从小麦雄性不育系的未授粉子房诱导单倍体植株

采用N₆培养基为基本培养基,附加不同水平的生长素,培养普通小麦、小麦雄性不育系及其保持系共10个材料的未授粉子房,所用的材料都能诱导出愈伤组织,出愈率在4.2-38.1%。经分化培养分别从T型不育系和太谷核不育材料获得了单倍体植株。供试材料的基因型、培养基中的生长素的种类及用量,对诱导愈伤组织及分化绿苗有重要的作用。 The unpollinated ovaries of male sterile lines and its manitainers of wheat, as well as common wheat, were cultured on N6 medium in vitro,when the pollen of the same panicle were at uninucleate stage. Callus were obtained from all of the materials, haploid plantlets were regenerated from the unpollinated ovaries of timopheevi cytoplasm male sterile line (T75-3369A) and Taigu nucleus male sterile line (Tal x C⁶⁸⁴₁).     

小麦遗传背景对黑麦抗叶锈基因Lr26的抗性表达的影响

利用1套从小麦纯系和黑麦自交系培育出的1R附加系、代换系和易位系,研究了1RS上的抗叶锈基因Lr26在小麦中的表达。结果发现,1R二体附加系和纯合1RS/1BL易位系高抗小麦叶锈病;而其小麦亲本、1R(1B)代换系和1BS/1RL易位系重感叶锈病。这一结果指出了黑麦染色体臂1RS上的抗小麦叶锈病基因Lr26在小麦中的表达受小麦染色体臂1BL上的基因的强烈影响,指出了外源基因在小麦中的表达可受染色体臂或基因水平上的相互作用的制约。文中讨论了外源基因与小麦遗传背景相互作用在小麦育种中的意义。     

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.     

小麦基因组研究进展

本文从小麦遗传图谱、物理图谱、比较基因组、基因组测序和EST 5个方面,介绍国内外小麦基因组的研究进展。我们利用W7984×Opata重组近交系的RFLP作图群体,对33个与小麦水分利用效率有关的性状进行了QTL遗传图谱比较分析,结果显明：在第一部分同源群染色体（1A,1B）上的着丝粒周围,分布有控制光合作用和根系特性的基因簇。在第二部分同源染色体上,有控制单株水分利用效率、根冠形态和生长发育的基因簇存在。在第六部分同源染色体上,6A和6B上都分别有由控制根系多个QTL组成的基因簇,6D染色体着丝粒周围有一个大的基因簇,由7个控制叶片和单株水分利用效率的QTL组成,说明第六部分同源染色体在小麦水分利用效率遗传方面起重要作用。 Abstract:Research development of genetic mapping,physics mapping,genome sequencing and expressed sequence tags in wheat have been reviewed in this paper.RFLP genetic linkage map of wheat recombinant inbred lines derived from W7984×Opata,was used to study QTL of 33 traits associated with water use efficiency.Compared with QTL map of 7 group homeologues chromosomes,the results were showed as follows:nearby the centromeric region of 1A and 1B chromosome,the gene cluster of controlling photosynthetic and root traits were located.The gene clusters of controlling water use efficiency per plant,root and plant height and growth rate were located on the 2 group chromosomes.The gene clusters of controlling root traits were located on the 6A an 6B chromosome,there was a big gene cluster mad up by 7 QTLs controlling water use efficiency of wheat leaf and per plant nearby the centromeric region of 6D chromosome.It showed that 6th homeologous chromosomes play an important role in controlling water use efficiency in wheat.     

小麦雄性不育遗传及基因定位研究进展

雄性不育的研究对于杂种优势的利用具有重要意义。本文综述了小麦雄性不育遗传及基因定位研究进展,介绍了小麦雄性不育的基因工程,对小麦雄性不育的应用进行了讨论。 Abstract:The study of plant male sterility plays an important role on utilization of heterosis.This paper reviews the current status of the studies of the heredity and mapping of the male sterile genes in wheat and the gene engineering of wheat male sterility.The application of male sterility in wheat breeding is discussed.     

Structural and Expressional Variation Analyses of Mitochondrial Genomes Reveal Candidate Transcripts for the SV Cytoplasmic Male Sterility in Wheat (Triticum aestivum L.)

