Identification of the 1RS rye chromosomal segment in wheat by RAPD analysis

The introgression of rye DNA into the wheat genome was studied using random decamer and specific primers with the polymerase chain reaction (PCR). DNA from paired near-isolines in Chisholm and Arkan backgrounds differing with respect to the presence of a 1 RS.1 BL translocation was amplified with 120 arbitrary sequence primers. Two of the primers (OPR 19 and OPJ07) amplified rye-specific DNA fragments. The OPR19 primer amplified a 1.35-kb fragment that appeared to be specific to the 1 RS.1 BL translocation, based on its presence only in lines carrying the 1 RS. 1 BL translocation. A fragment of the same size was also amplified in 1 RS.1 AL translocation lines. This 1 RS. 1 BL marker locus was designated Ximc 1. The other primer, OPJ07, amplified a 1.2-kb DNA sequence, that was designated Ximc 2, specific to the wheat-rye translocation in various wheat backgrounds. The sequences of the two marker loci were found to be different from each other. The Ximc 1 locus was a low-copy sequence which was also present in Balboa rye genomic DNA. Through the use of specific primers, the presence of the rye-specific marker was confirmed in hexaploid as well as in tetraploid wheat backgrounds. The use of RAPDs for the study of smaller alien introgressions into wheat is discussed.     

Production of a new wheat line possessing the 1BL.1RS wheat-rye translocation derived from Korean rye cultivar Paldanghomil

The 1BL.1RS translocations between wheat (Triticum aestivum L.) and rye (Secale cereale L.) are widely used in bread wheat breeding programs, but all modern wheat cultivars with the 1BL.1RS have shown genetic vulnerability due to one rye source – a German cultivar, Petkus. We have developed, a new 1BL.1RS wheat-rye translocation line from the backcross of the F₁ hybrid of wheat cv. Olmil and rye cv. Paldanghomil, both cultivars from Korea. The GISH technique was applied to identify the presence of rye chromatin in 467 BC₁F₆ lines selected from 77 BC₁F₅ lines. Only one line, Yw62–11, showed wheat-rye translocated chromosomes, with a somatic chromosome number of 2n=42. C-banding patterns revealed that the translocated chromosome was 1BL.1RS, showing prominent bands in the terminal and sub-terminal regions of the short arm as well as in the centromeric region and terminal region of the long arm. This new 1BL.1RS translocation line formed 21 bivalents like common wheat at meiotic metaphase I, thereby showing complete homology. Received: 28 February 2001 / Accepted: 17 April 2001     

几类异质1BL／1RS小麦雄性不育系诱导孤雌生殖性的研究

系统调查了4种异质（即偏凸,粘果,易变和二角山羊草细胞质）1BL/1RS小麦雄性不育系与其一系列异质同核系,同质异核系,异质异核系杂交,回交世代诱导孤雌生殖性的遗传变异规律,染色体分裂行为和对外表现特点,结果表明：1、异源细胞质与小麦1BL/1RS核型专一互作,有着消弱同源染色体配对,提高中期单价体细胞率的作用;2、特定细胞质背景下,专一核型内细胞单价体频率高低与诱导孤雌生殖性的频率直接相关;3、1BL/1RS易位染色体中易位片所存在系列差异以及1BL/1RS易位染色体外基因型背景不同,诱导孤雌生殖性的频率明显不同;4、提高或抑制不同杂交,回交世代间孤雌生殖频率,不育系母本或不同基因型父本有着同等重要的作用。选择最佳父母本组合杂交可明显提高或降低后代群体中的孤雌生殖性频率。     

Distribution of 1AL.1RS and 1BL.1RS wheat-rye translocations in Triticum aestivum using specific PCR

