利用RFLP标记分析一对水稻籼粳交双单倍体的基因型

对一对籼(Oryza sativa ssp.indica)粳(O.sativa ssp.japonica)(“圭630”/“02428”)杂种进行花药培养获得81个双单倍体(DH),构建了有233个RFLP标记的水稻遗传连锁图谱。对各DH系的“圭630”等位基因组频率及图示基因型进行了分析。结果表明,该DH群体的平均基因组频率为49％,各DH系分布在29.3％～78.6％之间,集中分布在44％～49％之间;有130个RFLP标记出现显著的偏分离,偏父本与偏母本分离的标记数基本相等;同向偏分离的标记常集中在一些染色体或染色体的某些区段;各染色体的平均基因组频率分布在29％～65％之间,出现明显的偏父或偏母分离;一些DH中出现其特征完全来于某一亲本的染色体,可能与这些染色体在减数分裂期的同源配对和交换有关。     

Genetic Mapping of Rice Using RFLP Markers and a Double Haploid Population of a Cross Between indica and japonica Varieties

A genetic linkage map of rice was constructed using a double haploid (DH) population from "Gui 630” (Oryza sativa subsp, indica)/"02428" (O. sativa subsp, japonica, wide compatibility variety) and RFLP markers. It consists of 233 loci and covers rice genomes about 2070 cM (centimorgan), and compares well with the other published rice maps. 25 RFLP markers, 2 telomeres and sh-2 (shattering ability) gene were first located on the molecular map of rice. RFLPs between "Gui 630' and "02428' mainly came from base substitution and a few DNA construction variance, not distributed evenly among chromosomes and on chromosome. This was probably resulted from the difference genetic stability among chromosomes and regions, in exchanging recombination ability in different segments of chromosome.     

Genetic Analysis of Null Alleles in Rice Doubled Haploid Plants from Anther Culture

In the research of constructing a rice(Oryza sativa) molecular map, 4 RFLP markers, i.e. RG 229, RG 419, RG 424 and RG 353, detected the null alleles in the indica and japonica parental rice. RG 229 indicated two null alleles in indica rice Gui 630, and each of the other markers revealed a null allele in japonica rice 02428. Genetic analysis in the doubled haploid (DH) population consisting of 81 plants showed that the linkage relationships between these null allele loci and the neighboring molecular markers shown in McCouch' s rice molecular map were changed. In addition, the marker RG 684 could detect its null alleles in some DH plants, though the RG 684 sequence did exist in the genomes of both parents. Appearence of null alleles might be induced by transpositional changes on chromosomes.     

籼粳杂种双单倍体的配子选择

对典型的灿与粳稻杂种,窄叶青８号／京系１７Ｆ１花药进行培养获得的１３２个双单倍体的形态特性、同工酶与ＲＦＬＰ标记的分离与重组进行了考察分析,研究是否存在配子选择问题。结果表明：（１）对４个重要数量性状和６个涉及籼、粳特征的形态指数进行考察所获数据均为连续分布,并呈正态曲线;（２）用８种同工酶对５２个ＤＨ系分析结果表明,只有２种同工酶显著偏离期望的１：１比率,而灿与粳的总基因型比率相近;（３）应用１６７个ＲＦＬＰ标记对１３２个ＤＨ系进行的分析发现,有３６％标记发生偏分离,但偏籼与偏粳的比率相近,两个亲本基因组在ＤＨ群体中所占比率相同（各５０％）,各种基因组成呈正态分布。综上所述,本研究虽观察到一些轻微偏分离现象,但籼粳基因基本上随机分离与重组,等位基因总频率未偏离１：１比率。     

RFLP mapping of major and minor genes for important agronomic characters in rice

A molecular genetic map with 233 RFLP markers which covered about 2070 cM of rice genome was constructed based on a doubled haploid (DH) population derived from anther culture of a cross between an indica variety Gui630 and a japonica variety 02428. Quantitative trait loci (QTLs) for agronomic characters such as number of panides, heading date, plant height, number of spikelets, number of grains, fertility and 1 000-grain weight were analyzed using interval mapping approach. 8 major genes and 29 minor genes were identified associating with these traits. The results also indicated that great phenotypic difference between parents was profitable in detection of major genes.     

