Optimum allocation of test resources and relative efficiency of alternative procedures of within‐family selection in hybrid breeding     

C. F. H. Longin  H. P. Maurer  A. E. Melchinger  M. Frisch 《Plant Breeding》2009,128(2):213-216

Selection within families can be conducted as family deviation (FDS) or strict within‐family selection (WFS). Our objectives were to (i) investigate two breeding schemes combining selection among families with FDS or WFS and (ii) compare the optimum allocation of test resources for these breeding schemes. We focused on selection among S₁ families and doubled haploid (DH) lines within S₁ families and used Monte Carlo simulations to determine the selection gain (Δ?), its standard deviation (SD_Δ?), and the average coefficient of coancestry among the selected DH lines (). For breeding schemes focusing only on within‐family selection, as employed in animal breeding, the maximum Δ?, its SD_Δ?, and were larger for FDS than for WFS. However, for breeding schemes combining among‐ and within‐family selection, as employed commonly in plant breeding programmes, the maximum Δ?, SD_Δ?, and were almost equal for FDS and WFS. Furthermore, the optimum allocation of test resources was similar for FDS and WFS. We conclude that FDS and WFS are equally suited for short‐ and long‐term success in breeding schemes where among‐family selection is followed by within‐family selection.  相似文献   

Introgression of a gene for delayed pigment gland morphogenesis from Gossypium bickii into upland cotton   总被引：1，自引：0，他引：1  

S. J. Zhu    N. Reddy    Y. R. Jiang 《Plant Breeding》2005,124(6):590-594

The presence of gossypol and its derivatives above the WHO/FAO standards (0.02–0.04%) in cotton seed oil and meal limits its usage as food and feed. To the contrary, the presence of pigment glands filled with gossypol and its derivatives helps to protect cotton plants from phytophageous pests. Thus a desirable cultivar would have glandless seeds on a glanded plant. This paper describes results on the successful introgression of this trait from Gossypium bickii into cultivated upland cotton. Five different tri‐specific hybrids (ABH1, ABH2, ABH3, ABH4 and ABH5) were obtained by crossing the amphidiploid F₁ (G. arboreum × G. bickii) with different gland genotypes of G. hirsutum as male parent. The hybrids were highly sterile, and their chromosome configuration at meiosis metaphase 1 (M1) in pollen mother cell (PMC) was 2n = 52 = 41.04 I + 4.54 II + 0.57 III + 0.04 IV. All five hybrids were similar in morphological characters, except for the gland expression and gossypol contents. The hybrid (ABH3) derived from genotype Gl₂Gl₂gl₃gl₃ of upland cotton (a single gene dominant line) had completely introgressed the target trait of G. bickii. While ABH1 and ABH2, which derived from recessive (gl₂gl₂gl₃gl₃) or dominant (GlGl) glandless upland cotton genotypes, had glandless seeds too, but the density and size of the glands on the plant were reduced significantly.  相似文献   

An Effect of Various Nitrogen Forms Used as Fertilizer on Lupinus albus L. Yield and Protein, Alkaloid and α-Galactosides Content     

D. Ciesio&#;ka  M. Muzquiz  C. Burbano  P. Altares  M. M. Pedrosa  W. Wysocki  W. Folkman  M. Popenda  K. Gulewicz 《Journal of Agronomy and Crop Science》2005,191(6):458-463

The influence of various forms of nitrogen supplied to the ground as N₂, NH, NO, [NH + NO], –NH₂, and Nd (N‐deficiency) on Lupinus albus L. cvs. Butan (sweet) and Bac (bitter) yield and protein, alkaloid and α‐galactoside biosynthesis in their seeds were studied. The experiments were performed in a greenhouse on perlite using, in all cases, the same dose of P, K, Mg and micronutrients (B, Zn, Mn, Cu, Mo, Fe). The Nd treatment contained only macro‐ and micronutrients without any nitrogen support. We found that different nitrogen forms used as a fertilizer had a significant influence on the development and yield structure of both lupin cultivars. It was found that the plants developed most favourably when nitrogen was supplied as N₂ and [NH + NO]. For the other forms, the anomalies like necrosis, chlorosis, leaves with small surface of assimilation were noticed. However, these observations were not always reflected by all parameters of yield structure. The forms of nitrogen had a pivotal influence on yield of generative and vegetative parts of lupin. Moreover, significant differences in protein, alkaloid and α‐galactoside content in seeds were observed.  相似文献   

