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通过花粉母细胞减数分裂中期I染色体配对构型分析GiemsaC-分带,从普通小麦-大赖草第7条染色体二体异附加系自交后代中选育并鉴定出了93G51-9和93G52-82个等臂染色体异附加系,该异附加系在花粉母细胞减数分裂中期I,其等臂染色体自身两臂配对频率高,染色体易发生断裂,且又携带有较抗赤霉病的基因,是向小麦转移大赖草赤霉病抗性基因的有用中间材料。 相似文献
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对小麦与高冰草不对称体细胞杂种F5代株系Ⅱ-1-3和Ⅰ-1-9的染色体组成及异源染色体存在方式进行分析. 花粉母细胞观察统计发现两杂种中分别有84.69%和84.75%的细胞为20~21对二价体, 其中环状二价体分别占89.83%和89.57%, 表明两杂种的遗传组成基本稳定. RAPD分析证明两杂种含有双亲的DNA并发生了整合. GISH结果表明高冰草染色体以小片段的方式分布在杂种Ⅱ-1-3和Ⅰ-1-9的4~6个染色体上, 小片段位于小麦的近着丝粒位置及近端部. SSR分析结果表明高冰草DNA分布于两杂种株系的2A, 5B, 6B和2D染色体上, 与GISH分析的多位点小片段插入的结果相对应 相似文献
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单体异附加系花药培养创制小麦- 中间偃麦草纯合易位系 总被引:2,自引:2,他引:0
利用单体异附加系花药培养细胞工程途径,诱导小麦与中间偃麦草发生染色体易位,通过细胞学分析、荧光原位杂交(F ISH)和SSR鉴定出纯合易位系.研究结果表明,经单体异附加系花药培养创制出1个小麦-中间偃麦草纯合易位系99-803;其花粉母细胞(PM C s)减数分裂中期I染色体构型为18.42个环状二价体 2.57个棒状二价体 0.01个单价体;中间偃麦草的7A i-1染色体与小麦7A或7B染色体发生了非罗伯逊易位,且中间偃麦草易位片段较小;通过该途径获得纯合易位系的频率约为2%.以上结果表明,单体异附加系花药培养是一条向小麦转移异源染色体小片段(基因)的快速高效途径. 相似文献
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本文分析了早椒和C;hinense 二亲本及F1杂种花粉母细胞减数分裂终变期和中期Ⅰ期染色体配对的构型。结果表明;二亲本工粉母细胞减娄分裂染色体配对均正常,为12个二价体。F1杂种花粉母细胞减数分裂染色体配对很不规则。其平均频率为单价体0.036,二价体9.18,三价体0.036,四价体0.80,六价体0.38。 相似文献
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抗白粉病小麦-中间偃麦草二体异附加系与杀配子材料杂交后代的细胞遗传学研究 总被引:4,自引:0,他引:4
利用已选育的抗白粉病烟农15-中间偃麦草二体异附加系与农林26-离果山羊草3C染色体附加系杂交.对其F1、F2、F3的细胞遗传学进行研究.结果表明:F1花粉母细胞减数分裂中期Ⅰ染色体构型紊乱,在39.48%的细胞中发现染色体断片、单价体,后期Ⅰ、后期Ⅱ出现落后染色体、染色体桥.四分体期微核出现频率达48.65%,说明杀配子染色体可有效诱导染色体发生断裂等结构变异;F2代在细胞学方面仍不稳定,表现为染色体数目发生变异,花粉母细胞减数分裂染色体构型紊乱。多价体、落后染色体、染色体桥及微核的普遍出现.说明染色体问可能发生断裂、重接、交换或易位等现象,F2代白粉病抗性也出现分离;F3代虽然染色体数日和白粉病抗性仍在分离,但花粉母细胞减数分裂中期Ⅰ染色体构型较F2稳定,相对紊乱系数下降.从F3代鉴定出了染色体数目为42、构型稳定且对白粉病表现免疫的单株。 相似文献
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小麦新种质4844中外源P染色质的GISH与SSR分析 总被引:7,自引:1,他引:6
采用基因组原位杂交(GISH)检测和染色体组成分析方法,对大穗多花小麦新种质4844后代的15个株系进行遗传分析。结果发现,4844-12是1个稳定的异附加系,4844-2和4844-8是稳定的异代换系;对异代换系进行SSR分析表明,代换系中小麦的6D染色体被1对P染色体代换,说明这对冰草染色体与小麦6D染色体有部分同源关系,由此确定4844中的冰草染色体为6P;同时筛选出冰草6P染色体的4个SSR标记。 相似文献
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同源四倍体矮牵牛花粉母细胞减数分裂观察 总被引:2,自引:0,他引:2
以同源四倍体矮牵牛06P-12为材料,采用常规压片法对花粉母细胞减数分裂过程及染色体行为进行了观察研究,以探明同源四倍体矮牵生育性降低的细胞学原因.结果显示:花粉母细胞减数分裂过程与二倍体基本相同但有其特殊性,主要表现在:终变期染色体的构型复杂,有四价体、三价体和单价体;中期Ⅰ和中期Ⅱ有赤道板外染色体;后期Ⅰ和后期Ⅱ出现落后染色体、丢失染色体、染色体桥及不均等分裂的现象;四分体时期出现一分体、二分休、三分体以及含微核的异常三分体、四分体、多分体.花粉母细胞减数分裂过程中正常细胞平均达78.6%,异常细胞频率平均为21.4%.研究表明,同源四倍体矮牵生育性降低的细胞学原因是减数分裂过程中染色体行为异常. 相似文献
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利用杀配子染色体创造普通小麦-大赖草异易位系 总被引:10,自引:0,他引:10
某些山羊草染色体在普通小麦遗传背景中可引起小麦染色体发生断裂、重接从而产生染色体结构变异, 利用这一机制, 用抗赤霉病普通小麦-大赖草Lr2和Lr7染色体二体附加系与普通小麦-柱穗山羊草的2C杀配子染色体二体附加系杂交, 再用中国春回交, 采用染色体C分带技术从BC1中初筛出染色体结构发生变异的植株, 再通过染色体C分带和基因组荧光原位杂交技术, 并结合花粉母细胞减数分裂中期Ⅰ的染色体配对分析, 对其自交后代作细致的细胞学分析, 选育出3个普通小麦-大赖草纯合易位系T1DS-Lr7L(98002, NAU633), T4AL·4AS-Lr7S(98004, NAU634)和T1BL-Lr2S (98048, NAU635), 以及一批尚待鉴定的含小麦与大赖草染色体易位植株. 对杀配子染色体在诱导小麦与外源染色体间易位的可行性和效率, 以及异易位系的利用价值进行了讨论. 相似文献
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吉林师范大学生物系“玉米稻”研究小组 《遗传学报》1975,(4)
本文分析了“玉米稻”一个大粒株系的花粉母细胞染色体。判明它是一个四倍体类型,多数花粉母细胞的染色体数为2n=48,但有许多花粉母细胞是非整倍性的或二倍和三倍性的,也看到极少数八倍性花粉母细胞。四倍性花粉母细胞的四价体数目比一般四倍体水稻花粉母细胞的四价体少,平均每个花粉母细胞有2.9个四价体。此外在四倍性或近于四倍性的花粉母细胞的终变期看到核仁体积增大,被苏木精染色深,少数花粉母细胞除一个大核仁外,还有许多小核仁或有类似核仁物质散在于染色体间。作者对这个四倍体水稻的细胞学特点做了简短讨论,并指出它在水稻育种上可能有一定利用价值。 相似文献
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Apolinarska B 《Journal of applied genetics》2003,44(2):119-128
