Molecular Cytogenetic Characterization of a Wheat - Leymus mollis 3D（3Ns） Substitution Line with Resistance to Leaf Rust

Leymus mollis （Trin.） Pilger （NsNsXmXm, 2n = 28）, a wild relative of common wheat, possesses many potentially valuable traits that could be transferred to common wheat during breeding programs. In this study, the karyotypic constitution of a wheat - L. mollis 3D（3Ns#1） disomic substitution line isolated from the F5 progeny of octoploid Tritileymus M842-16 x Triticum durum cv. D4286, which was designated as 10DM57, was determined using genomic in situ hybridization （GISH）, fluorescent in situ hybridization （FISH）, SSR markers, and EST- STS markers. Screening of mitosis and meiosis showed that 10DM57 had a chromosome karyotype of 2n = 42 =21Ⅱ. GISH indicated that 10DM57 was a line with 40 chromosomes from wheat and two of the Ns chromosomes from L. mollis, which formed a ring bivalent in pollen mother cells at metaphase I. FISH analysis showed that the chromosome 3D may be replaced by 3Ns#1 in 10DM57. DNA markers, including SSR and EST-STS primers, showed that the pair of wheat chromosome 3D in 10DM57 was substituted by the pair of chromosome 3Ns#t from L. mollis. Evaluation of the agronomic traits showed that, compared with its common wheat relative 7182, 10DM57 was resistant to leaf rust while the spike length and number of spikes per plant were improved significantly, which correlated with a higher wheat yield. The new germplasm, 10DM57, could be exploited as an intermediate material in wheat genetic and breeding programs.     

小麦族三属杂种F1小孢子发生过程中染色体的行为(简报)

利用八倍体小黑麦劲松49和八倍体小滨麦950059杂交合成了小麦-黑麦-滨麦草三属杂种,对不同基因组染色体在三属杂种F1减数分裂和小孢子发育过程中的行为进行了研究.基因组原位杂交(GISH)结果表明劲松49和小滨950059均包含44条小麦染色体和12条外源染色体,三属杂种F1中含有6条黑麦染色体和6条滨麦草染色体.减数分裂过程中黑麦和滨麦草染色体很少与小麦染色体配对.常以单价体形态存在.小孢子中的微核主要由外源染色体组成.在三属杂种F1的花粉发育过程中还发现了染色体浓缩不同步的现象.     

重庆温光型雄性不育小麦的染色体分析

本研究采用种子醇溶蛋白酸性聚丙烯酰胺凝胶电泳（APAGE）和染色体C分带技术对重庆温光型雄性不育小麦的染色体组成进行分析,结果表明：不育系染色体1B短臂（1BS）已被黑麦1R短臂（1RS）取代,具有1RS/1BL易位染色体及普通小麦细胞质。 Abstract:Seed gliadin acid-polyacrlamide-gel-electrophoresis(APAGE) and chromosome C-banding techniques were used to identify chromosome constitution of Chongqing thermo-photo sensitive male sterile wheat.Results showed that 1BS of the male sterile lines was substituted by 1RS of rye.They were 1B/1R wheat with Triticum aestivum cytoplasm.     

兼抗白粉和条锈病小滨麦种质系山农6343的细胞学和SSR鉴定

利用抗性接种鉴定、细胞学和SSR分子标记技术相结合的方法,对从八倍体小滨麦和普通小麦烟农15杂种后代选育出的兼抗白粉病和条锈病的小滨麦种质系山农6343进行了鉴定.结果表明,山农6343的根尖细胞染色体数目2n=42,花粉母细胞减数分裂中期I(PMC MI)绝大多数细胞内可观察到21个二价体,平均染色体构型为2n=21Ⅱ,与普通小麦烟农15杂种F1的花粉母细胞内观察到2n=19Ⅱ+1Ⅳ的染色体构型,四价体出现频率为24.1%.利用SSR分子标记技术,在1283对SSR和EST-SSR引物中筛选出两对特异引物BARC236-4A和KSUM134,均能稳定地在山农6343中扩增出滨麦草的特异标记BARC236255和KSUM134245,且两个标记在小滨麦易位系山农0096中得到了验证.初步确定山农6343是一个小滨麦易位系.由于在目前已命名的小麦白粉病和条锈病抗性基因中尚未有来自滨麦草的,推测山农6343可能为新的白粉病和条锈病抗源,对小麦白粉病和条锈病的抗性遗传改良将具有重要的利用价值.     

