Prediction of double crosses from single crosses

Summary A unified theory, which takes into account both the genetic and experimental conditions, for predicting double cross hybrids from single cross hybrids is developed. The method is analogous to that for selection indices. Relationship of the prediction model to the genetic model is explored. Jenkins' (1934) three single cross predictors, a best single cross predictor, and selection on the basis of double cross estimates are compared empirically for an additive and dominance genetic model with varying proportions of experimental error variance and different numbers of hybrids. The differences between fixed and random genetic sample approaches to prediction are discussed.

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Zusammenfassung Für die Voraussch?tzung von Doppelkreuzungsbastarden aus Einzelkreuzungshybriden wird eine einheitliche Theorie entwickelt, die sowohl genetische als auch experimentelle Bedingungen berücksichtigt. Die Methode ist der für die Berechnung von Selektionsindizes analog. Es wird die Beziehung des Vorhersagemodells zum genetischen Modell erl?utert. Jenkins' (1934) drei Einzelkreuzungs-Sch?tzwerte, der beste Einzelkreuzungs-Sch?tzwert und die Selektion auf der Grundlage der Doppelkreuzungs-Sch?tzungen werden für ein additives und Dominanz-Modell mit variierenden Verh?ltnissen der experimentellen Fehlervarianz und unterschiedlicher Anzahl von Bastarden empirisch miteinander verglichen. Der Unterschied zwischen fixierter und zuf?lliger genetischer Stichprobenmethode wird hinsichtlich der Vorhersage besprochen.

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Dedicated to Dr. George F. Sprague on the occasion of his 65^th birthday.

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Contribution from the Department of Experimental Statistics, N. C. Agricultural Experiment Station, Raleigh, North Carolina. Published with the approval of the Director of Research as Paper No. 2330 of the Journal Series. This investigation was supported in part by Public Health Service Research Grant GM 11546 from the Division of General Medical Sciences.     

Ph1 gene derived from Aegilops speltoides induces homoeologous chromosome pairing in wide crosses of Triticum aestivum

The present study was conducted to investigate the effectiveness of the PhI gene transferred from Aegilops speltoides into bread wheat cultivar Chinese Spring (CS) in inducing homoeologous chromosome pairing in interspecific crosses using the Chinese Spring line, CS(PhI), carrying the gene. Chinese Spring, as well as CS(PhI), were crossed as female parents with three accessions of Ae. kotschyi (UUSS), one accession of Secale cereale (RR), two amphiploids of Triticum durum-Ae. caudata (AABBCC), and one amphiploid of Triticum durum-Ae. umbellulata (AABBUU). Meiotic metaphase I chromosome pairing was studied in all the interspecific crosses with CS as well as CS(PhI). There was significant increase in chiasma frequency in all the crosses with CS(PhI) over those with CS. The extent of induced homoeologous chromosome pairing by PhI in crosses of CS(PhI) with S. cereale was higher than with those of Ae. kotschyi, as indicated by higher chiasma frequency per pollen mother cell. Significant reduction in frequency of univalents and increase in bivalents (>14), multivalents, and chiasma frequency in crosses of amphiploids with CS(PhI) as compared to those of CS indicated induced homoeologous pairing between C and D, D and U, and C, D, and U genomes with AB genomes in the presence of PhI. The results of the present study unequivocally demonstrate the effectiveness of PhI gene transferred from Ae. speltoides in hexaploid wheat in inducing homoeologous chromosome pairing and suggest that the line CS(PhI) can be effectively used for precise transfer of useful alien genetic variations with least linkage drag.     