In tetraploid rye with single-substitution wheat chromosomes - 1A, 2A, 5A, 6A, 7A, 3B, 5B, 7B - chromosome pairing was analysed at metaphase I in PMCs with the C-banding method. The frequency of univalents of chromosome 1A was considerably higher than that of the other four wheat chromosomes of genome A (6A, 5A, 7A and 2A). Among chromosomes of genome B, the lowest mean frequency of univalents was observed for chromosome 5B. In monosomic lines, wheat chromosomes 1A, 2A, 5A, 6A, 7A and 5B paired with rye homoeologues most often in rod bivalents and in chain quadrivalents (also including 3B). The 47% pairing of 5B-5R chromosomes indicate that the rye genomes block the suppressor Ph1 gene activity. In monosomic plants with chromosomes 5A, 2A, 6A, 7A and 5B, a low frequency of rye univalents was observed. It was also found that the wheat chromosomes influenced the pairing of rye genome chromosomes, as well as the frequency of ring and rod bivalents and tri- and quadrivalents. However, the highest number of terminal chiasmata per chromosome occurred in the presence of chromosomes 5A and 2A, and the lowest - in the presence of chromosomes 3B and 7B. In the presence of chromosome 5B, the highest frequency of bivalents was observed. The results of the present study show that the rye genome is closer related to the wheat genome A of than to genome B. The high pairing of wheat-rye chromosomes, which occurs in tetraploid rye with substitution wheat chromosomes, indicates that there is a high probability of incorporating wheat chromosome segments into rye chromosomes. 相似文献
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By colchicine treatment of hybrids between Triticum turgidum and Aegilops tauschii (as seedlings), a fertile wheat plant (SHW-L2) carrying 56 chromosomes was artificially synthesized. At metaphase I of 50 pollen mother cells, the 56 chromosomes of the new wheat SHW-L2 showed a mean pairing configuration of 2.82 univalents, 6.18 rod bivalents, 19.39 ring bivalents, 0.5 trivalents, and 0.14 quadrivalents. Cytological analyses suggested that SHW-L2 had additional 7 pairs of chromosomes from the A and D genome besides the 42 chromosomes of common wheat. The special chromosome constitution of SHW-L2 may be derived from the chromosome doubling by the colchicine treatment of seedlings and then spontaneous doubling of gametes. 相似文献
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用顺序GISH-FISH 技术鉴定小麦-中间偃麦草小片段易位系 总被引:7,自引:1,他引:6
利用顺序基因组-重复序列原位杂交技术对1个来自中3不育系和普通小麦恢75杂种后代稳定株系H96276-2的染色体组成进行了分析。以中间偃麦草(Agropyronintermedium)基因组DNA为探针的荧光原位杂交结果表明,H96276-2的体细胞中有42条染色体,包括20对小麦染色体和1对小麦-中间偃麦草易位染色体,中间偃麦草染色体的易位片段位于1对小麦染色体的端部。进而用重复序列探针pSc119进行第2次荧光原位杂交,证明H96276-2中的中间偃麦草染色体易位片段位于小麦2B染色体的短臂上。 相似文献
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Genetic induction of chromosomal rearrangements in barley chromosome 7H added to common wheat 总被引:6,自引:0,他引:6
Chromosome 2C of Aegilops cylindrica induces chromosomal rearrangements in alien chromosome addition lines, as well as in euploid lines, of common wheat. To induce chromosomal rearrangements in barley chromosome 7H, reciprocal crosses were made between a mutation-inducing common wheat line that carries a pair of 7H chromosomes and one 2C chromosome and a 7H disomic addition line of common wheat. Many shrivelled seeds were included in the progeny, which was an indication of the occurrence of chromosome mutations. The chromosomal constitution of the viable progeny was examined