Effect of the inbreeding depression in progeny fitness of runner bean (Phaseolus coccineus L.) and it is implications for breeding     

Ana M. González  Antonio M. De Ron  María Lores  Marta Santalla 《Euphytica》2014,200(3):413-428

Moderate levels of selfing despite high inbreeding depression (ID) make runner bean an excellent model for mixed-mating reproductive biology studies in legumes. This work assesses the extent of the ID variation and consistency at different plant growth stages through selfing generations in seven runner bean populations. Field-collected populations after previous isolated multiplication were hand-pollinated in an isolated greenhouse during five generations to produce progeny. Generations were compared for inbreeding effects (δ) on seed germination, survival to flower, and seed weight and yield. The outcrossing rates of the founder populations and the genetic variation and Wright’s ID at the population and generation level were estimated by using 35 polymorphic microsatellite loci. Neutral microsatellite loci were analyzed through generations and populations using different outlier tests to identify loci directly associated with adaptation to inbreeding. Our study revealed patterns of genetic diversity (H _e  = 0.36) and outcrossing rates (ranged from 24 to 44 %) that are consistent with a mixed-mating system. Selfing-pollination procedure significantly affected germination and survival rates, yield, and to a lesser extent seed weight. Three loci had significant hits to genes related to embryonic development when performing BLAST searches to Phytozome database. Results showed a general inconsistency in δ across plant growth stages and populations, suggesting that different deleterious loci are acting at different stages. Inbreeding tended to purge individuals of deleterious recessive alleles to reduce ID. Variation among individuals within populations may lead to the development of inbreeding lineages with lower levels of ID. Several lines that have been self-pollinated for many generations became homozygous at almost all gene loci and produced a uniform population of true breeding progeny and acceptable performance.  相似文献   

Direct genotyping of single pollen grains of a self-compatible mutant of Japanese pear (Pyrus pyrifolia) revealed inheritance of a duplicated chromosomal segment containing a second S-haplotype     

Nobuko Mase  Yutaka Sawamura  Toshiya Yamamoto  Norio Takada  Sogo Nishio  Toshihiro Saito  Hiroyuki Iketani 《Euphytica》2014,200(2):297-304

Radiation mutant 415-1, which is the first known diploid pollen-part self-compatible mutant of pears (Pyrus spp.), has a decreased ability to produce pollen. To determine whether the self-compatibility trait is associated with this defect, we directly analyzed the genotypes of individual pollen grains by using polymerase chain reaction amplification of DNA from single pollen grains. We isolated single pollen grains from 415-1 and succeeded in genotyping the S-RNase gene and three simple sequence repeat (SSR) markers in linkage group 17. Out of 173 individual pollen grains, 28 (16 %) were S-heteroallelic. These pollen grains had two alleles each of the S-RNase gene and of two linked SSR loci, all on a duplicated chromosomal segment, but only one allele of a non-duplicated locus farther away on the same chromosome. The segregation ratio of each marker in the pollen from 415-1 was approximately the same as that observed in outcross progeny. This suggests that the decrease in frequency of pollen with the duplicated S-haplotype occurred during meiosis or pollen formation, but that the probability of fertilization by S-heteroallelic pollen is equal to that of single-allelic pollen. However, the partial sterility in 415-1 can also be attributed to one or more unidentified lethal mutations unlinked to the duplicated segment encompassing the S-haplotype. Single-pollen genotyping can be used in a variety of applications in genetic research because in cases where all pollen genotypes are proportionately represented in the progeny, segregation ratios can be obtained without producing the next generation.  相似文献   

Functional rice cultivars goami and nokwon may lower body weight and improve lipid metabolism in high fat-fed mice cultivars     

Mi Young Kang  Jayeon Son  Soo Im Chung  Sang Chul Lee 《Journal of Crop Science and Biotechnology》2014,17(3):111-116

The demand for functional foods is rapidly increasing due to the rising prevalence of metabolic diseases, particularly obesity and hyperlipidemia. In the few past years, various rice cultivars with enhanced functional quality and health-promoting properties have been produced. Functional rice Goami (high-amylose rice) and Nokwon (green-kerneled rice) have recently been developed, but little is known about their physiological activity. Hence, this study was conducted to determine the effect of functional rice on the body weight and lipid metabolism in mice under high-fat diet conditions. Forty male C57BL/6N mice were randomly divided and fed with experimental diets for 8 weeks: normal control (NC), high fat (HF), and high fat supplemented with white rice (HF-WR), Goami rice (HF-GR), and Nokwon rice (HF-NR). At the end of the experimental period, a marked increase in the body weight, plasma triglyceride level, and total cholesterol concentrations were found in the HF mice relative to the NC group. However, diet supplementation of Goami and Nokwon improved the lipid profile in mice through regulation of lipogenesis and adipokine production. These findings illustrate that the new functional rice cultivars Goami and Nokwon may be useful as biomaterials in the development of functional food for the prevention and treatment of high-fat, diet-induced hyperlipidemia and obesity.  相似文献   

