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1.
6X小黑麦品种Venus和2个普通小麦品种杂交回交,选育出NR9849等8个系群94个系,其中大部份抗条锈病或(和)白粉病。应用酸性聚丙烯酰胺凝胶电脉(APAGE)分析了NR9849等系群的64个株及其亲本Venus、小偃6号和川育12号的醇溶蛋白,结果表明,50.00%的株系具有1RS/1BL所特有的G1d1B3位点,20.31%的株系在Gli-2位点发生了普通小麦与6X小黑麦遗传物质重组;64个株系中出现了1种亲本类型,3种重组类型和3种突变重组类型,突变率15.62%。SDS-聚丙烯酰胺凝胶电泳(SDS-PAGE)指出,大多数株系Glu-1位点与普通小麦亲本相同,即由Glu-A1编码的亚基1,Glu-B1编码的亚基7+8、14+15,Glu-D1编码的亚基5+10、2+12。文中还讨论了6X小黑麦向普通小 相似文献
2.
The formation of unreduced gametes in some hybrids between disomic D‐genome substitutions (DS) of durum wheat cv.‘Langdon’ and rye provides a convenient approach for the rapid introduction of D‐genome chromosomes into hexaploid triticale. Meiotic pairing at metaphase I and seed fertility in spontaneous and colchicine‐induced amphidiploids derived from F1 hybrids between a set of ‘Langdon’ DS and ‘Gazelle’ rye were analysed. The purpose was to determine the effects of the substitution of D‐genome chromosomes for their A‐ and B‐genome homoeologues on hexaploid triticale and to select stable disomic D‐genome substitutions of hexaploid triticale. The results showed that the disomic substitutions with D‐genome slightly increased the frequency of univalents (1.0‐3.13) compared with the ‘Langdon’ control primary hexaploid triticale (0.76). Substitutions 2D(2A) and 3D(3B) were partly desynaptic. The substitutions 1D(1A), 1D(1B) and 7D(7B) exhibited high seed fertility but the others had decreased fertility. Except for 2D(2A), 5D(5A), 3D(3B) and 5D(5B), 10 of the 14 possible hexaploid triticale D‐genome disomic substitutions have been obtained. The results suggest that the poor compensation ability of some D‐genome chromosomes for their homoeologous A‐ and B‐genome chromosomes is a major factor affecting meiotic stability and fertility in the hexaploid triticale D‐genome substitutions. 相似文献
3.
In cereals, chromosome doubling of microspore-derived haploid plants is a critical step in producing doubled haploid plants.
This investigation was undertaken to study the effect of incorporation of colchicine in the induction medium for anther culture,
and the effect of colchicine on anther culture-derived plants of triticale grown under controlled greenhouse conditions. In
the latter case, chromosome doubling of adult sterile plants derived from anther culture of fourteen triticale populations
was attempted, where androgenetic plants with non-dehiscent anthers were cloned and subjected to the colchicine treatment,
and then grown with the aid of hydroponics. The hydroponic system provided optimal conditions for recovery of the affected
haploids from the toxic effects of colchicine treatment and all colchicine-treated plants survived. A topcross-F1 (TC1F1) population with timopheevii cytoplasm produced the highest percentage of plants with seed-set either due to chromosome doubling
by colchicine (98%) or spontaneous doubling of chromosome number (15%). Colchicine-treated anthers performed inferior than
control in both induction and regeneration phases. One of the key observation of this study was the reversal from reproductive
stage back to the vegetative stage which in turn enabled further cloning of haploid plants under hydroponic conditions once
they were identified as sterile. The one hundred percent survival rate of in vitro-derived plants, 100% survival rate of colchicine treated haploid plants and the high chromosome doubling success rate (X
= 82.3) observed in this study imply that a temperature-controlled greenhouse with an hydroponic system provides an efficient
environment for inducing chromosome doubling of haploid plants in cereals.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
4.