by FISH (fluorescence in situ hybridization) using the barley subterminal repeat HvT01 as a probe. Structural changes of chromosome 7H were found in about 15% of the progeny of the reciprocal crosses. The aberrant 7H chromosomes were characterized by a combination of N-banding, FISH and genomic in situ hybridization. Mosaicism for aberrant 7H chromosomes was observed in seven plants. In total, 89 aberrant 7H chromosomes were identified in 82 plants, seven of which had double aberrations. More than half of the plants carried a simple deletion: four short-arm telosomes, one long-arm telosome, and 45 terminal deletions (23 in the short arm, 21 in the long arm, and one involving both arms). About 40% of the aberrations represented translocations between 7H and wheat chromosomes. Twenty of the translocations had wheat centromeres, 12 the 7H centromere, with translocation points in the 7HS (five) and in the 7HL (seven), and the remaining four were of Robertsonian type, three involving 7HS and one with 7HL. In addition, one translocation had a barley segment in an intercalary position of a wheat chromosome, and two were dicentric. The breakpoints of these aberrations were distributed along the entire length of chromosome 7H. 相似文献
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Identification, mapping, and application of polymorphic DNA associated with resistance gene Pm21 of wheat. 总被引:34,自引:0,他引:34
A new powdery mildew resistance gene designated Pm21, from Haynaldia villosa, a relative of wheat, has been identified and incorporated into wheat through an alien translocation line. Cytogenetic and biochemical analyses showed that chromosome arms 6VS and 6AL were involved in this translocation. Random amplified polymorphic DNA (RAPD) analysis was performed on recipient wheat cultivar Yangmai 5, the translocation line, and H. villosa with 180 random primers. Eight of the 180 primers amplified polymorphic DNA in the translocation line, and the same results were obtained in four replications. Furthermore, RAPD analysis was reported for substitution line 6V, seven addition lines (1V-7V), and the F1, as well as F2 plants of (translocation line x 'Yangmai 5'), using two of the eight random primers. One RAPD marker, specific to chromosome arm 6VS, OPH17-1900, could be used as a molecular marker for the detection of gene Pm21 in breeding materials with powdery mildew resistance introduced from H. villosa. Key words : RAPD analysis, 6VS-specific marker, Pm21, Erysiphe graminis f.sp. tritici, Triticum aestivum - Haynaldia villosa translocation. 相似文献
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Badaeva ED Dedkova OS Koenig J Bernard S Bernard M 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2008,117(5):803-811
Seven Triticum aestivum (cv. Moisson)-Aegilops ventricosa addition lines and four VPM-1 lines were studied by C-banding, and compared with the parental common wheat cultivars Marne-Desprez (hereafter Marne), Moisson, and A. ventricosa lines 10 and 11. All of the VPM-1 lines had similar C-banding patterns and carried the same major 5B:7B translocation as the parental Marne cultivar. According to the C-banding analysis, the VPM-1 lines carry a complete 7D(7D(v)) chromosome substitution and a translocation involving the 5D and 5D(v) chromosomes. However, the translocation of the 2N(v)/6N(v) chromosome of A. ventricosa to the short arm of the 2A chromosome