山羊草(Aegilops)物种作母本与小麦远缘杂交的评价

研究了山羊草不同物种作母本,在不借助胚培等特殊措施的情况下与不含隐性可杂交基因的小麦推广品种杂交、回交及杂种自交情况,结果表明(1)山羊草物种作母本,小麦推广品种作父本进行杂交是一种很有效的方式;山羊草物种作母本容易与小麦进行杂交,但回交和自交较困难;回交与自交相比时,回交容易些;(2)同一物种的不同基因型材料在与小麦杂交、回交及杂种自交时存在大量变异;(3)杂交结实率与以后的回交或自交并不相关,但是杂种的回交和自交之间相关;(4)山羊草物种与小麦杂交、回交及其杂种自交的结实率与其染色体组构成并无明显相关.     

Characterization of a partial wheat-Thinopyrum intermedium amphiploid and its reaction to fungal diseases of wheat

Partial amphiploids between wheat (Triticum aestivum L.) and Thinopyrum species play an important role in the transfer and use of traits from alien species. A wheat-Thinopyrum intermedium partial amphiploid, TAI8335, and its alien parent were characterized by a combination of genomic in situ hybridization (GISH) and cytological observations. Evidence from GISH indicated that the donor parent Th. intermedium possessed seven pairs of S, seven J(s) and 21 J chromosomes. Mitotic observation showed that the majority of TAI8335 plants had 56 chromosomes, but a few had 54 to 55, in some cases with two to three additional telochromosomes. The chromosomes in most pollen mother cells of plants with 2n = 56 formed 28 bivalents, averaging 27.12 in 223 cells, suggesting a basic cytological stability. Sequential GISH patterns using genomic Pseudoroegneria spicata and genomic Th. intermedium DNA as probes revealed that TAI8335 had fourteen chromosomes derived from Th. intermedium and its alien genome consisted of one pair of S-, three pairs of J(s) - and one pair of J-genome chromosomes as well as two translocated chromosome pairs, one being a Robertsonian translocation and another an intercalary translocation, both of which involved J and S genome. Two of the telochromosomes in the aneuploid plants originated from the J genome and one from wheat. Disease screening demonstrated this line was highly resistant to leaf rust, stem rust, stripe rust and powdery mildew. This study showed that the partial amphiploid TAI8335 appears to serve as a novel source for the transfer of resistance genes for multiple fungal pathogens to wheat.     

Characterization of wheat-Thinopyrum partial amphiploids by meiotic analysis and genomic in situ hybridization.

A combination of genomic in situ hybridization (GISH) and meiotic pairing analysis of wheat-Thinopyrum partial amphiploids was employed to identify the genomic constitution and relationships between partial amphiploids derived from wheat and wheatgrass crosses. On the basis of similarities in the meiotic behavior and GISH patterns, the alien chromosomes of two of eight partial amphiploids, TAF46 and 'Otrastayuskaya 38', were judged to originate from Th. intermedium, whereas Th. ponticum was one of the parents of the other six partial amphiploids; PWM706, PWM206, PWM209, PWMIII, OK7211542, and Ag-wheat hybrid. Each of these partial amphiploids was found to contain a synthetic alien genome composed of different combinations of St-, J-, or Js-genome chromosomes. For relatedness of partial amphiploid lines, meiotic analysis of F1 hybrids and GISH results were generally complementary, but the latter offered greater precision in identifying constituent genomes.     

Haploidy from Hordeum interspecific crosses

Summary Interspecific crosses of Hordeum brachyantherum (2n = 28) and H. depressum (2n = 28) with H. bulbosum (2n = 14 or 28) and H. vulgare (2n = 14 or 28) were made. Crosses between brachyantherum and diploid bulbosum resulted in dihaploids (2n = 14) of brachyantherum and hybrids (2n = 21), whilst the crosses of brachyantherum by tetraploid bulbosum or vulgare gave hybrid progeny. Similarly, crosses between H. depressum and diploid bulbosum resulted in dihaploids (2n = 14) of depressum and hybrids (2n = 21), whereas depressum by tetraploid bulbosum or vulgare invariably produced hybrids.Cytological observations on 12 day old embryos obtained from these crosses revealed chromosome variability down to 14 in crosses with diploid bulbosum indicating thereby that chromosome elimination leads to haploid formation. Embryonic cells from the brachyantherum by diploid vulgare cross also exhibited a certain degree of chromosomal instability as micronuclei.The results indicate that the ratio of parental genomes in the zygote determines whether haploids or hybrids will be produced in crosses of brachyantherum or depressum with bulbosum. Furthermore, brachyantherum appears to be more efficient in eliminating bulbosum chromosomes in comparison with depressum.     