Production of haploids in bread wheat, durum wheat and hexaploid triticale crossed with pearl millet
Pearl millet is an efficient alternative to maize as a pollen source for haploid production in bread wheat. To compare haploid production frequencies in other Triticeae species, the crossabilities of two genotypes each of bread wheat, durum wheat and hexaploid triticale with four pearl millet genotypes and a maize control were examined. Embryos were obtained from crosses of all three species with both pearl millet and maize. However, significant differences in crossability were found among the three species (10.5–79.8% seed development and 1.4–15.8% embryo formation), as well as among genotypes of durum wheat (7.2–23.7% and 2.1–6.4%) and hexaploid triticale (0.3–20.6% and 0.1–2.7%). Crossability of bread wheat with pearl millet was relatively high. Haploid plants were regenerated from crosses of all three species with pearl millet. As in the case of maize crosses, low crossabilities of durum wheat and hexaploid triticale with pearl millet can be attributed to the absence of D-genome chromosomes. 相似文献
5.
A rye-cytoplasmic tetraploid triticale was found in Fs progenies of crosses between tetraploid rye‘No 1323’and hexaploid triticale‘KT 77′. In the tetraploid triticale, two complete rye genomes and two mixed wheat genomes, consisting of the chromosomes 1A. 2A, 4A, 7A, 3B, 5B, and 6B are present. The rye cytoplasm did not affect stability of rye chromosome pairing during metaphase 1, since rye chromosomes participated in pairing irregularities just as did wheat chramosomes, even on a larger scale. The fertility of F0, plants ranged from 0 to 75.6 %, always associated with high grain shrivelling. The analyzed pairing behaviour of induced triploid hybrids from crosses between the tetraploid triticale and diploid rye indicates the presence of at least one wheat-rye translocation in one of the investigated triploid plants. 相似文献
6.
390份小麦-黑麦种质材料主要农艺性状分析及优异材料的GISH与FISH鉴定 总被引:3,自引:0,他引:3
将小麦近缘属植物黑麦中的优良基因导入小麦可以拓宽小麦的遗传基础,丰富小麦的遗传变异。本研究调查并分析了390份小麦-黑麦种质材料。在这390份种质材料中,6个主要农艺性状值均有较大的极差,说明其遗传多样性丰富。与10份小麦主栽品种相比,90%以上的材料具有穗长和分蘖数的显著优势,60%以上的材料具有小穗数优势,约30%的材料穗粒数和千粒重显著高于主栽品种。利用基因组原位杂交(genomic in situ hybridization,GISH)和多色荧光原位杂交(multicolor fluorescent in situ hybridization,mc-FISH)技术,对8份农艺性状优良的代表性材料进行染色体组成分析,发现3份为六倍体小黑麦(AABBRR),2份为八倍体小黑麦(AABBDDRR),1份为1RS·1BL易位系,其余2份不具有可见的黑麦染色体或染色体片段。值得指出的是,3份六倍体小黑麦与2份八倍体小黑麦所含的黑麦染色体不完全相同。八倍体小黑麦中有1对来源于黑麦的小染色体,而六倍体小黑麦中没有类似小染色体;并且,不同材料中黑麦4R染色体端部的GISH杂交带有明显差异。本研究结果为这些小麦-黑麦种质材料进一步应用于小麦育种提供了依据。 相似文献
7.
The Use of Monosomic Rye Addition Lines for Transferring Rye Chromatin into Bread Wheat 总被引:8,自引:0,他引:8
Hybrid plants with 21 pairs of wheat chromosomes and with a haploid rye genome were produced by backcrossing a primary octoploid triticale with its parental hexaploid wheat. Upon a second backcrossing or selfing, the rye chromosomes were eliminated rapidly. Added rye chromosomes, in varying numbers, affected the transmission rate of wheat chromosomes significantly. Loss of wheat chromosomes ranging from 0.06 to 0.35 per plant in different populations was observed. In these plants a remarkably high incidence of wheat/rye and rye/rye translocations occurred. Translocations were identified by using the C-banding technique. Among 837 analyzed plants 64 wheat/rye and 256 rye/rye translocations were identified. In different generations of backcrossing or selfing the frequency of wheat/rye translocations varied between 4.23 % and 14.67 %. All 14 rye chromosome arms were involved in translocations but with different frequencies. BC1F3 plants with homozygous wheat/rye translocations were isolated The results indicate that monosomic wheat/rye addition lines may be directly used as an effective means to transfer genetic material from rye into bread wheat. 相似文献
8.