Distorted Segregations of RFLP Markers and Their Distribution on Chromosomes in an indica/japonica F2 Population of Rice (Oryza sativa L.)

he segregation ratio of RFLP markers in an F2 population from indica "Zhaiyeqing 8” and japonica "Jingxi 17' of rice (Oryza sativa L., 2n= 24) was studied using 54 RFLP markers distributed on 12 chromosomes. Distorted segregation was found in 25.9% of the marker tested, which was indicated by significant deviation from the expected Mendelian segregation ratio ( I: 2: 1) at 5% or 1% level. Among the three RFLP genotypes of the F2 population “Zhaiyeqing” 8 genotype was significantly more than the expected, and its gene frequency was up to 52.1 %. Three positions for distorted segregation were found on chromosome 3 (RG227-RG369), 7 (RG678-RG511-RG528) and 12 (RG463-RG323). These positions could be related to gametophyte loci responsible for the distortion.     

水稻花药培养植株后代的DNA变异

对籼稻圭６３０和粳稻０２４２８及其Ｆ１通过花药培养获得的８１个ＤＨ系进行了ＲＦＬＰ分析,有２８个探针揭示了ＤＮＡ变异。８１个ＤＨ系不同程度地发生了变异,并具有以下特点：（１）ＤＮＡ变异类型包括限制性片段长度的变化、９ＮＡ片段的丢失以及ＤＮＡ序列的扩增;（２）变异发生在籼稻圭６３０供体片段中的频率高于粳稻０２４２８,表现出基因型差异;（３）染色体组中第３、８、９和１０染色体较少发生变异,在其它染色体上均存在易变异位点;（４）在染色体的一些区段,相邻的探针均揭示了ＤＮＡ变异,表明在染色体上存在ＤＮＡ易变异区域;（５）变异位点和变异类型具有特异性,在同一位点不同的ＤＨ系中发生相同的变异。     

利用分子标记定位水稻野败型核质互作雄性不育恢复基因

以籼稻恢复系圭６３０与粳型广亲和品种０２４２８的Ｆ１代花药培养,获得８１个双单倍体（ＤＨ）,构建了有２３３个ＲＦＬＰ标记的分子图谱。用籼稻野败型不育系珍汕９７Ａ测定各ＤＨ系的恢复性,并将恢复性作为数量性状进行ＱＴＬ的区间作图分析,鉴别出８个基因座位,其中有２个基因座位,Ｒｆｉ－３和尾Ｒｆｉ－４,单个ＱＴＬ的基因贡献值分别是４９．６％和３５．４％,对育性恢复起主要作用,定为主效基因座位,位于第三和四染色体上,其它６个基因座位对育性恢复亦有一定的影响。表明野败型雄性不育恢复性是受主效基因和微效基因共同控制的性状。     

水稻双单倍体群体的分子标记图示基因型分析

利用窄叶青８号（籼稻）／京系１７（粳稻）花培产生的双单倍体群体建立了一个包含１６０个分子标记的遗传连锁图,在此基础上利用ＨＹＰＥＲＧＥＮＥ软件建立了５２个ＤＨ系的图示基因型,并对ＤＨ系的亲本基因组比率和染色体的交换重组频率进行了比较分析。结果表明本实验所用的ＤＨ群体没有显著偏离正态分布,籼粳稻杂交后代中植株的籼粳表现与同工酶、形态指数和基因组比率的分析结果一致,此外还发现ＤＨ群体中出现了大量的交换罕见染色体。利用图示基因型分析发现株高和分子标记ＲＺ９７８和ＲＧ４Ａ相关,生育期和ＲＲＫ０８－１、ＲＧ４７７和ＲＧ５１１相关。本文还就图示基因型分析技术在ＤＨ群体的遗传分析和选择育种中的应用进行了讨论．     

A comparison of genetic maps constructed from haploid and BC1 mapping populations from the same crossing between Gossypium hirsutum L. and Gossypium barbadense L.