Nitrogen Loss and Wheat (Triticum aestivum L.) Yields in Response to Zero-tillage and Sowing Time in a Semi-arid Tropical Environment   总被引：1，自引：0，他引：1  

A. K. Patra  P. K. Chhonkar  M. A. Khan 《Journal of Agronomy and Crop Science》2004,190(5):324-331

A net‐house experiment was conducted at the Indian Agricultural Research Institute, New Delhi, to study the effect of simulated zero‐tillage on the N loss through ammonia (NH₃) volatilization, and flux of inorganic N after the sowing of wheat and urea‐N application on two different dates. In addition, the effects of soil perturbation through simulated tillage vs. zero‐tillage, and of sowing time on the wheat yields (above and below‐ground) and N use were examined. Results showed significantly (P < 0.05) higher NH₃ volatilization loss of N in zero‐tillage than the tillage treatments, but no significant difference between early (18 November) or later (8 December) sowing wheat on such losses. Inorganic N, mostly NH‐N, was significantly higher in undisturbed soil on day 5, whereas on day 15, NO‐N was significantly higher in disturbed soil than the undisturbed (zero‐tilled) soil. There was little difference in NH‐N or NO‐N contents in soils between two dates of sowing. Plant parameters showed no significant (P > 0.05) differences among the treatments in terms of height, spike length, or number of grains per spike, grain and straw yields and root biomass and harvest index. Moreover, there were no significant differences among the treatments when N uptakes were compared. Our results thus suggest that after flooded rice, wheat can be grown successfully on zero‐tilled soils even when adopting sowing dates till early December. More N loss through NH₃ volatilization in zero‐tilled than tilled soils may not affect growth and yields of wheat, but needs to be reduced for N conservation and environmental reasons.  相似文献   

Identification and characterization of new S‐alleles associated with self‐incompatibility in almond     

O. Kodad  A. Sánchez  N. Saibo  M. Oliveira  R. Sociasi Company 《Plant Breeding》2008,127(6):632-638

Almond is a highly heterozygous species with a high number of S‐alleles controlling its gametophytic self‐incompatibility system (GSI). In this work, we have analysed 14 Spanish local almond cultivars for S‐RNase allele diversity. Five new S‐RNase alleles were identified by cloning and sequencing, S₃₁ (804 bp) in ‘Pou de Felanitx’ and ‘Totsol’, S₃₂ (855 bp) in ‘Taiatona’, S₃₃ (1165 bp) in ‘Pou d’Establiments’ and ‘Muel’, S₃₄ (1663 bp) in ‘Pané‐Barquets’ and S₃₅ (1658 bp) in ‘Planeta de les Garrigues’. Additionally, seven already known almond alleles could be recognized in the local cultivars studied. The high number of new alleles identified reveals the wide diversity of almond germplasm still existing and requiring characterization, and points to the possibility of new findings by a wider study focusing on other provenances. The almond S‐RNases have been compared to those of other Prunus species, showing a high identity and confirming that the S‐RNase gene in this genus presents a probable common ancestor.  相似文献   

Identification and characterization of genomic DNA sequences of the S-ribonuclease gene associated with self-incompatibility alleles S₁ to S₅ in European pear     