小麦-黑麦1BL/1RS 易位染色体和外源染色体在两个三属杂种中的减数分裂行为

利用荧光原位杂交技术分析了两个小麦-外源种杂种花粉母细胞中1BL/1RS 小麦-黑麦易位染色体和外源染色体包括中间偃麦草(Thinopyrum intermedium (Host) Barkworth & DR Dewey)、簇毛麦(Haynaldia villosa (L.) Schur)染色体的减数分裂行为. 我们首次发现:在减数分裂后期, 1BL/1RS 小麦-黑麦易位染色体发生错分裂,形成两个易位染色单体. 这种错分裂导致易位染色单体在末期Ⅰ分配到两个正在形成的细胞核内,错分裂的易位染色单体进一步形成微核,并在四分体期观察到黑麦的微核出现.从贵农22×遗4095 的F2代植株中检测到一个2n=41的植株,其含有一对1BL/1RS 小麦-黑麦易位染色体,核型分析表明,其中一条黑麦染色体臂比另一条的黑麦染色体臂短1/3左右.在遗4212×遗4095的F2代中检测到一个具有中间偃麦草染色体小片段易位到小麦染色体端粒部分的小麦-中间偃麦草易位植株.这可能是由于在减数分裂过程中发生非均等分裂导致小麦-黑麦1BL/1RS易位染色体的黑麦染色体段臂缺失1/3及小麦-中间偃麦草非罗伯逊易位.在两个杂种F2植株中,中间偃麦草染色体分布频率为39.6%, 簇毛麦染色体分布频率为43.4%, 1BL/1RS 小麦-黑麦易位染色体分布频率分别为51.8%和56.6%.实验结果表明,1BL/1RS 小麦-黑麦易位染色体与外源染色体包括中间偃麦草、簇毛麦染色体在减数分裂过程中没有相互作用.小麦-黑麦1BL/1RS易位染色体在减数分裂过程中可以发生错分裂,并导致杂种后代黑麦染色体臂发生缺失.这对于培育以小麦为背景含有不同长度的黑麦1R染色体短臂的种质及小麦-外源染色体非罗伯逊易位的小片段易位系具有指导意义.     

小麦异源易位系的高效诱导和分子细胞遗传学鉴定

利用杀配子染色体(gametocidal chromosome)和低剂量(10Gy)γ-射线辐射花粉两种方法诱导小麦(Triticum aestixum L)-滨麦(Leymus mollis Trin)和小麦-中间偃麦草[Thinopyrum intermedium(Host)Barkwarth]的易位系。通过基因组原位杂交(GISH)分析,在59个小滨麦代换系M8724-8-13与离果山羊草(Aegilops trincialis L)3C染色体附加系的杂交后代中获得了3株小麦-滨麦易位系,易位频率达到5．08％。其中1个易位系经C-分带证明是小麦的7D染色体与1条滨麦的染色体发生了整臂易位。同时还获得了3个滨麦染色体的缺失系。滨麦染色体发生结构变异的总频率为8．47％。除了滨麦染色体以外,在一些植株中还观察到小麦的染色体也发生了缺失。在69个普通小麦与小麦-中间偃麦草附加系TAI-14辐射花粉的杂交后代中,得到2株小麦-中间偃麦草的易位系,易位频率为2．90％。两个易位系都是小片段易位,经C-分带证明两个易位系所涉及的小麦染色体分别是3A和4A。利用杀配子染色体和低剂量γ射线辐射花粉诱导小麦异源易位系都是行之有效的方法,但这两种方法各有优缺点,在实际工作中应根据不同的目的选用不同的实验体系。     

Karyotyping of Brassica napus L. Based on C0t-1 DNA Banding by Fluorescence In Situ Hybridization

In order to precisely recognize and karyotype Brassica napus L. chromosomes, C0t-1 DNA was extracted from its genomic DNA, labeled with biotin-1 1-dUTP and in situ hybridized. The hybridized locations were detected by Cy3-conjugated streptavidin. Specific fluorescence in situ hybridization （FISH） signal bands were detected on all individual chromosome pairs. Each chromosome pair showed specific banding patterns. The B. napus karyotype has been constructed, for the first time, on the basis of both Cot-1 DNA FISH banding patterns and chromosome morphology.     