Simple sequence repeat (SSR) genetic maps have been separately constructed based on doubled haploid (DH) and (or) haploid and BC1 populations from the same cross between Gossypium hirsutum L. 'TM-1' and Gossypium barbadense L. 'Hai7124'. The BC1 population was produced by pollinating individual plants of the 'TM-1' x 'Hai7124' F1 with 'TM-1', whereas the DH and (or) haploid population developed from the offspring of Vsg x ('TM-1' x 'Hai7124'). Vsg is a virescently marked semigamy line of Gossypium barbadense L. Pima. The BC1 map included 34 linkage groups with an average distance between markers of 9.80 cM (Kosambi, K) and covered 4331.2 cM (K) or approximately 78.7% of the tetraploid cotton genome constructed using 440 SSR and 2 morphological marker genes. Among them, 26 were assigned to 20 chromosomes, 7 to A or D subgenomes, and 1 was unassigned. The haploid map comprised 444 SSR markers mapped to 40 linkage groups with an average distance of 7.35 cM (K) between markers, covering 3262.9 cM (K) or approximately 60.0% of the tetraploid genome. Twenty-nine linkage groups were assigned to all 19 identified chromosomes, 10 to A or D subgenomes, and 1 was unassigned. Fairly good collinearity of marker order was observed along most of the chromosomes or linkage groups. Significant differences in recombination between maps was observed at the chromosomal and genomic level and possible reasons were discussed. Map comparison and combined data provided an essential basis for further mapping of interested genes and QTLs and for studies of diversity, population structure, and phylogeny in Gossypium species.     

Whole genome mapping in a wheat doubled haploid population using SSRs and TRAPs and the identification of QTL for agronomic traits

Genetic maps are useful for detecting quantitative trait loci (QTL) associated with quantitative traits and for marker-assisted selection (MAS) in breeding. In this research, we used the wheat × maize method to develop a doubled haploid (DH) population derived from the synthetic hexaploid wheat (SHW) line TA4152-60 and the North Dakota hard red spring wheat line ND495. The population consisted of 213 lines, of which a subset of 120 lines was randomly selected and used to construct linkage maps of all 21 chromosomes and for QTL detection. The whole genome maps consisted of 632 markers including 410 SSRs, 218 TRAPs, 1 RFLP, and 3 phenotypic markers, and spanned 3,811.5 cM with an average density of one marker per 6.03 cM. Telomere sequence-based TRAPs allowed us to define the ends of seven linkage groups. Analysis revealed major QTLs associated with the traits of days to heading on chromosomes 5A and 5B, plant height on chromosomes 4D and 5A, and spike characteristics on chromosomes 3D, 4A, 4D, 5A and 5B. The DH population and genetic map will be a useful tool for the identification of disease resistance QTL and agronomically important loci, and will aid in the identification and development of markers for MAS. Mention of trade names or commercial products in this article is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture.     

The construction of a genetic linkage map of non-heading Chinese cabbage （Brassica campestris ssp. chinensis Makino）

Non-heading Chinese cabbage （Brassica carnpestris ssp. chinensis Makino） is one of the most important vegetables in eastern China. A genetic linkage map was constructed using 127 doubled haploid （DH） lines, and the DH population was derived from a commercial hybrid ＂Hanxiao＂ （lines SW-13 x L-118）. Out of the 614 polyrnorphic markers, 43.49% were not assigned to any of the linkage groups （LGs）. Chi-square tests showed that 42.67% markers were distorted from expected Mendelian segregation ratios, and the direction of distorted segregation was mainly toward the paternal parent L-118. After sequentially removing the markers that had an interval distance smaller than 1 cM from the upper marker, the overall quality of the linkage map was increased. Two hundred and sixty-eight molecular markers were mapped into 10 LGs, which were anchored to the corresponding chromosome of the B. rapa reference map based on com- mon simple sequence repeat （SSR） markers. The map covers 973.38 cM of the genome and the average interval distance between markers was 3.63 cM. The number of markers on each LG ranged from 18 （R08） to 64 （R07）, with an average interval distance within a single LG from 1.70 cM （R07） to 6.71 cM （R06）. Among these mapped markers, 169 were sequence-related amplified polymorphism （SRAP） molecular markers, 50 were SSR markers and 49 were random amplification polymorphic DNA （RAPD） markers. With further saturation to the LG9 the current map offers a genetic tool for loci analysis for important agronomic traits.     

Chromosomal assignment of RFLP linkage groups harboring important QTLs on an intraspecific cotton (Gossypium hirsutum L.) Joinmap

