Inheritance of Total and Individual Glucosinolate Contents in Seeds of Winter Oilseed Rape (Brassica napus L.)

Genetic analyses were carried out with B. napus lines that differed in total content of individual glucosinolates (GSLs), as well as in their profile. Inheritance of total GSL content was studied with a complete F₁ diallel mating of eight doubled haploid (DH) lines (5–120/μmol GSL/g dry seed) as well as with the segregating populations of two crosses between DH lines. Most of the genetic variability was caused by gca effects; heterosis was not important; heritability of GSL content was high (h²_b, = 0.95, h²_n= 0.87). For GSL contents below 20/μmol/g seed, heritability values reached h²_b, = 0.69 and h²_n, = 0.66. Low total GSL content was found to be controlled by 4–5 recessive genes with additive gene action. Alkenyl GSL profiles studied in F₂ from resynthesized rapeseed lines were determined by four loci, two that are responsible for the elongation of the butenyl to pentenyl GSLs and two that are responsible for hydroxylation of alkenyl GSLs. Initial genetic studies of indolyl GSL contents from 0.1–4.5/μmol/g show that two or three genes may be involved. The frequency distribution of F₂ phenotypes was virtually continuous due to both segregational and environmental variation. Genotypes with low alkenyl and low indolyl GSL contents were selected after crossing parents with low alkenyl/high indolyl and high alkenyl/low indolyl GSL content. The alkenyl GSL profiles are discussed with regard to the parental diploid species B. oleracea and B. campestris.     

The evaluation of superior Hordeum bulbosum L. genotypes for use in a doubled haploid barley breeding programme

Summary Eight Hordeum bulbosum selections were produced from a cross between Cb 2920/4 and Cb 2929/1, two genotypes widely used in doubled haploid breeding programmes. The selections were hybridized with barley to evaluate their ability to produce high proportions of well-differentiated haploid embryos compared with Cb 2929/1 as control. We report here an initial small-scale investigation followed by a larger-scale test in two different environments to assess seed setting, haploid embryo differentiation rates and VB hybrid formation. These VB embryos contain both parental sets of chromosomes and occur more frequently in the glasshouse during the winter. Two of the eight selections were identified as combining the desirable characteristics of both parents, namely high seed setting on cv. Vada which is partially incompatible with H. bulbosum, large numbers of well-differentiated haploid embryos and a low incidence of VB hybrids. The selections are available for release to interested research workers and plant breedersAbbreviations DH doubled haploid - VB a hybrid from H. vulgare x H. bulbosum which contains both parental sets of chromosomes     

Inheritance of resistance to wheat midge, Sitodiplosis mosellana, in spring wheat

Inheritance of resistance to a wheat midge, Sitodiplosis mosellana (Géhin), was investigated in spring wheats derived from nine resistant winter wheat cultivars. F₁ hybrids were obtained from crosses between resistant winter wheats and susceptible spring wheats, and used to generate doubled haploid populations. These populations segregated in a ratio of 1:1 resistant to susceptible, indicating that a single gene confers the resistance. The F₂ progeny from an intercross among spring wheats derived from the nine resistance sources did not segregate for resistance. Therefore, the same gene confers resistance in all nine sources of resistance, although other genes probably affect expression because the level of resistance varied among lines. Heterozygous plants from five crosses between diverse susceptible and resistant spring wheat parents all showed intermediate levels of response, indicating that resistance is partly dominant. Susceptible plants were reliably discriminated from heterozygous or homozygous resistant ones in laboratory tests, based on the survival and development of wheat midge larvae on one or two spikes. This powerful resistance gene, designated Sm1, is simply inherited and can be incorporated readily into breeding programmes for spring or winter wheat. However, the use of this gene by itself may lead to the evolution of a virulent population, once a resistant cultivar is widely grown.     