黑麦碱基因（Sec–1）表达缺失的1RS／1BL易位系的鉴定

用改良的Giemsa C－带技术、DNA原位杂交和酸性聚丙烯酰胺凝胶电泳（A-PAGE）对来源于小麦品种绵阳11与不同黑麦自交系远缘杂交获得的高代株系（BC1F7）的染色体结构和醇溶蛋白进行了研究。结果发现,在鉴定的200个株系中,有45个株系经C-带和A-PAGE检测均一致地发现它们含有一对1RS /1BL易位染色体,而一个株系843-1-1,C-带鉴定、原位杂交结果均证明它含有一对1RS/1BL易位染色体,但A-PAGE醇溶蛋白图谱却不具有黑麦1RS染色体臂的黑麦碱特征带,而表达出既不同于黑麦碱又不同于亲本绵阳11的醇溶蛋白带型。这一结果表明,利用不同的黑麦亲本资源,可以获得黑麦碱基因Sec-1表达缺失的新的1RS/1BL易位系。这种新的1RS/1BL易位系缺失了影响小麦品质的黑麦碱蛋白,因此是进一步研究1RS/1BL 易位对小麦品质影响的珍贵材料。研究指出,在利用外源基因的植物育种中,外源种供体材料的遗传多样性是值得重视的基因资源。     

Cytogenetic and molecular identification of three Triticum aestivum-Leymus racemosus translocation addition lines

Chromosome 2C from Aegilops cylindrica has the ability to induce chromosome breakage in common wheat （Tritivum aestivum）. In the BC1F3 generation of the T. aestivum cv. Chinese Spring and a hybrid between T. aestivum-Leymus racemosus Lr.7 addition line and T. aestivum-Ae, cylindrica 2C addition line, three disomic translocation addition lines （2n = 44） were selected by mitotic chromosome C-banding and genomic in situ hybridization. We further characterized these T. aestivum-L, racemosus translocation addition lines, NAU636, NAU637 and NAU638, by chromosome C-banding, in situ hybridization using the A- and D-genome-specific bacterial artificial chromosome （BAC） clones 676D4 and 9M13; plasmids pAsl and pSc119.2, and 45S rDNA; as well as genomic DNA of L. racemosus as probes, in combination with double ditelosomic test cross and SSR marker analysis. The translocation chromosomes were designated as T3AS-Lr7S, T6BS-Lr7S, and T5DS-Lr7L. The translocation line T3AS-Lr7S was highly resistant to Fusarium head blight and will be useful germplasm for resistance breeding.     

栽培稻×大颖野生稻F~2 多倍现象的细胞遗传学研究

A栽培稻(Oryza sativa)×大颖野生稻(Oryza grandiglumis)F2经细胞学鉴定为2n=4x=48, 即已由杂种F1的ACD异源三倍体变成了异源四倍体。研究了从粗线期到末期Ⅱ的染色体行为,结果表明,F2的染色体构型为异源节段异段类型,且异常染色体频率极高,合计为87.13%。各类异常染色体频率变化按比例大小依次为: 单价体,染色体拖曳,落后染色体,多价体,邻接型易位,不均等分离,桥,不分离和松散配对等。邻接型易位是本研究的中心论题。因邻接型易位的存在是F2花粉不育的一个重要原因, 也是产生节段异段染色体构型的重要原因;因邻接型易位带来相互易位,可供育种利用。 Abstract:The chromosome number in F2 of O.sativa×O.grandiglumis were 2n=4x=48.This showed that the allotriploid of hybrid F1 had been changed into allotetraploid in F2.The chromosome constitution of this allotetraploid remained to be determined.The chromosome behavior was studied during meiosis from pachytene to telophase II.Results showed that the chromosome configuration of F2 belonged to the type of the nodal section-allosection,and possessed very high rate of anomalous chromosome,the total rate of anomalous chromosome accounting for 87.13%.The frequency of anomalous chromosome were ranked as follows:univalent,chromosome straggling,lagging chromosome,polyvalent,adjoin translocation,unequal division,chromosome bridge,non-disjunction and loose pairing in descent order.The adjoin translocation was the topic in this study.With this translocation,no vitality gamentes were produced in F2.However,this is a mutual translocation,hence that is very useful for breeding.     