Chromosome identities were assigned to 15 linkage groups of the RFLP joinmap developed from four intraspecific cotton (Gossypium hirsutum L.) populations with different genetic backgrounds (Acala, Delta, and Texas Plains). The linkage groups were assigned to chromosomes by deficiency analysis of probes in the previously published joinmap, based on genomic DNA from hypoaneuploid chromosome substitution lines. These findings were integrated with QTL identification for multiple fiber and yield traits. Overall results revealed the presence of 63 QTLs on five different chromosomes of the A subgenome (chromosomes-03, -07, -09, -10, and -12) and 29 QTLs on the three different D subgenome (chromosomes-14 Lo, -20, and the long arm of -26). Linkage group-1 (chromosome-03) harbored 26 QTLs, covering 117 cM with 54 RFLP loci. Linkage group-2, (the long arm of chromosome-26) harbored 19 QTLs, covering 77.6 cM with 27 RFLP loci. Approximately 49% of the putative 92 QTLs for agronomic and fiber quality traits were placed on the above two major joinmap linkage groups, which correspond to just two different chromosomes, indicating that cotton chromosomes may have islands of high and low meiotic recombination like some other eukaryotic organisms. In addition, it reveals highly recombined and putative gene abundant regions in the cotton genome. QTLs for fiber quality traits in certain regions are located between two RFLP markers with an average of less than one cM (approximately 0.4-0.6 Mb) and possibly represent targets for map-based cloning. Identification of chromosomal location of RFLP markers common to different intra- and interspecific-populations will facilitate development of portable framework markers, as well as genetic and physical mapping of the cotton genome.     

Efficiency of RFLP, RAPD, and AFLP markers for the construction of an intraspecific map of the tomato genome.

We have constructed a tomato genetic linkage map based on an intraspecific cross between two inbred lines of Lycopersicon esculentum and L. esculentum var. cerasiforme. The segregating population was composed of 153 recombinant inbred lines. This map is comprised of one morphological, 132 RFLP (restriction fragment length polymorphism, including 16 known-function genes), 33 RAPD (random amplified polymorphic DNA), and 211 AFLP (amplified fragment length polymorphism) loci. We compared the 3 types of markers for their polymorphism, segregation, and distribution over the genome. RFLP, RAPD, and AFLP methods revealed 8.7%, 15.8%, and 14.5% informative bands, respectively. This corresponded to polymorphism in 30% of RFLP probes, 32% of RAPD primers, and 100% of AFLP primer combinations. Less deviation from the 1:1 expected ratio was obtained with RFLP than with AFLP loci (8% and 18%, respectively). RAPD and AFLP markers were not randomly distributed over the genome. Most of them (60% and 80%, respectively) were grouped in clusters located around putative centromeric regions. This intraspecific map spans 965 cM with an average distance of 8.3 cM between markers (of the framework map). It was compared to other published interspecific maps of tomato. Despite the intraspecific origin of this map, it did not show any increase in length when compared to the high-density interspecific map of tomato.     

用微卫星标记构建两系稻培矮64s/E32的分子遗传连锁图 Construction of a Microsatellite Linkage Map in a DH Population

用两系杂交稻强优组合培矮64s/E32的一个加倍单倍体（DH）群体,共86个株系,构建了水稻的SSR标记遗传连锁图。选用美国康耐尔大学公布的302对SSR引物,共有127对在两个亲本间检测到多态性,比率为4205%。建成的水稻染色体的图谱（记为PEMAP）共包含122个SSLP标记座位,总长度为1213.4 cM。PEMAP与Temnykh等发表的图谱（记为CUMAP）具有很高的可比性,绝大多数标记都被定位于相同的染色体上,且排列顺序一致。该DH群体的偏分离情况较严重,122个标记座位中有34个发生显著偏分离,比例达27.8%。值得注意的是,在第1、3、10、11染色体上的标记全部偏向培矮64s,第4、6、7、8、9染色体上的标记则全部偏向E32。 Abstract:A doubled haploid population (DH) consisting of 86 lines derived by anther culture of Peiai64s/E32,a two-line hybrid rice variety with high heterosis,was used to construct a microsatellite or SSLP linkage map of rice chromosomes.A total of 302 PCR primers for SSLP analysis on these chromosomes were chosen from a map published by Cornell University (designated CUMAP) and 127 (42.05%) of them were found polymorphic between the two parents.Those polymorphic PCR primers were used for population genotyping.The map (designated PEMAP) comprises 122 microsatellite maker loci,covering a total length of 1213.4 cM.The PEMAP is highly comparable with the CUMAP.Most of the markers were mapped onto the same chromosomes and aligned in the same order.Serious segregation distortion was observed in this DH population,with 34 (27.8%) markers showing significant deviation.It is noted that all markers on chromosomes 1,3,10 and 11 were biased to Peiai64s,while those on chromosomes 4,6,7,8 and 9 were opposite.     

Genetic analysis and gene mapping of a rice few-tillering mutant in early backcross populations (Oryza sativa L.)