Genetic analysis of resistance to Fusarium head blight caused by Fusarium graminearum in Chinese wheat cultivar Sumai 3 and the Japanese cultivar Saikai 165

The genetic constitution of resistance to Fusarium head blight (FHB, scab) caused by Fusarium graminearum in the Chinese wheat cultivar Sumai 3 and the Japanese cultivar Saikai 165 was investigated using doubled haploid lines (DHLs) and recombinant inbred lines (RILs). Frequency distributions of DHLs derived from two F₁ crosses, Sumai 3 (very resistant to resistant; VR-R) / Gamenya (very susceptible; VS) and Sumai 3 / Emblem (VS), fitted well to 1: 2: 1 (resistant: moderately resistant: susceptible) ratios for reaction to FHB in the field. It is suggested that the resistance of Sumai 3 is controlled by two major genes with additive effects. One of the resistance genes may be linked in repulsion to the dominant suppressor B1 for awnedness with recombination values 15.1 ± 3.3% in Sumai 3 /Gamenya and 21.4 ± 4.3% in Sumai 3 / Emblem. Saikai 165 is a Japanese resistant line derived from an F₁ Sumai 3 / Asakaze-komugi (moderately resistant; MR). The data for RILs derived from the cross Emblem / Saikai 165, indicates that three resistance genes control the resistance of Saikai 165. This revised version was published online in July 2006 with corrections to the Cover Date.     

Genetic,quantitative and microscopic evidence for fusion of haploid nuclei and growth of somatic calli in cultured <Emphasis Type="Italic">ms10</Emphasis><Superscript><Emphasis Type="Italic">35</Emphasis></Superscript> tomato anthers

In plant breeding, androgenic doubled haploids represent powerful tools to save time and resources for pure line generation. While in many species efficient protocols are known, in tomato (Solanum lycopersicum), the knowledge on the induction of androgenesis is still very scarce, and little is known about the particularities of this highly recalcitrant species. The only known method capable of yielding haploid/doubled haploid tomato plants is anther culture. However, this method has important limitations, including low efficiency of haploid induction and a low proportion of spontaneously doubled haploids. To understand these limitations better, we have analyzed the process of callus formation in anthers of tomato lines carrying the ms10 ³⁵ gene for male-sterility, using light and electron microscopy, flow cytometry and genetic analysis with morphological and molecular markers. Our results demonstrate that haploid, doubled haploid and diploid calli occur in tomato anthers, although at different frequencies. Diploid calli derived either from somatic cells or from the fusion of two genetically different haploid nuclei account for more than 90% of the total of calli produced. Somatic calli are derived from the stubs of connective tissue present in the interlocular septa of anthers. This growth is markedly increased in the ms10 ³⁵ mutants, which explains their higher callogenic rates than standard tomato lines. Together, our results reveal serious drawbacks that explain the low efficiency of anther-derived, doubled haploid production in tomato, and stress the need for alternatives towards doubled haploidy.     

Segregation of 12 isozyme genes among doubled haploid lines derived from a japonica x indica cross of rice (Oryza sativa L.)

Summary The segregation of 12 heterozygous isozyme markers was analyzed among F₂ plants and 51 anther culture (AC)-derived lines obtained from the japonica × indica cross of rice, IRAT 177 × Apura. All the lines except two were homozygous products of recombination of the two parental phenotypes. Doubled haploid (DH) lines derived from plants regenerated from the same callus were identical, confirming previously obtained results in rice. Surprisingly, some lines derived from different calli were also identical, suggesting a phenomenon of early callus fragmentation. All these observations at the isozyme level were confirmed by field evaluation. Deviations of segregations from the expected 1 : 1 ratio were observed at 4 loci among the DH lines. Among these, two were also noted among the F₂ plants. The two other distortions, both in favor of the japonica allele, were observed specifically in the AC-derived materials.Although this concerns a small proportion of the genes under study, it suggests that the embryogenic microsporal population does not represent a random gametic array. On the other hand, evaluation of recombination between isozyme genes located on chromosome 6 appears consistent with F₂ data and data previously recorded on the other japonica × indica crosses. The potential use of isozymes in breeding doubled haploids derived from remote crosses in rice is discussed.Abbreviations MCPA = 2-methyl-4-chlorophenoxyacetic acid - IAA = indolacetic acid - AC plant or line = anther culture-derived plant or line - DH line = doubled haploid line     

Identification and inheritance of a partially dominant gene for yellow seed colour in Brassica napus