Induction and transmission of wheat-Haynaldia villosa chromosomal translocations

In order to develop more wheat-Haynaldia villosa translocations involving different chromosomes and chromosome segments of H. villosa, T. durum-H, villosa amphiploid was irradiated with ^60Co γ-rays at doses of 800, 1,200, and 1,600 rad. Pollen collected from the spikes 1, 2, and 3 days after irradiation were transferred to emasculated spikes of the common wheat cv. ‘Chinese Spring＇. Genomic in situ hybridization was used to identify wheat-H, villosa chromosome translocations in the M1 generation. Transmission of the identified translocation chromosomes was analyzed in the BC1, BC2, and BC3 generations. The results indicated that all three irradiation doses were highly efficient for inducing wheat-alien translocations without affecting the viability of the M1 seeds. Within the range of 800-1,600 rad, both the efficiency of translocation induction and the frequency of interstitial chromosome breakage-fusion increased as the irradiation dosage increased. A higher translocation induction frequency was observed using pollen collected from the spikes 1 day after irradiation over that of 2 or 3 days after irradiation. More than 70% of the translocations detected in the M1 generation were transmitted to the BC1 through the female gametes. All translocations recovered in the BC1 generation were recovered in the following BC2, and BC3 generations. The transmission ability of different translocation types in different genetic backgrounds showed an order of ‘whole-arm translocation 〉 small alien segment translocation 〉 large alien segment translocation＇, through either male or female gametes, In general, the transmission ability through the female gametes was higher than that through the male gametes. By this approach, 14 translocation lines that involved different H. villosa chromosomes have been identified in the BC3 using EST-STS markers, and eight of them were homozygous.     

普通小麦-华山新麦草异代换系的分子细胞遗传学研究

利用荧光原位杂交和染色体 C-分带技术对普通小麦 -华山新麦草的异代换系进行了研究 .荧光原位杂交结果显示 :异代换系 H92 1- 6 - 12和 H92 4 - 3- 4均含有 2条华山新麦草的染色体 .对这 2个材料和华山新麦草进行染色体 C-分带带型比较 ,结果认为 :H92 1- 6 - 12可能是普通小麦 -华山新麦草的 5 A / N5h 代换系 ,H92 4 - 3- 4可能是 3D/ N4 h代换系 .     

巨穗小麦种质中外源遗传物质的细胞遗传学和分子生物学鉴定

利用C分带、基因组原位杂交并结合分子生物学手段,对12份巨穗小麦种质材料中的外源遗传物质进行了检测.结果表明,12份材料染色体数均为42,其中5份材料均具有一对小麦-黑麦(Triticum aestivum-Secalecereal)1BL/1RS易位染色体和一对中间偃麦草(Agropyron intermedium Garten)染色体、3份材料只具有一对中间偃麦草染色体、3份材料只具一对1BL/1RS染色体、1份材料无1BL/1RS和中间偃麦草染色体.进一步细胞学分析表明,此中间偃麦草染色体代换了普通小麦(Triticum aestivum L.)中的2D染色体,因其良好的同源补偿性,表示为2Ai.同时对2Ai在巨穗小麦种质中存在的遗传学意义及小麦遗传改良中的应用进行了讨论.     