of wheat that had been identified in an earlier study using molecular analysis (Bonhomme A, Gale MD, Koebner RMD, Nicolas P, Jahier J, Bernard M in Theor Appl Genet 90:1042-1048, 1995; Jahier J, Abelard P, Tanguy AM, Dedryver F, Rivoal R, Khatkar S, Bariana HS Plant Breed 120:125-128, 2001) was not detected in our study. However, the appearance of a small pAs1 site at the tip of the chromosome 2A short arm in VPM-1 could be indicative of a minor translocation of the A. ventricosa chromosome. The 5B:7B translocation was also found in all seven T. aestivum-A. ventricosa addition lines, although it was not present in the parental common wheat cultivar Moisson. These lines showed different introgression patterns; besides the addition of the five N(v)-genome chromosomes, they also possessed different D(D(v)) genome substitutions or translocations. A whole arm translocation between chromosome 1N(v) and 3D(v) was identified in lines v86 and v137, and also in the A. ventricosa line 10. This observation lends further support to the idea that A. ventricosa line 10, rather than line 11, was used to develop a set of wheat A. ventricosa addition lines. 相似文献
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Apolinarska B 《Journal of applied genetics》2003,44(2):129-137
Chromosome pairing in tetraploid Secalotriticum was analysed. In the studied plants wheat chromosomes in PMCs during metaphase I showed a higher degree of pairing, in comparison to the rye genome. This is reflected in a very low frequency of univalents and a higher frequency of ring bivalents. The occurrence of wheat univalents was dependent on wheat mixogenome. In plants with an unstabilized fourth homoeologous group, a heteromorphic bivalent 4A-4B was observed in 39.9% of PMCs, whereas in plants with an unstabilized seventh homoeologous group, chromosome 7A-7B pairing was found in all analysed cells. Rye univalents were present in all plants studied. The highest mean frequency of univalents and rod bivalents, both in wheat and in rye genomes, were recorded in plants whose first homoeologous group contained chromosome 1A. The mean number of terminal chiasmata per chromosome amounted to 1.78 in the wheat genome and 1.36 in the rye genome. It may be concluded that the plasmagenes in Secalotriticum did not increase the meiotic stability of the rye genome and also did not stabilize plant fertility. 相似文献
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Two Chinese wheat lines Jieyan 94-1-1 and Siyan 94-1-2 are resistant to all 120 isolates of Blumeria graminis f. sp. tritici maintained in Weihenstephan, Germany. Monosomic analyses employing the susceptible set of 21 Chinese Spring monosomic lines revealed that the line Jieyan 94-1-1 carries one dominant gene on translocated wheat/rye chromosome 1B/1R and one recessive gene on chromosome 7B, whereas line Siyan 94-1-2 possesses one recessive gene on chromosome 7B and one dominant gene on chromosome 5D. Allelism tests in combination with the use of specific isolates comfirmed that the dominant genes in Jieyan 94-1-1 and Siyan 94-1-2 are Pm8 and Pm2, respectively. The recessive genes present in each of the two lines are shown to be new alleles located on chromosome 7B at the pm 5 locus. The two genes are tentatively designated mljy in Jieyan 94-1-1 and mlsy in Siyan 94-1-2, respectively. 相似文献
19.
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. 相似文献