Haploidy from Hordeum interspecific crosses

Summary Hordeum arizonicum (2n=42) and H. lechleri (2n=42) were crossed with both H. bulbosum (2n=14 or 28) and H. vulgare (2n=14 or 28) and progeny plants were obtained through embryoculture. Crosses of arizonicum with diploid bulbosum invariably resulted in haploids (2n=21) of arizonicum, whereas arizonicum by tetraploid bulbosum or diploid vulgare crosses produced both hybrids and haploids of arizonicum. The lechleri by diploid bulbosum or diploid vulgare crosses resulted in haploids of lechleri, while lechleri by tetraploid bulbosum resulted in well differentiated embryos which failed to germinate.Hybrid embryos derived from the haploid producing crosses exhibit chromosome variability, suggesting that chromosome elimination leads to haploid formation.The results also indicate that the ratio of the parental genomes in the zygote is a critical factor which determines the chromosome elimination or stability in any cross combination. Furthermore, both arizonicum and lechleri appear to be of similar genetic strength in eliminating bulbosum and vulgare chromosomes. The possibility of stability factors in overcoming elimination and manipulation towards elimination are discussed.     

Haploidy from Hordeum interspecific crosses

Summary Interspecific crosses of Hordeum parodii (2n = 42) with H. bulbosum (2n = 14 or 28) and H. vulgare (2n = 14;, and of H. proaerum (2n = 42) with H. bulboswn, H. vulgare and H. parodii were made. Crosses between parodii and diploid bulbosum resulted in haploids (2n = 21) of parodii, whilst the crosses of parodii by tetraploid bulbosum or diploid vulgare gave hybrid progeny. The procerum by diploid bulbosum cross invariably produced haploids (2n = 21) of procerum, whereas procerum by tetraploid bulbosum or diploid vulgare crosses resulted in both hybrids and haploids of procerum. The cross between procerum and parodii gave hybrid progeny which did not reach maturity.Cytological observations on two-week-old embryos obtained from reciprocal crosses revealed chromosome variability (not less than 21 in any cell) in haploid producing crosses. This shows that chromosome elimination leads to haploid formation irrespective of which species was used as female parent.The results indicate that the ratio of the parental genomes in the zygote determines whether predominantly haploids or hybrids will be produced in any cross combination. Furthermore, procerum appears to be not only more efficient in eliminating bulbosum chromosomes in comparison with parodii, but also capable of eliminating vulgare chromosomes. The possibility of stability factors in overcoming chromosome elimination, a hierarchy of chromosome elimination and the general existence of genome balance for chromosome stability in interspecific crosses, are discussed.     

Different genome-specific chromosome stabilities in synthetic Brassica allohexaploids revealed by wide crosses with Orychophragmus

Background and Aims

In sexual hybrids between cultivated Brassica species and another crucifer, Orychophragmus violaceus (2n = 24), parental genome separation during mitosis and meiosis is under genetic control but this phenomenon varies depending upon the Brassica species. To further investigate the mechanisms involved in parental genome separation, complex hybrids between synthetic Brassica allohexaploids (2n = 54, AABBCC) from three sources and O. violaceus were obtained and characterized.

Methods

Genomic in situ hybridization, amplified fragment length polymorphism (AFLP) and single-strand conformation polymorphism (SSCP) were used to explore chromosomal/genomic components and rRNA gene expression of the complex hybrids and their progenies.