应用荧光原位杂交(FISH)技术研究 黑叶猴染色体易位

本文应用染色体荧光原位杂交(FISH)技术,利用人9号和14号染色体特异探针,对深低温冻存和长期传代的黑叶猴细胞株染色体畸变进行了分析。确定在长期冻存和传代过程中,一些黑叶猴细胞在No.12和No.17染色体之间发生了易位,一条 No.17染色体发生断裂,断裂点在17q13,断裂片段17q13-17qter易位到一条 No.12染色体长臂末端,形成一条小的中着丝粒的和一条具较长长臂的衍生染色体即 der(17) 和 der(12)。结果表明,荧光原位杂交技术用人染色体特异探针不仅能检测出人类染色体畸变,也能有效地检测灵长类动物染色体畸变。 Abstract　In this paper,the chromosome aberration of long-term cryopreserved and subcultured Francois' monkey (Semnopithecus francoisi) cell line(KCB 92008) was analyzed by fluoresence in situ hybridizaton (FISH) using human 9 and 14 chromosome DNA probes. After compared the hybridization pattern with the G-banding pattern on the same metaphase,a translocation between Nos.12 and 17 chromosomes was identified. In some Francois'monkey cells,one of chromosome No.17 was broken into two at the breakpoint 17q13,the segment(17q13-17qter) without centromere transfered to the long arm terminal of one chromosome No.12. Thus,two derivant chromosomes der(12) and der(17) were formed,the long arm of der(12) was longer than the normal partner,while the long arm of der(17) was shorter than the normal one. The result indicated that the technique of FISH using human whole chromosome probes was not only a powerful tool to detect human chromosome rearrangements,but also a usefulmethod to study the primate chromosome aberration.     

对水稻第9和第12染色体编号分歧的细胞学考证

在水稻细胞遗传研究中, 对于染色体编号有着较多的争议,这在几条长度较短的染色体上显得尤为突出。为有比较地研究这几条染色体在水稻染色体组中的正确编号,本研究以涉及两条较短染色体相互易位的易位杂合体RT9-12为材料,分析了易位系与普通品种日本晴减数分裂粗线期染色体的形态特征。结果表明,该易位系的易位染色体并非第9和第12染色体,而是第10和第11染色体,从而认为目前国际上统一编号的第9、12染色体,根据染色体的实际长度可能分别为第10、11染色体。 Abstract:Rice chromosomes in mitosis are usually too small to be identified clearly one from others.In recent years,pachytene chromosomes in meiosis have been in vestigated intensively for establishing unified numbering system.However,divergence in numbering system is still existing especially for some short chromosomes such as chromosome 9 and 12.In order to verify these chromosomes,a translocation line RT9-12 and a japonica variety Nipponbare were carefully investigated for all the chromosomes morphologically in late pachytene stage.It was found that the chromosomes involved in translocation were chromosome 10 and 11 in stead of chromosome 9 and 12 as being compared with the karyotype of Nipponbare.So we consider that the chromosome 9 and 12 in the present rice chromosome numbering system could be chromosome 10 and 11 according to their length,arm ratio and the relationship with nucleolus.     

羊驼染色体核型及其G分带的研究

为了从选种、杂交改良、疾病诊断以及性别决定的遗传机制等方面为羊驼的繁育与推广提供更为有效的细胞遗传学资料,本试验采用外周血淋巴细胞培养法及胰酶-EDTA法分析了23只胡阿基亚型羊驼（Huacaya alpaca,雌20只,雄3只）的染色体核型及其G-分带,结果表明：羊驼二倍体染色体数目为2n=74,雄性羊驼核型为74,XY;雌性羊驼核型为74,XX。其中,1～20对常染色体为亚端着丝粒染色体,21～36对常染色体为亚中着丝粒染色体和中着丝粒染色体,X为中着丝粒染色体,Y为端着丝粒染色体。G-带分析表明,羊驼G带明暗相间,显现出不同的带纹,且羊驼每对染色体都有其独特的带纹特征,其带纹数目和精细程度随着染色体长度的增加而增加。Abstract: Blood samples from 23 Huacaya alpacas, 3 males and 20 females, were used to study chromosomes and karyotypes, so as to provide some effective cytogenetic bases for the selection, improvement by crossing, disease diagnosis of alpacas, and genetic mechanisms of sex determination. Peripheral blood lymphocyte culture was used to prepare chromosome. A method of trypase-EDTA was used for G-banding. The results showed as follows: The number of diploid chromosomes was 2n=74, with the karyotype 74, XY and 74, XX for males and females respectively. Thirty-six homologous pairs of chromosomes were autosomes, in which chromosomes pairs No.1 to No.20 were acrocentric-subterminal and No.21 to No.36 metacentric-submetacentric. And X chromosome was metacentric, Y chromosome telocentric. The analysis of G-bands showed that bright and dark bands appeared by turn. It showed different bands. And every pair of chromosomes had its distinct band, and the longer the chromosomes, the more the number of bands, and the more clear the bands.     