J. Sanzol    B. G. Sutherland    T. P. Robbins 《Plant Breeding》2006,125(5):513-518

The stylar products of the S‐locus for the gametophytic self‐incompatibility (GSI) system in the Rosaceae are ribonucleases (S‐RNases). Recently, sequences for 13 pear S‐RNase alleles have been published and named following a letter–symbol nomenclature (S_a to S_d and S_h to S_p). To establish the correspondence between these sequences and the self‐incompatibility alleles we have described previously (S₁ to S₅), we have amplified genomic DNA with consensus primers from the cultivars, ‘Williams’ (S₁S₂), ‘Coscia’ (S₃S₄), ‘Butirra Precoce Morettini’ (S₁S₃), ‘Santa Maria Morettini’ (S₂S₃) and ‘Doyenne du Comice’ (S₄S₅) and identified PCR products specifically associated with each S allele. Cloning and sequencing of the amplification products has revealed that they correspond to European pear sequences already deposited in the database. This allowed us to link S‐RNase sequences with S allele phenotypes and to determine a correspondence between the symbol–letter nomenclature used to name S‐RNase sequences and the number‐based nomenclature used to name S alleles. Based on this result the prediction of new cross‐incompatibilities among pear cultivars is discussed. Finally, we propose a unified number‐based nomenclature to avoid future confusion denominating S alleles in pear.  相似文献   

Genotyping apricot cultivars for self-(in)compatibility by means of RNases associated with S alleles   总被引：5，自引：0，他引：5  

N. Alburquerque    J. Egea    O. Pérez-Tornero  L. Burgos 《Plant Breeding》2002,121(4):343-347

In previous work the existence of proteins with RNase activity associated with S alleles in apricot was demonstrated. These proteins were inherited as described previously for the inheritance of self‐compatibility in this species. In this study, new cultivars have been genotyped for self‐compatibility using this method and it has been demonstrated that in all self‐compatible cultivars examined, the self‐compatibility allele is the same and is associated with an RNase with high activity. Homozygous self‐compatible individuals have been detected among established cultivars as well as among seedlings following breeding activity. This germplasm is of great value within the breeding programme because only self‐compatible seedlings will be produced. The number of S alleles in apricot appears to be low and only eight different alleles have been found in the large number of different cultivars screened. Furthermore, there are alleles present in the Spanish population that are also found in the genetic pool of North American cultivars. The screening of a progeny from the cross between the American cultivar ‘Goldrich’ and the Spanish cultivar ‘Pepito’ demonstrated the existence of the common allele S₂ (detected previously by examining RNases), which was confirmed by the segregation of self‐compatibility in the progeny.  相似文献   

Genotypic difference for the susceptibility of Japanese, Chinese and European pears to Venturia nashicola, the cause of scab on Asian pears     

K. Abe    T. Saito    O. Terai    Y. Sato    K. Kotobuki 《Plant Breeding》2008,127(4):407-412

Venturia nashicola, the cause of scab on Asian pears, is distinct from Venturia pirina, a causal fungus of European pear scab. Although scab caused by V. nashicola is one of the most serious diseases in the Japanese pear (Pyrus pyrifolia Nakai var. culta Nakai), information available regarding resistant breeding against V. nashicola is limited. In this study, 12 genotypes of Japanese pear, seven genotypes of Chinese pear (Pyrus ussuriensis Maxim.) and four genotypes of European pear (Pyrus communis L. var. sativa DC.) and/or their offspring were evaluated for susceptibility to V. nashicola with leaf and fruit inoculation tests. At 30–40 days after full bloom in their developmental stage, unfolded young leaves and fruit were inoculated with conidial suspensions of V. nashicola for each genotype, and the responses were rated at 30 days postinoculation for the inoculated leaves and at 42 days postinoculation for the inoculated fruits. No visible symptoms were found in European pear ‘Bartlett’ and ‘La France’ and their respective offspring ‘290‐36’ and ‘282‐12’, in the Japanese pear ‘Kinchaku’ and in the Chinese pears ‘Cangxili’ and ‘Hongli’; these genotypes were evaluated as highly resistant to V. nashicola. Necrotic lesions without sporulation were observed in the Chinese pears ‘Qiubaili’, ‘Manyuanxiang’, ‘Yuanbali’ and ‘Xiangyali’, which were regarded as resistant. Sporulating lesions were formed on the other genotypes, such as the major Japanese pear cultivars ‘Kosui’ and ‘Nijisseiki’, which were regarded as susceptible. The response of inoculated leaves coincided well with that of inoculated fruit for each genotype. When the severity of scab symptoms on scab‐susceptible genotypes was further rated with disease severity (DS) values, a genotypic difference was observed for overall DS values in a successive 2‐year measurement among the susceptible genotypes. Based on the DS values of leaf and fruit scabs, the Japanese pears ‘Niitaka’, ‘Shinko’, ‘Nijisseiki’, ‘Gold Nijisseiki’, ‘Osa Nijisseiki’ and ‘Shinsui’ were considered to be less susceptible to V. nashicola than the typical susceptible cultivar ‘Kosui’.  相似文献   