Chromosome arm 1RS of rye (Secale cereale) is a valuable resource for wheat (Triticum aestivum) improvement. 1AL.1RS and 1BL.1RS translocations play an important role in wheat breeding, since wheat carrying these chromosomal translocations has higher tolerance to biotic and abiotic stress. In this study, the presence of 1RS and the distribution of 1AL.1RS and 1BL.1RS wheat-rye translocations were examined in 66 Iranian cultivars and 70 regional foreign accessions of bread wheat, using three rye-specific primers (“RYER3/F3”, “O-SEC5′-A/O-SEC3′-R”, “PAWS5/S6”). Based on “RyeR3/F3”, the presence of 1RS was verified in 15 (23%) Iranian cultivars and in two (3%) foreign accessions. Further, “O-SEC5′-A/O-SEC3′-R” and “PAWS5/S6” were used to distinguish 1AL.1RS and 1BL.1RS translocations. According to results from these primers, 1BL.1RS was identified in 14 (21%) Iranian cultivars and two (3%) foreign accessions. The results confirm that “Sholeh” is the only cultivar (1.5%), among all cultivars and accessions, that carries 1AL.1RS. This study provides a useful tool in marker-assisted selection of materials containing 1RS, and in the creation of new Iranian common wheat cultivars with a larger genetic diversity in wheat breeding programs.     

A gene from the Sec2 (Gli-R2) locus of a wheat 2RS.2BL chromosomal translocation line

A genomic DNA clone coding for a rye secalin gene (gSec2A) was isolated from a wheat translocation line carrying the 2RS.2BL chromosome, using a previously identified partial secalin (Sec2) cDNA clone as a probe. The predicted N-terminal amino-acid sequence of the gSec2A gene was identical to the N-terminal sequence obtained for Sec2 polypeptide bands isolated from SDS-PAGE gels. Bacterially expressed gSec2A protein was identical in size to that of the smallest Sec2 polypeptide band observed on SDS PAGE gels and is recognized by a monoclonal antibody specific for Mr 75000 2RS γ-secalins. Overall, the predicted protein sequence of gSec2A was most similar (50%) to the family of γ-gliadins and consists of a short N-terminal region containing one cysteine residue followed by a glutamine/proline-rich repetitive domain and a long C-terminal domain containing eight cysteine residues. The repetitive domain can be divided into two regions. One region coded for 15 units, each consisting of eight amino acids similar in sequence to that found in the ω-secalins and C-hordeins. The second region coded for 17 units each consisting of a sequence of 7–10 amino acids similar to that observed in γ-gliadins. Received: 31 February 2000 / Accepted: 21 May 2000     

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。     

Haploid production in durum wheat by the interaction of Aegilops kotschyi cytoplasm and 1BL/1RS chromosomal interchange

The present study describes the development of an alloplasmic haploid-inducer in durum wheat cv Cando. This cultivar possesses the homozygous wheat-rye translocation 1BL/1RS from the 6x-wheat cv Veery. The nucleus of 4x-Cando-Veery 1BL/1RS was introduced into Aegilops kotschyi cytoplasm by initially using (kotschyi)-Salmon as the maternal parent. In the cross of this alloplasmic durum line with Cando-Veery 1BL/1RS, which was used as the recurrent pollen parent, haploids (n=14) were produced. The frequency of haploids increased from 5.7% in the F₁ generation to 14% in the BC₁ generation. The presence of rye chromosome arm 1RS and the concomitant loss of 1BS in (kotschyi)-Cando-Veery 1BL/1RS are necessary for haploid induction. Proposals are made which may enable the use of haploids produced by nucleo-cytoplasmic interactions in future wheat breeding programs.     

青海省小麦品种中Yr10和Yr15基因及其1BL/1RS易位的分子检测

利用抗条锈病基因Yr10和Yr15的SCAR和Barc8标记以及1BL/1RS易位的复合标记,对青海省育成和引进的137份小麦品种进行检测,以明确Yr10和Yr15基因以及1BL/1RS易位在青海小麦品种资源中的分布.结果显示:在137份材料中,有4份检测到Yr10基因,19份检测到Yr15基因,分别占参试材料的2.9%和13.9%,没有检测到同时携带Yr10和Yr15基因的材料;有22份材料为1BL/1RS易位,占参试材料的16.1%.研究表明,青海省大部分小麦抗锈品种及1BL/1RS易位品种为外引种品种.     