Key Results

Complex hybrids with variable fertility exhibited phenotypes that were different from the female allohexaploids and expressed some traits from O. violaceus. These hybrids were mixoploids (2n = 34–46) and retained partial complements of allohexaploids, including whole chromosomes of the A and B genomes and some of the C genome but no intact O. violaceus chromosomes; AFLP bands specific for O. violaceus, novel for two parents and absent in hexaploids were detected. The complex hybrids produced progenies with chromosomes/genomic complements biased to B. juncea (2n = 36, AABB) and novel B. juncea lines with two genomes of different origins. The expression of rRNA genes from B. nigra was revealed in all allohexaploids and complex hybrids, showing that the hierarchy of nucleolar dominance (B. nigra, BB > B. rapa, AA > B. oleracea, CC) in Brassica allotetraploids was still valid in these plants.

Conclusions

The chromosomes of three genomes in these synthetic Brassica allohexaploids showed different genome-specific stabilities (B > A > C) under induction of alien chromosome elimination in crosses with O. violaceus, which was possibly affected by nucleolar dominance.Key words: Synthetic Brassica allohexaploids, Orychophragmus violaceus, intergeneric hybrids, genomic in situ hybridization, amplified fragment length polymorphism, single-strand conformation polymorphism, chromosome elimination, chromosome stability, nucleolar dominance     

Parental genome composition and genetic classifications of derivatives from intergeneric crosses of Festuca mairei and Lolium perenne

Intergeneric hybridization between Festuca and Lolium has been a long-term goal of forage and turfgrass breeders to generate improved cultivars by combining stress tolerance of Festuca and rapid establishment of Lolium. However, wide-distance hybridizations usually result in the wild genome being eliminated from the hybrid due to incomplete chromosome pairing and crossovers. In this study, random amplified polymorphic DNA (RAPD) and simple sequence repeat (SSR) markers were used to detect the parental genome composition of F₁ hybrids and backcross, generated from crosses between Festuca mairei St. Yves (Fm) and Lolium perenne L. (Lp). Each of the hybrids exhibited integration of Fm and Lp genomes with varying levels of Fm/Lp genome ratios. However, cluster and principle component analyses of the progeny consistently revealed four groups depending on the amount of genome introgression from both parents. The parental genome composition and classifications of intergeneric progeny would be useful for breeding material selection. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

抗大麦黄矮病的小偃麦易位系的创制与鉴定

抗大麦黄矮病的小偃麦易位系的创制与鉴定@辛志勇$中国农业科学院作物育种载培研究所!北京100081@张增燕$中国农业科学院作物育种载培研究所!北京100081@陈孝$中国农业科学院作物育种载培研究所!北京100081@林志珊$中国农业科学院作物育种载培研究所!北京100081大麦;;小偃麦;;易位系     

小麦-中间偃麦草双体异附加系的鉴定

利用形态学、细胞学、A-PADE和RAPD方法,对5个小麦-中间偃麦草(Thinopyrum intermedium)双体异附加系Line 1、Line 4、Line 10、Line 14和Line 15进行了鉴定。细胞学鉴定结果表明,它们根尖细胞染色体数目为2n=44,花粉母细胞减数分裂中期Ⅰ(PMCMⅠ)染色体构型为2n=22 Ⅱ,具有高度的细胞学稳定性;形态学鉴定和A-PADE电泳分析证明,Line 1和Line 15可能附加了中间偃麦草第7部分同源群的染色体,Line 10和Line 14可能附加了中间偃麦草第1部分同源群的染色体,Line4则可能同时存在多种染色体变异;RAPD分析表明,在供试的100个随机引物中,有5个引物S21、S29、S57、S121和S152能够在亲本中间偃麦草和双体异附加系中稳定扩增出特异带型,并可作为异附加系所附加染色体的特异RAPD标记。     

Optimum prediction of three-way crosses from single crosses in forage maize (Zea mays L.)