抗白粉病耐盐小麦-中间偃麦草附加系‘山农120211’的鉴定

以中间偃麦草(Thinopyrum intermedium,2n=42)与普通小麦‘烟农15’杂交,从其杂种后代中选育出一个细胞学稳定的二体异附加系‘山农120211’,该研究对其细胞学和主要性状特点进行了鉴定。白粉病抗性鉴定结果表明,‘山农120211’成株期对白粉病的田间抗性为免疫,苗期对白粉病菌种E09表现为免疫。以耐盐品种‘山融3号’为对照进行苗期耐盐性鉴定表明,‘山农120211’耐盐级别为2级(较强)。细胞学鉴定表明:‘山农120211’根尖细胞染色体数目为2n=44,PMC MI染色体构型为2n=22Ⅱ,具有高度的细胞学稳定性。以拟鹅观草基因组DNA为探针,‘烟农15’DNA为封阻,在‘山农120211’的根尖有丝分裂细胞中检测到2条染色体具有明显的杂交信号,确定其为二体异附加系。利用该实验室筛选的71对E组染色体特异分子标记,对‘山农120211’分析显示,标记BE494262在中间偃麦草和‘山农120211’中可以稳定扩增出1条440bp特异带,而‘烟农15’中缺少此带,BE494262可作为‘山农120211’中附加中间偃麦草染色体的特异标记。利用二倍体长穗偃麦草和一套中国春-长穗偃麦草异附加系(1Ee~7Ee),进一步将BE494262定位在2Ee染色体,确定‘山农120211’所附加的中间偃麦草染色体为2Ee染色体。     

Nucleolus organizer regions (Nor loci) of Chinese wheats

Nucleolus organizer regions (Nor loci) of a range of Chinese wheat landraces and cultivars (Triticum aestivum L. em Thell.) were analysed using genomic DNA extracted from leaves. Only two allelic variants of the Nor-B1 locus were found on chromosome 1B (Nor-B1a and Nor-B1g), while Nor-B1g was probably introduced from North America in the early 1960s. The even more recent introduction of the rye allele Nor-R1 in the early 1980s was also revealed. Eight allelic variants of the Nor-B2 locus on chromosome 6B (Nor-B2a, b, d, f, h, o, p and s) were identified. A Chinese origin for the a, d, f, o, p and s alkies is evident although the d allele was successfully introduced into Australian wheats in the early 1900s. Nor-B2h and Nor-B2b are again very recent introductions into Chinese wheat breeding programs, the former from CIMMYT wheats and the latter in association with the introduction of the 1RS/1BL translocation from Europe. On the basis of the presence of different combinations of Nor-B1 and Nor-B2 alleles     

Development and characterization of a new barley yellow dwarf virus (BYDV)-resistant wheat germplasm

A barley yellow dwarf virus (BYDV)-resistant line HG295 was selected from a cross between cv. 77-5433 and Zhong 5 after extensive investigation in field, greenhouse and ELISA. Cytological analysis revealed that it was an euploid line and genetically stable. The existence of alien DNA in HG295 was identified by RAPD and Southern hybridization analyses showed that the alien DNAs came from Zhong 5 or Th. intermedium. The differences of BYDV resistance between L1 and HG295 are discussed.