A yellow‐seeded doubled haploid (DH) line no. 2127‐17, derived from a resynthesized Brassica napus L., was crossed with two black‐seeded Brassica cultivars ‘Quantum’ and ‘Sprint’ of spring type. The inheritance of seed colour was investigated in the F₂, and BC1 populations of the two crosses and also in the DH population derived from the F1 of the cross ‘Quantum’× no. 2127‐17. Seed colour analysis was performed with the colorimeter CR‐300 (Minolta, Japan) together with a visual classification system. The immediate F1 seeds of the reciprocals in the two crosses had the same colour as the self‐pollinated seeds of the respective black‐ and yellow‐seeded female parents, indicating the maternal control of seed colour. The F1 plants produced yellow‐brown seeds that were darker in colour than the seeds of no. 2127‐17, indicating the partial dominance of yellow seed over black. In the segregating BC1 progenies of the two crosses, the frequencies of the black‐ and yellow‐seeded plants fit well with a 1 : 1 ratio. In the cross with ‘Quantum’, the frequencies of yellow‐seeded and black‐seeded plants fit with a 13 : 3 ratio in the F₂ progeny, and with a 3 : 1 ratio in the DH progeny. However, a 49 : 15 segregation ratio was observed for the yellow‐seeded and black‐seeded plants in the F₂ progeny of the cross with ‘Sprint’. It was postulated from these results that seed colour was controlled by three pairs of genes. A dominant yellow‐seeded gene (Y) was identified in no. 2127‐17 that had epistatic effects on the two independent dominant black‐seeded genes (B and C), thereby inhibiting the biosynthesis of seed coat pigments.     

Cross compatibility between Abelmoschus esculentus and A. moschatus

Interspecific cross compatibility between cultivated and wild okra (Abelmoschus esculentus and A. moschatus) and pollen tube growth behaviour in the crosses among a local cultivar of A. esculentus, A. moschatus and their F₁s were studied. Fruit set was observed in all the crosses except one and seed setting was absent in two of the crosses which set fruit. All seed produced were shrivelled but F₁ plants were obtained from two crosses where cultivated okra was used as the seed parent. The F₁ plants were perennial in nature with very low pollen viability and seed set. A high percentage of pollen germination and profuse pollen tube penetration in the style were observed in the cross A. esculentus × A. moschatus but low pollen tube penetration with abnormal pollen tubes was observed in the reciprocal cross. The number of pollen tubes was very low but they appeared to be normal in the backcross A. esculentus × F₁, but were generally abnormal in the reciprocal cross. Both pre- and postzygotic barriers seemed to occur in crosses between the two species. The present studies indicate that these barriers can be overcome and desirable characters from A. moschatus transferred to cultivated okra using conventional hybridisation techniques. This revised version was published online in July 2006 with corrections to the Cover Date.     

Identification of Maintainer Genes in Brassica napus L. for the Male-Sterility-Inducing Cytoplasm of Diplotaxis muralis L.

Male fertility of F¹ interspecific hybrid plants derived from crosses between cytoplasmic male-sterile Brassica campestris in Diplotaxis muralis cytoplasm and 147 B. napus cultivars was Investigated. F¹, plants obtained, from crosses with the B. napus cultivars‘Mangum’and‘Hinchu’were male-sterile while F¹ plants derived from all other crosses were male-fertile. This indicated that these two cultivars carried maintainer genes far the male-sterility-inducing cytoplasm of D. muralis. Sterility was stable In plants derived from backcrosses of male-sterile F; plants with‘Mangun and‘Hinchu’but the seed set of backcross plants was low. With restorer genes readily available in B. napus, these findings could lead to the development of a new cytoplasmic male sterility system for the breeding of B. napus hybrid cultivars.     

Linkage of dominant hypersensitive resistance to bean common mosaic virus to seed color in Phaseolus vulgaris L.

Summary Evaluation of Phaseolus vulgaris germplasm bank materials and progenies from a large number of crosses using red- or yellow-colored, BCMV-susceptible bean lines, crossed to purple- or grey/brown-colored, hypersensitive-resistant lines, suggested strong trait association between seed color and BCMV resistance. The cross of red-mottled I⁺I⁺ (susceptible) BAT 1255R to isogenic purple-mottled II (resistant) BAT 1255M was made to study the segregation of the two characters and to recover red-mottled resistant progenies. No recombinant genotypes were observed among 353 F₃ families inoculated with BCMV-NL3, suggesting that linkage of purple-mottled seed color and dominant BCMV resistance is very close.Contribution of the Centro Internacional de Agricultural Tropical.     