Transcript analyses of the gene associated with CMS in Brassica napus     

Riaz Ahmad  Raham Sher Khan  Farhatullah 《Euphytica》2014,200(3):455-463

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Blind seed disease of ryegrass     

C. E. Wright 《Euphytica》1967,16(1):122-130

Following a short background survey on the occurrence, distribution and life history of the fungus, Gloeotinia temulenta, which causes low germination in ryegrass, measures for its control are discussed. It is suggested that the effectiveness of chemicals, applied fertilizers and management procedures depends largely on the seed production techniques used in the various countries. As breeding for escape appears to have very limited possibilities breeding for resistance is considered to be the only positive answer to the problem. A breeding programme, commenced in 1959 in Northern Ireland using four plants of Lolium perenne which consistently showed very low infections in artificial epiphytotics, is outlined. Using a modified backcross technique it is hoped to introduce resistance, found to be polygenically inherited, into the well known Aberystwyth cultivar, S. 24.  相似文献   

Mapping the BrPur gene for purple leaf color on linkage group A03 of Brassica rapa   总被引：1，自引：0，他引：1  

Weihong Wang  Deshuang Zhang  Shuancang Yu  Jin Liu  Dan Wang  Fenglan Zhang  Yangjun Yu  Xiuyun Zhao  Guixiang Lu  Tongbing Su 《Euphytica》2014,199(3):293-302

The purple-leaf phenotype in Chinese cabbage is due to the accumulation of anthocyanin. To investigate the pattern of inheritance of this trait in Brassica rapa, F₁, F₂ and backcross (BC) populations were constructed by crossing 09N-742, a pak-choi inbred line that has purple leaves, with a green-leaved Chinese cabbage inbred line, 09-680. Using a segregating F₂ population, we identified a single dominant gene, BrPur, for purple leaf, and mapped the gene to a locus on linkage group A03 of B. rapa. Furthermore, sequences from BAC clones and other sources were used to develop molecular marker loci that are tightly linked to BrPur by using a BC₁ population of 1,152 individuals. BrPur was assigned to a locus between Indel markers BVRCPI613 and BVRCPI431, which defined a genetic interval of 0.6 cM and a genomic region of 54.87 kb. Sequence analysis of this chromosomal region revealed seven open reading frames. These results provide a foundation for map-based cloning, identification, and functional analysis of the BrPur gene in B. rapa.  相似文献   

Molecular tagging and marker-assisted selection of fiber quality traits using chromosome segment introgression lines (CSILs) in cotton     

Yuping Guo  Xian Guo  Fang Wang  Ze Wei  Suqing zhang  Liyuan Wang  Yanchao Yuan  Wenguan Zeng  Guihua Zhang  Tianzhen Zhang  Xianliang Song  Xuezhen Sun 《Euphytica》2014,200(2):239-250

Gossypium barbadense L is an important genetic resource to improve fiber quality of Gossypium hirsutum L., but breeders have generally encountered difficulties in introgression following whole genome crosses primarily due to genomic incompatibility, complex genetic basis and low efficiency of phenotypic evaluation and selection on fiber quality. Chromosome segment substitution lines (CSILs) are a powerful tool to dissect and introgress alien alleles while minimizing negative effects from alleles on other chromosome segments of the donor parent. In the present study, using a CSIL+F₂ mapping strategy, three QTLs each for fiber length (FL), fiber strength (FS) and micronaire value (MIC) were identified on chromosome 11 and 1, explaining 6.23–10.73 % of the phenotypic variation in the F_2:3 population. In addition, through marker-assisted backcrossing, the G. barbadense alleles of these QTLs were incorporated into two elite commerical Upland cotton cultivars, Lumianyan28 (L28) and Shannongmian6 (SNM6). Field evaluation indicated that 80 % of the BC₂F₃ lines containing the qFL-c11-1 and qFS-c11-1 from Hai7124 had significantly higher FL and FS, while only 14.5 % BC₂F₃ lines containing the qMIC-c1-1 in SNM6 genetic background showed significant decrease in MIC. Some BC₂F₃ lines with improved target fiber quality traits and without remarkable deviations in non-target lint yield components were obtained.  相似文献   