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.     

粘类非1BL／1RS小麦雄性不育系恢复性遗传规律的研究

系统考察了粘、易、偏和二角型4种异质非1BL／1RS小麦雄性不育系的育性恢复性,结果表明：(1)供试4种异质非1BL／1RS小麦雄性不育系均属易恢复、易保持不育类型;(2)以4种异质非1BL／1RS不育系为母本与同一父本或不同父本测交,其F1平均结实率与单株间结实率的变异系数呈显著负相关;(3)4种异质非1BL／1RS小麦雄性不育系,各自不育细胞质源对杂种F1的平均结实率影响程度不同,但不育胞质问恢复度差异不显著;(4)4种异质非1BL/1RS小麦雄性不育系,虽然育性载体相同,但粘、易型的育性位点、偏型育性位点和二角型育性位点各自在同一连锁群中的位置可能不同;(5)4种异质非1BL／1RS不育系和恢复系基因除主效育性基因外,亦在不同核型中存在有不等量的育性微效基因和抑制基因,其组成形式和杂交后的结合方式是粘类不育系育性恢复度高低的主要判别。     

粘类非1BL/1RS小麦CMS基因定向选择及其育性特性的研究

对携有不同不育基因的4个粘类小麦雄性不育系进行了定向选择与鉴定,并对其育性特性进行研究,以选育更具应用价值的粘类非1BL/1RS小麦雄性不育系,推动三系杂交小麦的实际应用.结果表明:(1)根尖体细胞随体鉴定和A-PAGE技术分析筛选出的SP4、莫迦小麦为非1BL/1RS类型,其它供试不育系均属于1BL/1RS类型;(2)减数分裂及成熟花粉粒形态观察,粘类非1BL/1RS小麦雄性不育系其不育性是在整个配子发育过程中连续产生的,且在B型不育细胞质背景下,SP4和莫迦小麦的花粉细胞学形态与在K、Ven型2种不育细胞质背景下的不同,B型不育细胞质背景下SP4和莫迦不育系的花粉萌发率比K、Ven型不育细胞质背景下的花粉萌发率高;(3)以不同来源不育基因培育成的粘类K、Ven型非1BL/1RS不育系育性恢复性测定发现,SP4、莫迦小麦2种雄性不育系育性恢复性有一定差异,莫迦小麦不育类型育性恢复性高于SP4.     

粘、易、偏型非1BL／1RS小麦雄性不育系育性恢复性研究

以粘、易、偏型非1BL/1RS不育系ms(kots)-90-110、ms(var)-90-110为母本,一些优良小麦品种（系）为父本,广泛进行测交和育性恢复性分析,结果表明：（1）粘、易、偏型非1BL/1RS不育系不同于相同细胞质背景下1BL/1RS易位型不育系,突出地表现为：不育性稳定,恢复源广泛,高恢复度恢复系在普通小麦中占较大比例,且F1育性变异幅度小,变异系数低,并可将二者视为选择优良恢复系的辅助指标（2）粘、易、偏型非1BL/1RS不育系安全克服了同质1BL/1RS不育系产生单倍体的缺点,不育系和测交F1无单倍体产生;（3）粘、易、偏型非1BL/1RS不育系持有的易恢复性特点,为常规育种的最新成果直接应用于杂种小麦组配强优势组合创造了极有利条件。     