Common wheat (Triticum aestivum L.) is one of the most important crops,and intra-specific wheat hybrids have obvious heterosis in yield and protein quality.Therefore,utilization of hybrid wheat varieties offers an effective way to increase yield and nutrition.Cytoplasmic male sterility (CMS) systems are a useful genetic tool for hybrid crop breeding,and are ideal models for studying the genetic interaction and cooperative function of mitochondrial and nuclear genomes in plants (Schnable and Wise,1998;Hanson and Bentolila,2004).The breeding of hybrid wheat using male sterility caused by the cytoplasm of T.timopheevii has been studied since the early 1960's.But it is unsuccessful because there are some deficiencies in the practical application of this cytoplasm,including limited restoration resources,thin seeds,pre-harvest sprouting and lower germination rate (Wilson and Ross,1962).The Sv type of cytoplasmic male sterility (CMS-Sv) in wheat is general accessions for four types of CMS lines that were derived from four Aegilops species:Ae.kotschyi,Ae.variabilis,Ae.ventricosa,and Ae.bicornis.Based on the observation of alloplasmic lines produced in all possible combinations between 12 wheat nuclear genotypes and 47 cytoplasms of two related genera,Triticum (wheat) and Aegilops,Ogihara and Tsunewaki (1988) concluded that the D2-cytoplasm of Ae.crassa and its relatives,N-cytoplasm of Ae.uniaristata,and SV-cytoplasm of Ae.kotschyi and its relatives might be used as the alternative male sterile cytoplasm to replace the T.timopheevii cytoplasm for hybrid wheat breeding.Ikeguchi et al.(1999) proposed that spring-type hybrid wheat may be bred by combination of the 1BL-1RS chromosome and Ae.kotschyi cytoplasm with a new fertility-restorer gene discovered in a wheat variety Kitamiharu 48.Zhang et al.(1996) also proposed the use of CMS-Sv lines as the most effective male sterile cytoplasm.     

小黑麦×小滨麦后代1RS·1BL易位系的选育和鉴定

利用细胞学、染色体C分带和原位杂交方法,对八倍体小黑麦劲松49与八倍体小滨麦杂种后代选育的稳定遗传材料山农030-1进行了鉴定。染色体观察结果表明,山农030-1根尖染色体数目为42,花粉母细胞减数分裂中期I(PMC MI)染色体构型为2ｎ=21Ⅱ。分别以黑麦、滨麦草基因组DNA为探针进行原位杂交,表明山农030-1含有一对黑麦和小麦的整臂易位染色体,不含有来自滨麦草的遗传物质。染色体C分带结果进一步表明此材料为1RS·1BL易位系。接种鉴定表明,山农030-1对白粉病免疫。Abstract: In the progenies of octoploid Triticale Jinsong49 crossed with octoploid Tritileymus, a stable germplasm line named Shannong030-1 was obtained. Its chromosome number was 42, and 21 bivalents could be observed at PMC MI. FISH analysis by using genomic DNAs from S. cereale and genomic DNAs from L. mollis as probes,respectively, showed that Shannong030-1 contained a pair of translocation chromosome between rye and wheat, and had no genetic materials from L. mollis . C-banding analysis showed that it was translocation lines of 1RS·1BL.Resistance identification showed Shannong030-1 was immune to powdery mildew.     

泰和乌骨鸡的核型与带型研究

采用外周血淋巴细胞培养--空气干燥法,对泰和乌骨鸡染色体核型和带型进行了研究。结果表明：泰和乌骨鸡体细胞染色体数目2n=78,染色体基本臂数AF=90,1、9号染色体及Z、W性染色体为中央着丝粒（m）染色体,2、4、7号染色体为亚中央着丝粒（sm）染色体,3、6、8、10号染色体为端着丝粒（t）染色体。G带研究表明：前10对大型染色体可分为29个区,190条带。C带处理发现,所有母鸡分裂相中W性染色体都出现C带并整条深染。Ag-NORs研究发现：Ag-NORs常定位于1、2号常染色体短臂和Z性染色体短臂端部;Ag-NORs数目分布范围为1～6;平均每个细胞的Ag-NORs数在雌、雄鸡中分别为2.94和2.96。 Abstract:This study made the chromosome slides of Taihe Silkies by the peripheral blood lymphocyte culture-drying method,and analyzed Taihe Silkies karyotype and band pattern.The results are as follow:The diploid chromosome number of Taihe Silkies was 2n=78,the basic number of chromosome arms was AF=90 and the sex chromosome type was ZZ(♂)/ZW(♀).According to the measured relative length,arm ratio and centromeric index,the first 10 pairs of macro-chromosomes are described as follows:No.1 ,9 and Z,W chromosomes were metacentrics,No.2,4,7 were submetacentrics,and No.3,6,8,10 were telocentrics.Studies on Taihe Silkies′ G-band showed that the first 10 pairs of macro-chromosomes can be divided into 29 zones and 190 bands.Being treated by C-banding technique,a totally dark-stained and easily indentified W-chromosome always showed up in the female metaphase configurations.Ag-NORs were located in the short arms′ telomere of No.1,2 euchromosomes and Z sexchromosome,the Ag-NORs number varied from 1-6. -NORs     