Common wheat × hexaploid triticale hybrids were produced and evaluated for tolerance to barley yellow dwarf virus disease (BYD). The BYD tolerance expression varied with wheat × triticale combination. The selection for BYD tolerance increased the recovery of tolerant genotypes in the next generations. Homozygous tolerant and susceptible lines were obtained in advanced generations. The rye chromosomes 1R, 2R, and 4R with 7R were transmitted as disomic or monosomic, disomic, and double disomic substitution to the late generations of ‘Musala’ (common wheat) בMuskox 658’ (triticale), ‘Encruzilhada’ (common wheat) בNord Kivu’ (triticale) and ‘Encruzilhada’× 12th. International Triticale Screening Nursery 267 (12ITSN267) (triticale), respectively. A clear association was established between the 1R chromosome of the ‘Muskox 658’ triticale line and the tolerance to BYDV. Results suggest that the 2R chromosome may be involved in BYD tolerance of ‘Nord Kivu’ triticale line. 相似文献
9.
Summary Heptaploid hybrids between octoploid triticale and wheat were backcrossed as female parents with wheat to examine the rye chromosome distribution in the resultant progenies using genomic in situ hybridization (GISH). One hundred and one backcross (BC) seeds were examined and whole rye chromosome additions and substitutions, wheat/rye centric and noncentric translocations and rye telocentric chromosomes were detected. Dicentric wheat/rye translocated chromosomes were also observed. Comparisons were made with previous results on the rye chromosome distribution from male gametes of the same cross and differences were found, where in the female derived population a deficit of plants with more than two rye chromosomes was apparent relative to the anther derived population. 相似文献
10.
Introduction of high molecular weight glutenin subunits 5 + 10 for the improvement of the bread-making quality of hexaploid triticale 总被引:3,自引:0,他引:3
In an earlier study, chromosome 1D of the hexaploid breadwheat cultivar ‘Chinese Spring’ was introduced into hexaploid triticale to improve its bread‐making quality. That specific chromosome, 1D, carried the a allele at the Glu‐D1 locus coding for high molecular weight (HMW) glutenin subunits 2 + 12, and since subunits 2 + 12 are associated with poor bread‐making quality in wheat, in the present study hexaploid 1D substitution triticale was crossed with octoploid triticale with the d allele at the Glu‐D1 locus encoding HMW glutenin subunits 5 + 10. Following backcrosses to different triticale varieties, 1D substitution lines were established that had Glu‐D1 allele a or d in an otherwise genetically similar background, and the influence of these two different alleles on bread‐making quality of hexaploid triticale was compared. The agronomic performance of 76 selected lines was evaluated in a field trial. The Zeleny sedimentation value was determined as a parameter for bread‐making quality, and related to the presence of chromosome 1D, the different glutenin alleles and the nature of the substitution. The presence of chromosome 1D had a significant and positive effect on the Zeleny sedimentation value, but the difference between the two glutenin alleles 2 + 12 and 5 + 10 was not as obvious as in wheat. Owing to its high cytological stability and minimal effect on agronomic performance, substitution 1D(1A) appears to be the most desirable one to use in triticale breeding. 相似文献
11.
12.