Near-infrared spectroscopy on combine harvesters to measure maize grain dry matter content and quality parameters     

J. M. Montes    H. F. Utz    W. Schipprack    B. Kusterer    J. Muminovic    C. Paul    A. E. Melchinger 《Plant Breeding》2006,125(6):591-595

Dry matter (DM) content and quality parameters of maize grain are important traits in breeding of maize hybrids. New developments in near‐infrared spectroscopy (NIRS) allow to determine DM content and product quality parameters directly on plot combine harvesters. The main objective of our study was to examine the potential of NIRS on combine harvester (NOCH) for determination of DM, crude protein (CP) and starch (ST) contents in maize grain. Plot combine harvesters equipped with spectrometers were used. Eleven locations were harvested in Europe during 2003 and 2004. The NOCH calibration models were developed with standard error of prediction (SEP) and coefficient of determination for validation (R) of 1.2% and 0.95 for DM, 0.3% and 0.88 for CP, and 1.0% and 0.79 for ST, respectively. NOCH is a promising technology for determination of DM, CP and ST contents of maize grain for breeding purposes, because it automates the assessment of each harvested plot, and the information for making selection decision is rapidly available to plan the next generation.  相似文献   

'Francolí', a late flowering almond cultivar re-classified as self-compatible     

M. López    M. Romero    F. J. Vargas    M. Mnejja    P. Arús    I. Batlle 《Plant Breeding》2005,124(5):502-506

To verify the compatibility behaviour of the almond cultivar ‘Francolí’ and to clarify its S genotype a combination of pollination tests, stylar ribonuclease and allele specific PCR analysis was used. ‘Francolí’ was released from IRTA's breeding programme in 1994, having been putatively raised from the cross ‘Cristomorto’ (S₁S₂) × ‘Gabaix’ (S₁₀S₂₅). This cultivar was also reported to be self‐incompatible but revealing only one S band in the zymograms after S‐RNases analysis. ‘Francolí’ sets nuts after test crossing with two S₁S₂₅ cultivars, having a different genotype from that earlier reported. ‘Francolí’ was also observed to be self‐compatible after selfing flowers in the field and in the laboratory. ‘Francolí’ was re‐assigned the S₁S_f genotype after test crossing, stylar ribonuclease and PCR data analysis. After microsatellite analysis, the self‐compatible ‘Tuono’ (S₁S_f) cultivar is suggested as the male parent of ‘Francolí’ instead of the earlier reported ‘Gabaix’.  相似文献   

Effect of Elevated CO2 and Temperature on Nitrogen Dynamics and Microbial Activity During Wheat (Triticum aestivum L.) Growth on a Subtropical Inceptisol in India     