威岭栽培黑麦抗白粉病特性导入小麦的研究

威岭黑麦(Weiling rye)是一个高抗白粉病(Erysiphe gramininis f．sp．tritici)的中国矮杆栽培黑麦。以Weiling rye作为白粉病抗源,高感白粉病小麦栽培品种My8443为母本,从Weiling rye与小麦My8443远缘杂交的BC_2F_6后代中鉴定出一个新的小麦-黑麦易位系No．147,以实现威岭黑麦白粉病抗性向普通栽培小麦的转移。No．147及其亲本的抗白粉病特性通过苗期和成株期优势生理小种混合接种和室内单生理小种接种鉴定,改良的染色体C-分带和基因组原位杂交技术(GISH。Ge- nomic in situ hybridization)被用于鉴定小麦和黑麦的染色质,酸性聚丙烯酰胺凝胶电泳(APAGE)被用于鉴定黑麦醇溶蛋白1RS特异条带,11个黑麦种属特异性标记SCM(Secale cereale marker)引物被用于扩增分析黑麦特异性简单重复序列(SSR)。研究结果证实No．147是一个新的高抗白粉病的1BL/1RS小麦-黑麦染色体易位系,并对其产生的细胞学机制进行了分析。论文对中国栽培黑麦抗性基因资源的利用和该易位系在小麦遗传育种改良中的利用价值进行了讨论。     

Effect of the 1BL.1RS wheat-rye translocation on the androgenic response in spring bread wheat

The study was conducted to investigate the effect of the 1BL.1RS wheat-rye-translocation on the androgenic response in spring bread wheat. Therefore, four bread wheat cultivars carrying the translocation, four Greek and three Canadian bread wheat cultivars without the translocation were used. An equal number of anthers from each cultivar, containing microspores in the mid (MU) to late uninucleate (LU) microspore developmental stage, were cultured after cold pre-treatment for seven days at 4°C. W14, 190-2 and the basic MS were used as induction, regeneration, and rooting media respectively. The best androgenic response was recorded in two cultivars carrying the translocation. Only two cultivars lacking the translocation responded to anther culture. It is concluded that the positive effect of the 1BL.1RS translocation on anther culture response of bread wheat cultivars cannot be attributed entirely to its presence because the genetic background of the cultivars carrying the translocation could be also important.     

Physical location of a HSP70 gene homologue on the centromere of chromosome 1B of wheat ( Triticum aestivum L.)

Cereal centromeres consist of a complex organization of repetitive DNA sequences. Several repetitive DNA sequences are common amongst members of the Triticeae family, and others are unique to particular species. The organization of these repetitive elements and the abundance of other types of DNA sequences in cereal centromeres are largely unknown. In this study, we have used wheat-rye translocation lines to physically map 1BL.1RS centromeric breakpoints and molecular probes to obtain further information on the nature of other types of centromeric DNA sequences. Our results, using the rye-specific centromeric sequence, pAWRC.1, indicate that 1BL.1RS contains a small portion of the centromere from 1R of rye. Further studies used molecular markers to identify centromeric segments on wheat group-1 chromosomes. Selected RFLP markers, clustered around the centromere of wheat homoeologous group-1S chromosomes, were chosen as probes during Southern hybridization. One marker, PSR161, identified a small 1BS segment in all 1BL.1RS lines. This segment maps proximal to pAWRC.1 in 1BL.1RS and on the centromere of 1B. Sequence analysis of PSR161 showed high homology to HSP70 genes and Northern hybridization showed that this gene is constitutively expressed in leaf tissue and induced by heat shock and light stimuli. The significance of this work with respect to centromere organization and the possible significance of this HSP70 gene homologue are discussed. Received: 12 March 2001 / Accepted: 14 June 2001     

Cytogenetic characteristics of wheat lines with modified 1RS.1BL rye-wheat translocation