Summary Three-way cross means were predicted with formulae involving linear functions of general (GCA) and specific combining ability (SCA) effects estimated from single-cross factorials between genetically divergent populations. Data from an experiment with 66 single-cross and 66 three-way cross forage maize (Zea mays L.) hybrids was used for comparing the prediction formulae. The genotypic correlation (r) between observed and predicted three-way crosses increased with increasing , the weighting factor of SCA effects, for plant height and ear dry matter (DM) content. It displayed slightly convex curves for total and stover DM yield, ear percentage, and metabolizable energy content of stover. For Jenkins' method B, r was considerably less than 1.0 for all traits, indicating the presence of epistasis. The square root of heritability (h) of the predicted means decreased with increasing , the reduction being small with a greater number of test environments. Using the product r·h as a criterion of efficiency, none of the prediction methods was consistently superior and the differences among them were rather small (< 7.5%) for all traits, irrespective of the number of test environments. We recommend evaluating the GCA of a greater number of lines from each parent population in testcrosses with a small number of elite lines from the opposite population. All possible three-way or double crosses between both sets of lines should be predicted by Jenkins's method C. This procedure allows one to select with a higher intensity among the predicted hybrids and thus should increase the genetic gain.Extended version of a paper (Geiger et al. 1986) read at the sixth meeting of the EUCARPIA Section Biometrics in Plant Breeding held at Birmingham, UK, July 28–August 1, 1986     

Trisomics from triploid-diploid crosses in self-incompatible Lycopersicum peruvianum

Summary The transmission rate of trisomy was determined for two primary trisomic types, triplo-1 and triplo-3, of the self-incompatible species Lycopersicum peruvianum. Chromosome counts in somatic metaphases of root-tip squashes from 112 progeny plants showed that 8 individuals (7.2 %) were trisomic and 104 (92.8%) were diploid. The average frequency of transmission approximated 2.6% in triplo-1 and 8.6% in triplo-3. Data are presented on the karyotype and the morphological features of the 8 trisomics detected in the progenies of triplo-1 and triplo-3 and the various factors affecting the transmission rate of trisomy are discussed.The transmission rate of trisomy was also determined for the trisomic plant 269 which displayed a complete deletion of the satellited part of chromosome 2 and was characterized by ovate fruits. Out of 18 progeny plants analysed, 8 (44.4%) were trisomic and 10 (55.6%) were diploid. Cytological and morphological analyses of the 8 trisomic individuals revealed that only two of them (11.1 %) resembled the parental trisomic. A number of diploid and trisomic progenies exhibited a partial or a complete deletion of the satellited segment of chromosome 2.This work has been supported by a contract between the European Communities and the CNEN. This publication is contribution n ° 484 from The Division Applicazioni delle Radiazioni del CNEN and contribution n ° 1482 from the Biology Radioprotection Medical Research programme of the Directorate General XII of the European communities     

Characterization of doubly substituted polysaccharide derivatives

Derivatives of cellulose, amylose and chitosan, bearing simultaneously 10-undecenoyl and arylaminocarbonyl or benzoyl groups were characterized by the combined use of 1H NMR and elemental analysis. The mathematical manipulation of elemental analysis data permits the calculation of the degree of substitution for each kind of substituent. The method was validated and is applicable to other derivatives.     

Characterization of 1-chlorohexane halidohydrolase, a dehalogenase of wide substrate range from an Arthrobacter sp.