R. Rakshit  A. K. Patra  D. Pal  M. ‐Kumar  R. Singh 《Journal of Agronomy and Crop Science》2012,198(6):452-465

Using phytotron growth chambers, a short‐term pot experiment under non‐limiting water condition was conducted to investigate the individual and interactive effects of elevated carbon dioxide (650 ± 10 μmol mol^?1 vs. ambient), temperature (3 °C above ambient vs. ambient) and different levels of urea–N (control, 100 % N and 200 % N of recommended dose) on growth and yields of wheat crop and changes in potential nitrogen mineralization (PNM), nitrification and denitrification activities, microbial biomass carbon (MBC), nitrogen (MBN), dissolved organic carbon (DOC), and nitrifying and denitrifying organisms in a semiarid Inceptisol. The plant parameters (root, shoot and grain) responded positively (10–23 %) to elevated CO₂ and negatively (?17 to ?38 %) to higher temperature. Interactive effect of elevated CO₂ and temperature caused a negligible impact on root, shoot (≈?5 %) and grain yields of wheat. Soil –N content was not affected, but –N was reduced significantly. Nitrate reductase activity was decreased by 14–20 % at elevated CO₂. There was positive effect of elevated temperature on PNM (+9–16 %), whereas negative effects were observed for potential nitrification activity (PNA), MBC, MBN and DOC. Elevation of atmospheric CO₂ or temperature did not affect the population of ammonia (AOB) and nitrite oxidizers (NOB), but elevation of CO₂ has decreased the population of denitrifiers by 4–14 %.  相似文献   

Genetic variation for sinapate ester content in winter rapeseed (Brassica napus L.) and development of NIRS calibration equations   总被引：1，自引：1，他引：0  

T. Zum Felde  A. Baumert    D. Strack    H. C. Becker    C. Möllers 《Plant Breeding》2007,126(3):291-296

Increasing the meal and protein quality of winter rapeseed (Brassica napus L.) for food and feed purposes is gaining importance in rapeseed breeding programmes. Rapeseed meal has a high content of phenolic acid esters, mainly sinapate esters, which have been shown to cause a dark colour and a bitter taste in rapeseed meal and derived protein products. The aim of the present study was to analyse the genetic variation for individual and total sinapate ester content, to develop Near Infrared Reflectance Spectroscopic (NIRS) calibrations, and to identify genotypes with a low sinapate ester content after testing in the field. The following sinapate esters were analysed by HPLC: sinapoylcholine (sinapine), sinapoylglucose, and a minor group of ‘other sinapate esters’ which includes free sinapate. A genotypically diverse set of seed samples of winter oilseed rape (old and new cultivars, breeding lines, resynthesized rapeseed) from different years and locations was collected, their NIRS spectra recorded and the samples were further analysed by HPLC. The complete NIRS calibration seed sample set (n = 575) showed a large variation in total sinapate ester content, ranging from 3.2 to 12.7 mg sinapate equivalents per g seeds. The NIRS calibration equations showed high fractions of explained variances in cross validation () ranging from 0.75 (other sinapate esters) to 0.85 (sinapoylglucose). The standard errors of cross validation (SECV) ranged from 0.38 (other sinapate esters) to 0.70 mg/g seed (total sinapate esters). In validation and in independent validations the predicted results were not always acceptable, indicating that the NIRS calibrations need to be extended by analysing samples from new populations. Following replicated field experiments, a doubled haploid line obtained from the old Dutch cultivar Mansholts’ Hamburger Raps, and related DH lines from the cross DH Mansholts’ × Express were confirmed to have a 30–40% lower sinapate ester content compared to check cultivars.  相似文献   

Characterization of an S-allele associated protein in Japanese pear   总被引：2，自引：0，他引：2  

Shin Hiratsuka 《Euphytica》1992,62(2):103-110

Summary This paper describes some characteristics of a stylar protein associated with the S₂ self-incompatibility allele (S₂-protein) in Japanese pear reported earlier (Hiratsuka, 1992). The term style refers to style plus stigma in this paper unless indicated otherwise.The S₂-protein, which is a relatively major component of styles with a pI of 6.5, was present only in the style, and the stigmatic zone involved the protein much higher in quantity than upper half of the style, followed by lower half. Molecular weight was assumed to be 24,000 judged from migration distance in sodium dodecyl sulfate (SDS) polyacrylamide gel. Immature styles from 8 to 4 days before anthesis also contained the protein though the amount was relatively small. Neither the heat treatment of prepollinated styles nor the pollination (compatible or incompatible) altered the pI value and staining concentration of S₂-protein in the gel. The protein did not have so strong ribonuclease (RNase) activity as reported in S-proteins of Nicotiana alata (McClure et al., 1989) and the RNase activities of extractable stylar proteins from self-incompatible strains were almost the same as those from self-compatible strains.Abbreviations CBB Coomassie Brilliant Blue - IEF-PAGE isoelectricfocusing polyacrylamide gel electrophoresis - RNase ribonuclease - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis  相似文献   