The higher frequency (almost 90%) of inheritance through pollen of heterozygous hybrids has been shown for the modified 1RS.1BL translocation compared with the 1BL telocentric, and, as a result, the segregations at the Gli-B1 and Glu-B1 loci strongly deviated from the expected values. The distance between the Glu-B1 locus and the centromere was 15.7–24.4 cM. Products of the 1RS_m.1BL translocation “misdivision” were observed at a frequency of 0.05%. Both the Pavon MA1 lines and the winter wheat line with the 1RS_m.1BL _al translocation have shown a significant decrease in the level of homologous chromosome pairing, causing aneuploidy. These lines did not contain any reciprocal translocations with respect to the Kuyal’nik cultivar. A “hybrid desynapsis” has been observed in F₁ hybrids (Kuyal’nik × Pavon MA1) in contrast to analogous hybrids from a winter line by the 1RS_m.1BL _al type. No single case of the 21_Closed ^II formation has been observed among the studied 693 pollen mother cells (PMCs), which would have indicated the presence of pairing between the short arms of the 1RS_m.1BL translocations and the intact chromosome 1B.     

Characteristics of common wheat cultivars of West Siberia carrying the wheat-rye 1RS.1BL translocation

Using genomic in situ hybidization, among the common wheat cultivars produced in West Siberia (Siberian Research Institute of Agriculture, Omsk) with the involvement of the winter wheat cultivar Kavkaz carrying the wheat-rye 1RS.1BL translocation we identified three cultivars with this translocation: Omskaya 29, Omskaya 37, and Omskaya 38. The protein and crude gluten contents in the grain of these cultivars are equal to or exceed the levels observed in cultivars without the wheat-rye translocation. The common wheat cultivars carrying the wheat-rye translocation were evaluated in terms of resistance of plants reaching wax ripeness to leaf rust and powdery mildew in the natural field conditions. The cultivars Omskaya 37 and Omskaya 38 displayed a high field resistance to leaf rust and were resistant to a variable extent to powdery mildew. The cultivar Omskaya 29 was susceptible to leaf rust and powdery mildew pathogens. Importance of the selection direction and the role of the genetic background in developing common wheat cultivars carrying the wheat-rye translocation is discussed.     

远缘杂交在转移有益基因创造小麦新种质中的潜力

本文概述了小麦远缘杂交技术的发展以及这些技术的应用对以染色体易位方式转移有益基因到普通小麦中的影响。通过对小麦远缘杂交技术的总结得出,普通小麦由于本身的多倍性,对导入的外源基因具有较强的调节能力,是适宜外源有益基因导入的良好受体。而以染色体易位方式转移有益基因是创造小麦新种质的有效方法之一,许多研究也表明以染色体易位导入的外源有益基因更利于表达。近几年,随着细胞遗传学以及其它生物技术的发展,对小麦族进化途径和染色体间的亲缘关系进一步明确,从而更便于进行易位导入的技术选择,也使得染色体易位鉴定方法更趋完善。现在已有更良好的外源导入的工具和方法,使多基因控制的外源优良性状导入成为可能。在小麦远缘杂交中染色体易位所具有的上述优势,在育种实践中逐步显示出来,为开拓小麦种质资源开创了一条新的途径。     

Reconstruction in wheat of complete chromosomes 1B and 1R from the 1RS.1BL translocation of 'Kavkaz' origin.

Translocation 1RS.1BL originally from the 'Aurora' and 'Kavkaz' wheats has spread to bread wheats all over the world. It offers several resistance genes and appears to significantly increase yields. For future study of the arm location of the yield-increasing factors, complete chromosomes 1B and 1R were reconstructed from the 1RS.1BL translocation. This was accomplished by centric misdivision and fusion in double monosomies 20 II + 1RS.1BL I + 1BS.1RL I. The frequency of misdivision and misdivision-fusion of the two unpaired chromosomes was 23.1%, which was much higher than expected but comparable with that observed in other stocks grown under similar conditions. Transmission of the reconstructed chromosomes to progeny was normal. In addition to all possible misdivision and misdivision-fusion products, two chromosomes of ambiguous origin were recovered: chromosome 1B with a proximal insert of about 40% of 1RS and chromosome 1R with a proximal insert of about 30% of 1BS. The study demonstrates that centric translocations can misdivide and fuse again to produce stable chromosomes with new arm combinations.