Interaction and inheritance of suboptimal temperature interference with photonastic response of leaves of Phaseolus vulgaris L.

Summary The interaction of suboptimal temperatures with light on the normal photonastic movement of the unifoliate leaf of cultivars and progeny derived from crosses of the common bean (Phaseolus vulgaris) was studied. Nastic movements are normally inhibited by a temperature of 10°C, but tolerance permits the normal orientation of the leaf-blade to the light. Analysis of data from parental, F₁, and F₂ populations of two sensitive and one tolerant cultivar indicated that this trait was controlled by two major genes. Tolerance appeared to be due to two pairs of recessive genes. The intolerant reaction was due to either one, or both, of the dominant alleles, one of which was epistatic to the second and similar in response. It is suggested that early growth could be improved by selection for photonastic response at low temperature.     

Segregation for isozymes and HMW glutenins in a doubled-haploid cross of winter wheat carrying 1BL.1RS and 5DL.5RS translocations from rye

The doubled haploid (DH) wheat line ‘dh 5841’ carrying two translocations from rye, 5DL.5RS and 1BL.1RS, has been crossed to the subline of wheat cultivar ‘Amadeus 7143’ with a 1BL.1RS translocation. The resulting F₁ hybrid IJ 98 with a heterozygous 5DL.5DS‐5DL.5RS chromosome pair has been used to produce doubled haploids. A total of 57 DH lines were obtained from plantlets regenerated in anther culture after successful colchicine treatment and seed set. These lines were identified regarding the constitution of chromosome 5D (5DL.5DS or 5DL.5RS) by means of isoenzyme marker analysis. Thirty DH lines possessed the 5DL.5DS chromosome, while the remaining 27 lines carried the 5DL.5RS translocation. For some of these lines, the 5DL.5RS chromosome was cytologically confirmed by C‐banding. Furthermore, the DH lines were evaluated for their high molecular weight glutenin subunit composition. All possible combinations for the four independent loci —Skdh, Glu‐Al, Glu‐B1 and Glu‐D1— were detected in only 57 DH lines and no segregation distortion was observed.     

Inheritance of some morphological traits in grain amaranthus

Summary Intraspecific crosses involving five cultivars of Amaranthus hypochondriacus and two from A. caudatus were studied to investigate the inheritance of five morphological traits (seed coat colour, inflorescence colour, seedling colour, oval leaf mark and purple leaf mark). Seedling colour, inflorescence colour, seed coat colour and oval leaf mark segregated to a 3:1 ratio and therefore each was controlled by a single dominant gene. The purple leaf mark segregated in 9:7 ratio and hence may be controlled by two dominant genes. Simultaneous segregation for seed coat colour and inflorescence colour gave a ratio of 9:3:3:1. Similar genetic ratio was observed for the simultaneous segregation for oval leaf mark and inflorescence colour. It was suggested that each of these traits is controlled by independent genes.     

Production of salt tolerant rice breeding line via doubled haploid

Summary A haploid breeding program was initiated to develop doubled haploid salt tolerant rice breeding line via anther culture. Two sensitive breeding lines BR4608-R₁-R₂ and BR4909-R₁-R₂ were crossed with a salt tolerant line IR13146-13-3-3 to transfer its salt tolerant character to the doubled haploids.Anther from confirmed F₁s of the two crosses were cultured in defined medium for callus induction and eventual plant regeneration. Fifteen doubled haploid (DH) lines were obtained from two crosses. Test for salt tolerance were done in vitro. Five out of 15 lines were found tolerant at the level of 8–10 decisiemens/m (ds/m) while the rests were sensitive to that level of salinity.Field experiment was conducted to evaluate the doubled haploids under saline and non saline soil. Five salt tolerant lines produced comparable yield with the resistant control (BR 23) under saline condition, whereas these lines yielded even higher in non saline soil under irrigated condition when evaluated with other 10 sensitive DH linesAbbreviations LSD Least Significant Difference - NAA Napthalene Acetic Acid     

Introgression of productivity and other desirable traits from ricebean (Vigna umbellata) into black gram (Vigna mungo)