1-Chlorohexane halidohydrolase from Arthrobacter sp. strain HA1 was purified to homogeneity by fractional precipitation, ion-exchange chromatography, gel filtration, and high-performance liquid chromatography gel filtration. The enzyme was a monomer with a molecular weight of about 37,000; its amino acid composition and N-terminal sequence were determined. The enzyme had a broad optimum around pH 9.5, a temperature optimum near 50 degrees C, an activation energy of 40 kJ/mol, and a molecular activity of 0.9 kat/mol. The substrate range of the enzyme included at least 50 halogenated compounds. 1-Chloroalkanes (C3 to C10), 1-bromoalkanes (C1 to C9), and 1-iodoalkanes (C1 to C7), but no 1-fluoroalkane, were substrates. Subterminally substituted, branched-chain, and nonsaturated haloalkanes were dehalogenated. Some halogenated aromatic substrates, e.g., bromobenzene and benzyl bromide, were hydrolyzed. Several alpha,omega-dihaloalkanes were subject to double dehalogenation. Thus, 1,2-dibromoethane was hydrolyzed first to 2-bromoethanol and then to 1,2-dihydroxyethane. Crude extracts of strain HA1 were found to contain a debrominase that cleaved bromoalkanes with long alkyl chains.     

Trisomics from triploid-diploid crosses in self-incompatible Lycopersicum peruvianum

Summary An attempt was carried out to produce trisomics of the wild tomato L. peruvianum, to define their essential features, and to detect relationships between trisomy and the expression of self-compatibility.Triploid-diploid crosses in L. peruvianum yielded nearly 40% aneuploids. Of these, 18% were single trisomics, and the rest had 2, 3 and 4 extra chromosomes. Almost all the trisomics occurred in crosses where the triploid was used as female parent. Vigour and fertility of trisomics were not much different from those of disomics, and morphologically they were very similar.The extra chromosome was identified in three self-compatible trisomic plants through somatic and pachytene chromosome morphology. One of these plants was trisomic for chromosome 1, while the other two were trisomic for chromosome 3. In these trisomics a positive correlation was found between chromosome length and trivalent formation, but no relationship between chromosome length and frequency of laggards was observed.A series of test-crosses revealed that the capacity of the trisomics to produce seed upon selfing always resulted from alterations of the incompatibility phenotype of the style and not from competitive interaction in the pollen. Progeny analyses showed that the self-compatibility features of the trisomics were not transmitted from one generation to the next. The implications of these findings are discussed.This work has been supported by a contract between the European Communities and the CNEN. This publication is contribution no. 1458 from the Biology Division of the European Communities and contribution no. 472 from the Divisione Applicazioni delle Radiazioni del CNEN.     

Characterization of interploid hybrids from crosses between Brassica juncea and B. oleracea and the production of yellow-seeded B. napus

Yellow-seeded Brassica napus was for the first time developed from interspecific crosses using yellow-seeded B. juncea (AABB), yellow-seeded B. oleracea (CC), and black-seeded artificial B. napus (AACC). Three different mating approaches were undertaken to eliminate B-genome chromosomes after trigenomic hexaploids (AABBCC) were generated. Hybrids (AABCC, ABCC) from crosses AABBCC?×?AACC, AABBCC?×?CC and ABCC?×?AACC were advanced by continuous selfing in approach 1, 2 and 3, respectively. To provide more insight into Brassica genome evolution and the cytological basis for B. napus resynthesis in each approach, B-genome chromosome pairing and segregation were intensively analyzed in AABCC and ABCC plants using genomic in situ hybridization methods. The frequencies at which B-genome chromosomes underwent autosyndesis and allosyndesis were generally higher in ABCC than in AABCC plants. The difference was statistically significant for allosyndesis but not autosyndesis. Abnormal distributions of B-genome chromosomes were encountered at anaphase I, including chromosome lagging and precocious sister centromere separation of univalents. These abnormalities were observed at a significantly higher frequency in AABCC than in ABCC plants, which resulted in more rapid B-genome chromosome elimination in the AABCC derivatives. Yellow or yellow-brown seeds were obtained in all approaches, although true-breeding yellow-seeded B. napus was developed only in approaches 2 and 3. The efficiency of the B. napus construction approaches was in the order 1?>?3?>?2 whereas this order was 3?>?2?>?1 with respect to the construction of yellow-seeded B. napus. The results are discussed in relation to Brassica genome evolution and the development and utilization of the yellow-seeded B. napus obtained here.