Genetic progress during 22 years of black bean improvement     

Luis Cláudio de Faria  Patrícia Guimarães Santos Melo  Helton Santos Pereira  Adriane Wendland  Simone Ferreira Borges  Israel Alexandre Pereira Filho  José Luiz Cabrera Diaz  Marcelo Calgaro  Leonardo Cunha Melo 《Euphytica》2014,199(3):261-272

The common bean breeding program coordinated by Embrapa Arroz e Feijão released 50 new cultivars from 1984 to 2010. The aim of the present study was to estimate genetic progress in terms of seed yield and other agronomic traits achieved by the black-type common bean breeding program in Brazil over the 22-year period from 1985 to 2006. Two types of field experiments were performed to assess genetic progress. In regard to experiments on lines, the three best breeding lines from each of 11 evaluation cycles constituted 33 treatments. These evaluations were made in 20 environments and served to estimate progress in seed yield and seed size because these were the criteria applied in selecting the elite lines. Cultivar evaluations included nine cultivars recommended by Embrapa during the period under investigation, and the evaluations were established in 21 environments. These evaluations served to estimate improvements in reaction to angular leaf spot, plant architecture and tolerance to lodging because cultivars usually exhibit superior phenotypes for such characteristics. Evaluations were performed from 2008 to 2010. Estimated improvement in seed yield was 25.2 kg ha^?1 or 1.1 % per year. Improvements were also found in tolerance to lodging (1.7 % per year) and 100-seed weight (0.65 % per year). There was no significant progress for the plant architecture and resistance to angular leaf spot traits.  相似文献   

Potential impacts on climate change on paddy rice yield in mountainous highland terrains     

Jonghan Ko  Han-Yong Kim  Seungtaek Jeong  Joong-Bae An  Gwangyoung Choi  Sinkyu Kang  John Tenhunen 《Journal of Crop Science and Biotechnology》2014,17(3):117-126

Crop models are suitable tools to assess the potential impacts of climate change on crop productivity. While the associated assessment reports have been focused on major rice production regions, there is little information on how climate change will impact the future rice crop production in mountainous highland regions. This study investigated effects of climate change on yield of paddy rice (Oryza sativa) in mountainous highland terrains of Korea using the CERES-Rice 4.0 crop model. The model was first calibrated and validated based on observed data and then applied to simulations for the future projections of rice yield in a typical mountainous terrain which borders North and South Korea, the Haean Basin in Kangwon Province, Republic of Korea. Rice yield in the highland terrain was projected to increase by 2050 and 2100 primarily due to elevated CO₂ concentration. This effect of CO₂ fertilization on yield (+10.9% in 2050 and +20.0% in 2100) was also responsible for increases in water-use efficiency and nitrogen-use efficiency. With management options, such as planting date shift and increasing nitrogen application, additional yield gains were predicted in response to the future climate in this area. We also found that improving genetic traits should be another option to get further yield increases. All in all, climate change in mountainous highland areas should positively influence on paddy rice productivity.  相似文献   

Variability,heritability and character association analysis of chemoagronomic traits in Rauwolfia serpentina     

Gufran Usmani  Pravin H. Chawhaan  Yogeshwar Mishra  Asim Kumar Mandal 《Euphytica》2014,200(2):259-268

An investigation was carried out with 25 populations of Rauwolfia serpentina to assess variability, association of yield components and their direct and indirect effects on yield. Analysis of variance revealed significant differences among 25 populations of R. serpentina for all the traits. Heritability estimates in broad sense were high for most of the traits and moderate for number of primary root branch. As in case of heritability, expected genetic advance was the highest for plant height, number of primary stem branch, reserpine content (%) in root, the most important trait for commercial utilization. Correlation analysis indicated positive and significant phenotypic correlation of reserpine content with root length and total alkaloid content (%) and significant negative association with root diameter. The partitioning of genotypic correlation coefficient into direct and indirect effects revealed total alkaloid content and root yield were the most important direct contributors to reserpine percent in root. It is concluded that accessions with more alkaloid content and root length are likely to yield more reserpine content in root and these characters can be considered to be reliable traits for selection of high reserpine content in root.  相似文献   

Isolation of flower color and shape mutations by gamma radiation of Chrysanthemum morifolium Ramat cv. Youka     

Tarek M. A. Soliman  Suhui Lv  Huifang Yang  Bo Hong  Nan Ma  Liangjun Zhao 《Euphytica》2014,199(3):317-324