Crosses were performed to introgress genes for productivity and other desirable traits from ricebean (Vigna umbellata) into black gram (Vigna mungo). Crossability was very poor in black gram × ricebean crosses, and only two to nine true hybrid plants were obtained. Plant fertility was very poor in initial generations, but was improved gradually from F₂ onwards. Twenty‐four uniform progenies, bulked in F₇, were evaluated for yield potential. The percentage increase/decrease in yield ranged from ?35.48 to 50.31 over the check cultivar (‘Mash338’, female parent). All the progenies were found resistant to Mungbean yellow mosaic virus, Cercospora leaf spot and Bacterial leaf spot diseases. Overall, it was found that desirable traits such as high pod number, seed weight, productivity and resistance to diseases have been introgressed successfully into black gram from ricebean. A derivative line, KUG114, recorded yield superiority of 39.45% over the check cultivar ‘Mash338’ on the average of 14 multilocation research trials. It was released under the name ‘Mash114’ for cultivation in the Punjab state.     

紫色不结球白菜花色苷合酶基因BrcANS的克隆与表达分析

以不结球白菜紫色品系NJZX1-3和其绿色突变体NJZX1-0及其后代F₂的2个株系NJZX2-1和NJZX2-2为材料,研究花色苷合酶基因在紫色不结球白菜叶片花色苷合成途径中的作用。利用同源克隆的方法,分别在NJZX1-3及NJZX1-0中克隆到花色苷合酶基因;经序列比对发现,花色苷合酶基因的核苷酸和氨基酸序列在2种材料和大白菜中完全一致,长度为1077 bp,编码358个残基,第211~307肽段具有2OG-Fe (II)双加氧酶家族基因的结构域,被命名为BrcANS。BrcANS蛋白与同科芥菜的同源性高达99%,进化关系亦与其最相近。在全部4种材料鲜叶中,总花色苷的含量(TAC)与叶片紫色程度是一致的,其中,NJZX1-3叶片中总花色苷含量最高,达到80.15±5.74 mg 100 g^–1 FW;BrcANS表达量为NJZX1-0 < NJZX2-1 < NJZX2-2< NJZX1-3,与其总花色苷含量呈正相关。BrcANS的mRNA在NJZX1-3和NJZX1-0两种材料的不同组织中特异性表达：在叶片中高度表达,而在其他组织中表达较弱;另外,在两种材料间的表达亦存在显著差异,在NJZX1-3叶片中的表达丰度显著高于NJZX1-0。随着叶龄的增大,紫色不接球白菜叶片紫色变浅,BrcANS的表达量下降,但在NJZX1-3和NJZX1-0间的表达差异亦明显减小。以上结果表明,BrcANS基因是紫色不结球白菜中花色苷合成的关键基因之一,其mRNA表达量与叶片紫色直接相关,可能在其转录水平上调控叶片中紫色的形成。     

Identification of the fourth allele of the ANS (anthocyanidin synthase) gene and its effect on red color intensity in onions (Allium cepa)

Bulb color in onions (Allium cepa) is an important trait, and homogenous red coloration is desirable in red onion cultivars. The gene encoding anthocyanin synthase (ANS) is required for anthocyanin biosynthesis in onions. We have previously described three different alleles of the ANS gene. Here we report identification of the fourth allele of ANS, ANS-h1, found in a dark red doubled haploid line. ANS-h1 is similar to a non-functional allele found in Brazilian yellow cultivars except that it has several point mutations and indels throughout the promoter and coding regions, none of which are predicted to inactivate enzymatic activity. F₂ and backcross populations originating from the crosses between wild-type (ANS-L) allele-containing red and pink (ANS-p) allele-containing white or yellow parents show a discrete segregation ratio of 3 red to 1 light pink, indicating that the wild-type allele is completely dominant over the pink allele. In contrast, segregating populations derived from the crosses between ANS-h1 allele-containing red and the same white or yellow parents show a gradient of red intensity from light pink to dark red, suggesting that other genetic factors may affect expression of ANS-h1. A newly developed PCR-based marker and two previously developed markers for allelic selection of the ANS gene were used to examine allele composition in fifty-six breeding lines and commercial cultivars. Most lines are heterogeneous for the ANS gene with two or three alleles detected. The frequency of the pink allele is low in red breeding lines, but it is predominant in white and yellow lines.     