Identification of Differentially Expressed Genes During Anther Abortion of Taigu Genic Male Sterile Wheat by Combining Suppression Subtractive Hybridization and cDNA Array

Talgu Genlc Male Sterile Wheat （TGMSW; Trltlcum aestlvum L.）, a dominant genic male sterile germplasm, is of considerable value in the genetic Improvement of wheat because of Its stable Inherence, complete male abortion, and high cross-fertilization rate. To Identify specially transcribed genes In sterile anther, a suppression subtractlve hybridization （aSH） library was constructed with sterile anther as the tester and fertile anther as the driver. A total of 2 304 SSH Inserts amplified by polymerase chain reaction were arrayed using robotic printing. The cDNA arrays were hybridized with 32P-labeled probes prepared from the RNA of forward- and reverse-subtracted anthers. Ninety-six clones were scored as upregulated in sterile anthers compared with the corresponding fertile anthers and some clones were selected for sequencing and analysis In GenBank. Based on their putative functions, 87 non-redundant clones were classified Into the following groups： （i） eight genes Involved In metabolic processes; （11） four material transportation genes; （iii） three signal transductlon-assoclated genes; （iv） four stress response and senescence-associated protein genes; （v） seven other functional protein genes; （vi） five genes with no known function; and （vii） another 56 genes with no match to the databases. To test the hybridization efficiency, eight genes were selected and analyzed by Northern blot. The results of the present study provide a comprehensive overview of the genes and gene products Involved In anther abortion In TGMSW.     

Induction of small-segment-translocation between wheat and rye chromosomes

A new approach to produce wheat-rye translocation, based on the genetic instability caused by monosomic addition of rye chromosome in wheat, is described. 1 283 plants from the selfed progenies of monosomic addition lines with single chromosome of inbred rye line R12 and complete chromosome complement of wheat cultivar Mianyang 11 were cytologically analyzed on a plant-by-plant basis by the improved C-banding technique. 63 of the plants, with 2n = 42, were found containing wheat-rye translocation or substitution, with a frequency of 4. 91% . Compared with the wheat parent, other 32 plants with 2n = 42 exhibited obvious phenotypic variation, but their com-ponent of rye chromosome could not be detected using the C-banding technique. In situ hybridization with a biotin-la-beled DNA probe was used to detect rye chromatin and to determine the insertion sites of rye segments in the wheat chromosomes. In 20 out of the 32 variant wheat plants, small segments of rye chromosomes were found being inserted into dif     

APAGE技术在小麦细胞质雄性不育系选育中的应用研究

利用大量小麦亲本材料和优良品种(系)与具有粘果、易变、偏凸和二角山羊草细胞质的小麦雄性不育系杂交,筛选出一系列保持系。利用APAGE(酸性聚丙烯酰胺凝胶电泳)技术对其进行了醇溶蛋白电泳图谱分析,发现大部分保持系表现出1BL/lRS易位系的1RS醇溶蛋白标记位点GldlB3。利用细胞学镜鉴,发现含有GldlB3标记位点的保持系均只含有两个随体,而不含有GldlB3标记位点的保持系均含有4个随体,证明了GldlB3标记位点与两个随体数的一致性。粘、易、偏型不育系育性基本表现一致,而二角型不育系除了与前3种不育系具有相同的保持系以外,对某些小麦品种(系)还表现出育性特异性。同时还讨论了ANGE技术在快速筛选小麦细胞质雄性不育保持系中的作用,为非1BL/1RS不育系的选育提供了必要的手段。     

矮败蓝标型小麦不育系的选育与研究

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.     

二角山羊草细胞质小麦雄性不育系的育性特异性分析

利用大量小麦亲本材料和优良品种(系)与具有粘果、易变、偏凸和二角山羊草细胞质的小麦雄性不育系杂交,并对其杂交F1过氧化物同工酶进行了分析,结果表明：(1)二角山羊草细胞质与小麦核内的遗传物质组成两个不同的核质互作不育系统,粘、易、偏型不育系育性基本表现一致,而二角型不育系除了与前三种不育系具有相同的1BL／1RS保持系以外,对某些小麦近缘植物的杂交后代材料还表现出育性特异性。(2)粘、易、偏和二角型同核异质不育系5-1及其与V9125杂交F1过氧化物同工酶分析表明,粘、易、偏和二角型不育系5-1过氧化物同工酶带型基本表现一致,粘、易、偏不育系5-1与V9125杂交F1过氧化物同工酶带型基本表现一致,而二角型不育系5-1杂交F1过氧化物同工酶则表现出酶带减少变弱。     

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。     

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.     