We investigated the effect of radiation damage on in vitro mutation induction in chrysanthemum. White petals of chrysanthemum (Chrysanthemum morifolium Ramat cv. Youka) were selected to induce mutation by gamma radiation. Calli produced were irradiated with gamma rays at 0, 10, 15 and 20 Gy. We found that the plants from the irradiated calli were different from control plants in number of leaves, leaf length & width, number of flowers, flower diameter, petiole diameter and petiole length after transplanting into the greenhouse for almost 70 days. Three mutants in flower color and shape were found in 15 Gy-treated plants. First type of mutant (M.1) has tubular petals. The second (M.2) and third (M.3) ones both have yellow flowers, while one of them has spooned shaped ray florets similar to the original cultivar and the other one has flat shaped florets. Semi-quantitative RT-PCR showed that most of carotenoid-biosynthesis related genes, except for violaxanthin deepoxidase (VDE) and lycopene ε-cyclase (LCYE), showed similar expression patterns in petals of the original ‘Youka’ and its mutants (M2 & M3). VDE and LCYE results showed high expression levels in M3 and M2 & M3 respectively, comparing with the control. On the other hand, expression patterns for VDE were similar in control and M2. These yellow mutants were maintained vegetatively and proved to be true-to-type in one successive generation. It can be concluded that gamma radiation with 15 Gy dose can be used for in vitro induction of flower color and shape mutations of chrysanthemum cv. Youka.  相似文献   

Direct and indirect selection for grain yield in oats (avena sativa L.)     

S. K. Johnson  D. B. Helsel  K. J. Frey 《Euphytica》1983,32(2):407-413

Direct and indirect selection for increased grain yield were carried out on a population of 678 F₂-derived lines of oats. A selection intensity of 10% was used with direct selection (selection for grain yield itself) and with indirect selection using three criteria, harvest index, vegetative growth rate, and the index of harvest index + vegetative growth rate. Expected gains from 1978 evaluations were compared to actual gains measured in 1980. Actual grain yield increases were 4, 8, 7, and 6% from selection via harvest index, vegetative growth rate, grain yield, and harvest index + vegetative growth rate, respectively. Thus, indirect selection via vegetative growth rate gave a greater increase in grain yield than did direct selection. Heritability values computed via components of variance ranged from 0.50 to0.57 for the three traits, harvest index, vegetative growth rate, and grain yield, whereas regression heritabilities ranged from 0.41 to 0.55. Realized heritabilities were 0.33, 1.00 and 0.89 for the three traits, respectively. Selection via all criteria caused significant changes in nearly all agronomic traits except weight per volume. Vegetative growth rate, which gave the greatest gain in grain yield, caused less drastic changes in days to anthesis, plant height, biological yield, and vegetative yield than did direct selection for grain yield.  相似文献   

Differential influence of QTL linked to Fusarium head blight,Fusarium-damaged kernel,deoxynivalenol contents and associated morphological traits in a Frontana-derived wheat population   总被引：1，自引：0，他引：1  

Szabó-Hevér Ágnes  Lehoczki-Krsjak Szabolcs  Varga Mónika  Purnhauser László  Pauk János  Lantos Csaba  Mesterházy Ákos 《Euphytica》2014,200(1):9-26

The genetic background of Fusarium head blight (FHB) resistance in the moderately resistant wheat variety Frontana was investigated in the GK Mini Manó/Frontana DH population (n = 168). The plant material was evaluated across seven epidemic environments for FHB, Fusarium-damaged kernel (FDK) and deoxynivalenol (DON) contents caused by two Fusarium species (F. culmorum and F. graminearum). The effects of phenotypic traits such as plant height and heading date were also considered in the experiments. In the population, 527 polymorph markers (DArT, SSR) within a distance of 1,381 cM distance were mapped. The quantitative trait locus/loci (QTL) on chromosomes 4A and 4B demonstrated a significant linkage only with FHB, while QTL on chromosomes 3A, 4B, 7A and 7B were linked to DON accumulation alone. Regions determining all the investigated Fusarium resistance traits were identified on chromosomes 1B, 2D, 3B, 5A, 5B and 6B. The markers in these regions are of the greatest significance from the aspect of resistance breeding. Our results indicate that the genetic background of resistance against FHB, FDK and DON accumulation can differ, and all these traits should be taken under consideration during resistance tests. Moreover, this is the first report on the mapping of Frontana-derived QTL that influence DON accumulation, which is important since the level of DON contamination determines the actions of the food and feed industries. Selection should therefore also focus on this trait by using molecular markers linked to DON content.  相似文献