A rice mutant, G069, characteristic of few tiller numbers, was found in anther culture progeny from the F1 hybrid between an indica-japonica cross, Gui630×02428. The mutant has another two major features: delayed tillering development and yellowing apex and margin on the mature leaves. As a donor parent, G069 was further backcrossed with the recurrent parent, 02428, for two turns to develop a BC2F2 population. Genetic analysis in the BC2F2 population showed that the traits of few-tillering and yellowing apex and margin on the mature leaves were controlled by one recessive gene. A pool of equally mixed genomic DNA, from few-tillering individual plants in BC2F2, was constructed to screen polymorphism with simple sequence repeat (SSR) markers in comparison with the 02428 genome. One SSR marker and three restriction fragment length polymorphism (RFLP) markers were found possibly linked with the recessive gene. By using these markers, the gene of few-tillering was mapped on chromosome 2 between RFLP marker C     

籼稻花粉无性系变异的研究

对７个籼稻品种通过花药培养获得的１６１个花粉植株进行了花粉无性系变异的研究。结果表明：（１）所有花粉无性系在遗传上都是纯合的,其整齐度与起始亲本相近或超过起始亲本;（２）花粉无性系的变异主要在数量性状上有一定变幅,变异方向有负向也有正向的。同一来源的无性系间的变异系数略高于起始亲本,仅千粒重达到显著标准。以所考查的性状为基数,变异的频率为１２．５％,同时有３－４个性状发生变异的无性系数占总数的４．３％;（３）少数变异体性状有重大变异,并具有育种价值;（４）根据１０种同工酶和ＲＦＬＰ分析,仅从３个性状发生重大变化的变异体中检测出与起始亲本的差异。     

Molecular cytogenetic identification of B genome chromosomes linked to blackleg disease resistance in Brassica napus × B. carinata interspecific hybrids

Key message

Provide evidence that the Brassica B genome chromosome B3 carries blackleg resistance gene, and also the B genome chromosomes were inherited several generations along with B. napus chromosomes.

Abstract

Blackleg disease caused by fungus Leptosphaeria maculans causes significant yield losses in Brassica napus. Brassica carinata possesses excellent resistance to this disease. To introgress blackleg resistance, crosses between B. napus cv. Westar and B. carinata were done. The interspecific-hybrids were backcrossed twice to Westar and self-pollinated three times to produce BC₂S₃ families. Doubled haploid lines (DH1) were produced from one blackleg resistant family. SSR markers were used to study the association between B genome chromosome(s) and blackleg resistance. The entire B3 chromosome of B. carinata was associated with blackleg resistance in DH1. A second DH population (DH2) was produced from F₁s of resistant DH1 lines crossed to blackleg susceptible B. napus cv. Polo where resistance was found to be associated with SSR markers from the middle to bottom of the B3 and top of the B8 chromosomes. The results demonstrated that the B3 chromosome carried gene(s) for blackleg resistance. Genomic in situ hybridization (GISH) and GISH-like analysis of the DH2 lines revealed that susceptible lines, in addition to B. napus chromosomes, possessed one pair of B genome chromosomes (2n = 40), while resistant lines had either one (2n = 40) or two pairs (2n = 42) of B chromosomes. The molecular and GISH data suggested that the B chromosome in the susceptible lines was B7, while it was difficult to confirm the identity of the B chromosomes in the resistant lines. Also, B chromosomes were found to be inherited over several generations along with B. napus chromosomes.     

An update of the Courtot × Chinese Spring intervarietal molecular marker linkage map for the QTL detection of agronomic traits in wheat

We made an update of the intervarietal molecular marker linkage map of the wheat genome developed using a doubled-haploid (DH) population derived from the cross between the cultivars "Courtot" and "Chinese Spring". This map was constructed using 187 DH lines and 659 markers. The genome was well covered (more than 95%) except for chromosomes from homoeologous group 4 and chromosomes 5D and 7D, which had gaps slightly larger than 50 cM. A core-map based on a set of 200 anchor loci (one marker each 18.4 cM) was developed. The total length of this map was 3,685 cM which is similar to the size of the international reference map of the ITMI population (3,551 cM). Map coverage was identical for the three genomes (A, B and D) and for the number of anchor loci, as well as for the size of the map. Using this map, QTLs for several agronomic traits were detected on phenotypic data from the population grown in Clermont-Ferrand (France) under natural field conditions over 6 years, and in Norwich (UK) in controlled conditions and under natural field conditions in 1 year. Almost all of the 21 chromosomes were involved in at least one trait. However, several regions seemed to contain gene clusters either for grain traits (and thus bread-making quality) or plant development traits.