Production of intraspecific aneuploids in the genus Solanum. III. Intraspecific aneuploids

Summary The triploids recovered from 4x×2x crosses in three Solanum species were very vigorous and although few seeds/fruit were obtained when the triploids were crossed to diploids, the extensive crossing programme produced sufficient seed of four species cph, chc, pnt and tar. The average seed set for the 3x-2x crosses was an extremely low 3.5 seeds/fruit.Approximately 90% of the progeny of the 3x–2x crosses were aneuploids with chromosome numbers of 2n=25–29. The frequency of the aneuploids in the three species that were studied was chc 93%, pnt 94% and tar 92%. The aneuploids of chc and tar were extremely vigorous and fertile and they were used as females in crosses to the marker stocks. The aneuploids of pnt were vigorous, but the crossability barrier of pnt prevented their use in crosses to the marker stocks. A number of the aneuploids produced seed upon being selfed, but the ability to produce self seed may be related to the pseudo-compatibility of the parental clones. In only 7 aneuploids was there an indication that the self fertility was due to overcoming the self-incompatibility barrier as a result of competition-interaction of the aneuploid gamete.Plants in the families from the triploid-diploid crosses had a tremendous amount of variation in morphological characteristics (leaf shape, size and color; berry shape, color and degree or verrucose spotting: and plant habit and vigor). A large portion of variation exhibited in these families was due to the normal genetic segregation of the heterozygous parents. It was impossible to distinguish the aneuploids from their diploid sibs especially those having only one or two additional chromosomes because they were as vigorous and fertile as the diploids.There were some preliminary indications of the existence of distinct morphological characteristics among the aneuploids (separate petals, long berries, and extreme verrucose berries). However, there was no indication that these traits were due to the dosage effect of the extra chromosome. If it should be determined that this was true, it would be extremely useful in associating genes with chromosomes and determining the phenotypic effects due to the presence of an additional chromosome.Cooperative investigations of the College of Agriculture and Life Sciences, University of Winconsin and the Agricultural Research Service, U.S. Department of Agriculture, Madison, Wisconsin. Supported in part by grants from the Research Committee of the Graduate School, University of Wisconsin.First and third author respectively, formally Graduate Research Assistant Department of Horticulture, University of Wisconsin, Madison, and Geneticist Agriculture Research Service, U.S. Department of Agriculture, University of Wisconsin, Madison. Present address: Department of Genetics. University of Wisconsin, Madison, Wisconsin 53706 and Head Breeding and Genetics Department, International Potato Center, Lima, Peru.     

Production of Doubled Haploids by Anther Culture and Wheat X Maize Method in a Wheat Breeding Programme

Utilization of the doubled haploid method of breeding usually shortens the time to cultivar release, and methods of haploid production need evaluation in a breeding programme. Thirty-eight different three-way crosses were tested for anther culture response. On average 5.8 percent of the anthers cultured produced calli. Three crosses were found recalcitrant for callus induction. Overall, the anther culture method produced 0.6 plantlet per 100 anthers cultured. Five crosses with an average of 5.8 and 2.8 percent of anthers producing calli and plantlets, respectively, were compared using anther culture and wheat × maize crosses. Non-responsive genotypes for callus induction and plantlet formation in the anther culture method proved to be good parental material in wheat × maize crosses. The average percentages of embryo formation and plantlet production in wheat × maize crosses were 10.3 and 4.7, respectively. Anther-derived plants were cytologically unstable, whereas all the plants regenerated from wheat × maize crosses were haploids (n = 21 chromosomes). The chromosome numbers of the polyhaploids were doubled with a colchicine treatment. Improvement of the two haploid production methods to facilitate their efficient use in a breeding programme is discussed.     

Genetics of morphological traits in wild wheat,Triticum turgidum var.dicoccoides

Summary The mode of inheritance, linkage groups, and chromosomal location of 23 morphological and 4 biochemical traits were characterized in the wild tetraploid emmer wheat,Triticum turgidum var.dicoccoides. These traits were described and their mode of inheritance was determined by their segregation in four F₂ populations derived from crosses between four var.dicoccoides accessions and a tetraploiddurum cultivar. Linkage groups among the genes encoding for these traits were determined or postulated, and their chromosomal location was deduced by linkage to previously located genes. The genetic control of the following traits was characterized and is first reported here: black keel; hairy leaf sheath; hairy auricles; hairy rachilla; hairy kernel brush; obtuse flag leaf; and curved neck/peduncle. The linkage data indicated that developmentally-related genes tended to occur in clusters.