BL. 1RS pedigree. 23 of them did not carry the translocation; thus the effect on plant phenotype of insufficient to guarantee its selection during breeding. 相似文献
16.
W. Kim J. W. Johnson P. S. Baenziger A. J. Lukaszewski C. S. Gaines 《Plant Breeding》2005,124(4):334-337
A growing interest exists in using wheat for producing both hard and soft wheat products. It would be desirable if 1RS translocations in hard wheat could produce flour suitable for soft wheat products. The objective of this study was to test the effects of centric translocations of chromosome 1 from different rye sources for end‐use quality. The quality influences of the 1RS and 1RL translocations and 1R substitutions from different rye sources were studied in a set of hard spring wheat ‘Pavon 76’(CIMMYT) lines in three environments in Georgia. The protein concentration of the 1RL translocations was the highest while the 1RS translocations showed no difference in protein concentration compared with that of controls. The 1RS translocations increased alkaline water retention capacity while the 1RL translocations reduced it. T1DSAE1RL was preferred for soft wheat products over other genotypes. 相似文献
17.
小麦-黑麦1RS/1BL新易位系的创制和分子细胞遗传学鉴定 总被引:4,自引:0,他引:4
利用普通小麦(Triticum aestivum L.)品种小偃6号与黑麦(Secale cereale L.)品种德国白粒杂交,选育出一批带有黑麦抗病性状的小偃6号类型种质材料。应用连续C-分带-基因组原位杂交(sequent C-banding-GISH)技术对上述材料进行染色体组成分析,筛选出2个小麦-黑麦1RS/1BL纯合易位系BC152-1-1和BC01-89-1。其中,BC152-1-1(2n=42)除含有1对1RS/1BL易位染色体外,未见其他染色体变异;BC01-89-1(2n=43)除含有1对1RS/1BL纯合易位染色体外,还附加1条两端缺失的3R染色体。高分子量麦谷蛋白亚基(HMW-GS)组成分析和品质分析结果表明,BC152-1-1和BC01-89-1不仅含有来自小偃6号的14+15优质亚基,而且其蛋白质含量、湿面筋含量和SDS沉降值等品质性状都得到显著改良。 相似文献
18.
Identification of Rye Chromosome 1R Translocations and Substitutions in Hexaploid Wheats Using Storage Proteins as Genetic Markers 总被引:1,自引:0,他引:1
Grain protein compositions of 106 advanced generation backcross lines from crosses involving ‘Amigo’ (1AL.1RS), ‘Aurora’, ‘Kavkaz’, ‘Skorospelka-35’ and ‘Sunbird’ (all 1BL.1RS) and ‘Gabo’ 1DL.1RS parents and 152 cultivars with unknown pedigree were analysed by one-dimensional SDS-PAGE. Eighty seven backcross lines and 16 cultivars carried one or other of these translocations, 2 cultivars had a 1R (1B) substitution, whereas 5 backcross lines were found to be heterogeneous for the 1BL.1RS translocation. The translocation lines were easily identified by the presence of secalins (Sec-1) controlled by rye chromosome arm IRS and a simultaneous loss of the gliadin (Gli-1) and/or triticin (Tri-1) protein bands controlled by the replaced wheat chromosome arm (1AS, 1BS or 1DS). Certain gliadins, showing no allelic variation among the genotypes analysed, were identified as markers for chromosome arms 1AS (Mr= 34 kd) and IBS (Mr= 42,33 kd). The whole chromosome substitutions 1R (1B) were recognized by scoring for the presence of Sec-1 and HMW secalin bands, Sec-3 (controlled by rye chromosome arm 1RL) and the absence of Gli-B1 and HMW glutenin subunits, Glu-B1 (controlled by wheat chromosome arm 1BL). The results have shown that protein electrophoresis provides a rapid and reliable technique for screening genotypes for these translocations and substitutions in a breeding programme. 相似文献
19.
The 1BL·1RS translocation has been widely used in wheat breeding programmes throughout the world. Unfortunately, this translocation has frequently resulted in unsatisfactory grain processing quality. Two primer combinations derived from the published sequence of a ω‐secalin gene on 1RS gave polymerase chain reaction (PCR) fragments 0.4 and 1.1 kb in size. Both fragments can be used to quickly detect 1BL·1RS translocations. By combining the PCR assay resulting in the 1.1‐kb fragment from 1RS and a PCR assay resulting in a 0.6‐kb fragment from the Glu‐B3 gene on 1BS, plants homozygous for the 1BL 1RS could clearly be distinguished from the heterozygous ones. This codominant marker was successfully applied to genotype a segregating F2 population and a local cultivar collection. 相似文献