M. N. Inagaki W. H. Pfeiffer M. Mergoum A. Mujeeb-Kazi A. J. Lukaszewski 《Plant Breeding》1997,116(4):387-389
With the aim of producing polyhaploids of hexaploid triticale, 20 genotypes from a CIMMYT breeding programme and eight D-genome chromosome substitution lines of ‘Rhino’ were crossed with maize. In crosses between 20 triticale genotypes and maize, 15 lines produced embryos. Frequencies of embryo formation ranged from 0.0 to 5.4%, with an average of 1.1%. From a total of 200 pollinated spikes, 62 plants were regenerated. Most regenerated plants were polyhaploids with 21 chromosomes, and few aneuhaploids with 22 chromosomes were found. In crosses of triticale substitution lines with maize, all the lines produced embryos, while ‘Rhino’ produced no embryos at all. Higher frequencies of embryo formation were obtained in substitution lines with chromosomes 2D and 4D. These results suggest that D-genome chromosomes in a triticale genetic background have the effect of increasing the frequency of polyhaploid production in triticale x maize crosses. 相似文献
13.
Transfer of the Glu-D1 Gene from Chromosome 1D of Breadwheat to Chromosome 1R in Hexaploid Triticale
The use of hexaploid triticale as a crop for human consumption has been limited by its inferior bread-making quality. To ameliorate this problem, a segment of chromosome ID of breadwheat with the Glu-D1d allele encoding for high molecular weight glutenin subunits 5 7plus; 10 was translocated to chromosome 1R of the hexaploid triticale ‘Rhino’ through a combination of a centric break-fusion translocation followed by 5D(5B)-induced homoeologous pairing. The resulting recombinant chromosome 1R has a small interstitial segment of ID with the Glu-D1d allele. The maximum physical length of the translocated segment is estimated at about 16.5 % of 1DL. Frequency of translocations involving the long arms of homoeologous group-1 chromosomes in the analyzed progeny suggested that homoeologous recombination in triticale was substantially higher than that previously reported in hexaploid wheat. 相似文献
14.
六倍体普通小麦(Triticumaestivum L., AABBDD, 2n=42)由四倍体小麦(T. turgidum, AABB, 2n=28)与节节麦(Aegilops tauschii Cosson, DD, 2n=14)天然杂交,然后通过染色体自动加倍形成。加倍过程主要受四倍体小麦未减数配子基因控制,且不同四倍体小麦存在不同的遗传效应。本研究利用位于3B染色体上未减数配子基因QTug.sau-3B的连锁SSR标记Xgpw1146和高通量DArTseq分子标记,筛选出可能转入四倍体小麦未减数配子基因的人工合成小麦改良后代。在105份改良材料中检测出17份具有四倍体小麦的Xgpw1146等位位点,表明四倍体小麦的未减数配子基因可能转入了这17份材料。利用DArTseq高通量标记技术分析人工合成小麦SHW-L1的88份改良后代,发现含四倍体小麦Xgpw1146等位位点的材料均具有来自SHW-L1、且可能包含Xgpw1146的一个染色体区段,表明未减数配子基因临近区域以一个区段传递到改良后代。这些人工合成小麦改良材料在加倍单倍体育种中有重要的应用潜力。 相似文献
15.
Gain or loss of single chromosomes in wheat-rye addition lines and in 6x triticale detected by flow cytometry 总被引:1,自引:0,他引:1
Flow cytometric DNA analysis was used to study changes in nuclear DNA content induced by the gain or loss of chromosomes or chromosome arms in wheat-rye addition lines and in triticale. The amount of DNA present was determined by comparison with internal reference values obtained from euploid plants. The smallest difference in the DNA level which could be detected between aneuploid and euploid plants was 1.84%. Thus, it was possible to determine aneuploidy in all cases, except when very short telocentric rye chromosomes were added to wheat (addition line 1RS). The study has proved that flow cytometry is an efficient and simple way to discriminate between euploid and aneuploid plants in wheat and triticale. 相似文献
16.
From the crosses (6 × triticale ‘Lasko’× AARR) בLasko’ one plant with 56 chromosomes was obtained. The selfed progenies showed reduction of somatic chromosome number. A reciprocal cross of hyperploid introgressive plants with ‘Lasko’ indicated similar transmission rates of additional chromosomes through female and male gametes. The degree of initial reduction is of great importance for the number of succeeding generations needed to reach the hexaploid level. With regard to the output of introgressive lines of practical breeding importance, it is necessary to continue and to promote the recombination processes between donor and recipient genetic information for as long as possible. An interruption of recombination by beginning selection too early leads to the loss of genetic variability in the progenies. 相似文献
17.