VE161小麦外源染色体的传递特点

VE161小麦包括具有一对长穗偃麦草染色体的雄性不育代换系,可育附加系和杂育系,杂育系由其代换系×附加系产生,其外源染色体（E染色体）具有促进小麦部分同源染色体配对作用。本报道了VE161小麦本身含E染色体配子的传递率为VE161小麦与普通小麦杂交F2,BC1中分离出含E染色体植株的频率,发现VE161小麦本身含E染色体配子的传递率极高,而在F2和BC1代分离群体中保留或消除E染色体都较为容易,这一特点极利于E染色体促进部分同源染色体配对作用在创造易位系上的应用。     

VE161小麦促进部分同源染色体配对的遗传

ＶＥ１６１小麦包括具有一对长穗偃麦草染色体的雄性不育代换系、可育附加系和杂育系,杂育系由其代换系×附加系产生。ＶＥ１６１小麦在与其它小麦品系的杂交Ｆ１中,具有促进部分同源染色体配对的作用,但其本身部分同源配对频率较低。研究结果表明,ＶＥ１６１小麦本身部分同源染色体配对水平较低,是因其小麦染色体组中存在有一对纯合隐性上位基因,它能够抑制Ｅ染色体（Ｅｐｈ基因）,促进部分同源染色体配对作用的表达,而一般小麦品系中具有该基因的相对显性基因。同时,在促进小麦部分同源染色体配对作用上,Ｅ染色体（Ｅｐｈ基因）具有剂量效应     

Alloplasmic wheat - Elymus ciliaris chromosome addition lines.

Alloplasmic euploid wheat with the cytoplasm of Elymus ciliaris (2n = 4x = 28, ScScYcYc) is male sterile and has reduced vigor. However, alloplasmic plants with E. ciliaris chromosomes 1Sc or 1Yc marked by gliadin genes Gli-Sc1 and Gli-Ycl, respectively, are vigorous and fertile. The Rf genes on 1Sc and 1Yc are named Rf-Sc1 and Rf-Yc1. Two chromosome translocations involving 1Yc were isolated. The first involved the short arm of 1Yc translocated to the short arm of wheat chromosome 3B. The second involved the short arm of 1Yc translocated to the short arm of a chromosome, designated L, of E. ciliaris. The second line also has another E. ciliaris chromosome designated A and lacks wheat chromosome 6A. This line is resistant to Puccinia recondita. The relationship between fertility restoration and nucleolar organizing regions is discussed. Key words : Triticum aestivum, Elymus ciliaris, chromosome addition, Rf genes, nucleolar organizing regions.     

二角型小麦雄性不育系育性恢复性的研究

以5个同质异核二角型小麦雄性不育系ms(bicor-8222,ms(bicor)-83(37)65,ms(bicor)-偃师9号,ms(bicor)-80(6)及ms(bicor)-90-110为基本材料,与一批优良小麦品种（系）及部分亲本材料为父本进行测交,获得211个组合,考察其F1育性,结果表明;（1）5个同质异核不育系,除二角型非1B/1R不育系ms(bicor)-90-110与二角型1B/1R不育系ms(bicor)-83(37)65,ms(bicor)-偃师9号之间平均恢复度差异显著外,4个1B/1R不育系之间平均结实率差异不显著;（2）对同一不育系而言,与不同恢复系测交,其恢复度呈现连续变异;（3）同型非1B/1R不育系较1B/1R不育系恢复度普遍高;（4）对同一恢复系而言,各不育系测交F1的恢复度差异显著。     

异细胞质中国春小麦与八倍体小偃麦杂交的细胞遗传研究

用5个异细胞质“中国春小麦”分别和八倍体小偃麦中_2、中_3,中_5杂交。F_1植株性状为两亲的中间型。D型细胞质和B型细胞质的作用基本相同。S型和G型细胞质严重影响F_1的育性,但二者表现不同,S型细胞质仅削弱花粉育性,而G型细胞质使有些杂交组合的F_1雄性完全不育。在中_3、中_5核基因组中存在G型细胞质雄性不育的育性恢复基因。M~t型细胞质可使所有杂交组合F_1植株大型化和抽穗期延长10—15天。此外,细胞遗传学分析表明,M~t型细胞质能促进同源染色体配对,而G型细胞质则促进部分同源染色体配对。G型细胞质对花粉母细胞减数分裂Ⅱ影响较大,产生许多异常四分体,最终引起雄性不育。上述杂交组合经连续回交,已育成异细胞质的八倍体小偃麦品系。