To complement previously developed recombinant chromosomes 1R.1D, two series of translocations involving the Glu-D1 gene from chromosome ID to chromosome 1A were produced in hexaploid triticale. These series involve seven independent transfers of allele d encoding for high molecular weight glutenin subunits 5+10 and ten independent transfers involving allele a encoding for HMW glutenin subunits 2 + 12. The frequency of homoeologous recombination between chromosomes 1A and 1D was within the range observed for pairs of homologues in wheat, supporting earlier observations that homoeologous recombination in triticale is frequent. Recombined chromosomes 1A.1D can be used to introduce the Glu-D1 gene to durum wheats, and to manipulate the dosage of Glu-D1 in hexaploid triticale and bread wheat. 相似文献
18.
川麦42遗传背景中人工合成小麦导入位点的SSR标记检测 总被引:5,自引:0,他引:5
硬粒小麦和节节麦是六倍体普通小麦的二级基因源,六倍体人工合成小麦遗传变异丰富、蕴藏着丰富的抗性基因,可供现代小麦改良利用。利用人工合成小麦基因资源与四川小麦杂交、回交,已育成了高产、优质、抗病小麦新品种“川麦42”。本文利用217对微卫星(SSR)引物检测“川麦42”遗传背景中人工合成小麦的导入位点,发现24个位点来源于人工合成小麦,占所用引物数的11.06%,远小于理论值25%。川麦42遗传背景中人工合成小麦导入位点在A、B和D染色体组分布频率不均衡,D组>B组>A组;人工合成小麦导入位点在川麦42各染色体间差异也很大,在1B、2B和5A染色体上分布较集中、片段较长,而在1A等11条染色体上则无导入位点;表明人工合成小麦的遗传位点并不按孟德尔遗传规律传至后代,人工选择压力导致遗传位点很大的偏分离行为。 相似文献
19.
Anther culture in the breeding process of winter wheat. I. Ability of 1B—-1R wheat-rye translocation forms for androgenesis 45 winter wheat varieties or F1 hybrids, F2 populations and lines with 1B—1R wheat-rye translocation were tested for their anther culture ability. A total of 48058 anthers was cultured on Potato-2 medium. When averaged over all genotypes and the two experimental years frequencies of embryoid formation of 5.4—6.8 per 100 anthers were observed. Plant regeneration efficiency from embryoids ranged from 5.3—9.1 % or a mean of 4—5 green plants per 1000 anthers plated. The results confirmed the preferential regeneration frequency of gametes with the 1BL—1RS chromosome compared to the gametes with the 1BL—IBS chromosome. Multiple peroxidase were used as marker. The effect of cold pretreatment or of media on the androgenetic response and productivity was not important. On the contrary the variability between the anther response from single ears of the same genotype was noticeable. Examples are presented for the transferability of the androgenetic ability to breeding material. Most green plants obtained were haploid or spontaneous doubled haploid. By cloning it was guaranteed, that progenies were obtained from most of the haploids after colchicine treatment. 相似文献
20.
Crosses between octoploid and hexaploid triticales have been made m breeding programs for several years, From an analysis of the progeny of such crosses where selections for an octoploid-like phenotype had been made, it was established that 149 out of 150 lines were hexaploid in chromosome number, C-banding and in situ hybridization demonstrated that all but five of the 62 lines analyzed in detail contained visible chromosomes or segments from the D genome. Only four lines had D-genome chromosome replacing rye chromosomes. All of the remaining 53 D-genome substitutions involved the replacing of wheat chromosomes from either the A or B genomes. This establishes the ease with which D-genome genes can be placed into triticale without the loss of rye chromosomes. 相似文献