Heritability of early blight resistance in a Lycopersicon esculentum×Lycopersicon hirsutum cross estimated by correlation between parent and progeny     

M. R. Foolad  G. Y. Lin 《Plant Breeding》2001,120(2):173-177

Sixteen‐hundred BC₁ plants of a cross between an early blight (EB) susceptible tomato (Lycopersicon esculentum Mill.) breeding line (‘NC84173’ maternal and recurrent parent) and a resistant accession (‘PI126445’) of the tomato wild species Lycopersicon hirsutum Humb. and Bonpl. were grown in a field in 1998. This population was segregating (among other traits) for growth habit, self‐incompatibility and earliness in maturity. To eliminate confounding effects of these factors on disease evaluation and h² estimation, plants that were self‐incompatible, indeterminate and/or late‐maturing were eliminated. The remaining plants (146), which were self‐compatible and determinate (sp./sp.) in growth habit, with early‐ to mid‐season maturity, were evaluated for EB resistance and self‐pollinated to produce BC₁S₁ seed. The 146 BC₁S₁ progeny families, consisting of 30 plants per family, were grown in a replicated field trial in 1999 and evaluated for EB resistance and plant maturity. For each of the 146 BC₁ plants and corresponding BC₁ families, the area under the disease progress curve (AUDPC) and final disease severity (final percentage defoliation) were determined and used to measure disease resistance. The distributions of the AUDPC and final percentage defoliation values in the BC₁ and BC₁S₁ generations indicated that resistance from ‘PI126445’ was quantitative in nature. Estimates of h² for EB resistance, computed by correlation between BC₁S₁ progeny family means and BC₁ individual plant values, ranged from 0.69 to 0.70, indicating that EB resistance of ‘P1126445’ was heritable. Across BC₁S₁ families, a small, but significant, negative correlation (r = ‐0.26, P < 0.01) was observed between disease resistance and earliness in maturity. However, several BC₁S₁ families were identified with considerable EB resistance and reasonably early maturity. These families should be useful for the development of commercially acceptable EB‐resistant tomato lines.  相似文献   

Inheritance and allelic relationships of fertility restoration genes for seven new sources of male-sterile cytoplasm in sunflower   总被引：2，自引：0，他引：2  

C. C. Jan    B. A. Vick 《Plant Breeding》2007,126(2):213-217

The inheritance of fertility restoration of six mitomycin C and streptomycin‐induced cytoplasmic male‐sterile (cms) mutants and one cms line derived from Native American cultivar PI 432513 in sunflower was evaluated. These seven new cms sources were also compared with the commercially used cms PET1 (Helianthus petiolaris Nutt.) cytoplasm, using USDA inbred lines with restoration genes (Rf₁) specific for cms PET1 and new restoration lines identified for cms PI 432513. Restoration genes for cms PI 432513 were found in ‘Armavir’, VNIIMK, P21 and male‐fertile (MF) plants of PI 432513. F₂ and F₃ segregation ratios of crosses between cms PI 432513 and these restoration sources indicated a single dominant gene controlled fertility restoration. Progenies of cms PI 432513 testcrossed with F₁’s of half‐diallel crosses among the respective four homozygous restoration lines and RHA 274 suggested that the restoration genes of RHA 274, VNIIMK, P21 and PI 432513 were at the same locus. Restoration genes from VNIIMK, P21 and PI 432513 satisfactorily restored pollen stainability in the heterozygous condition. A very weak expression of the Rf gene in ‘Armavir’ was observed in the heterozygous condition. Fertility restoration capability of these genes for the six mutant cms HA 89 and cms HA 89 (in PET1 cytoplasm) was observed. The mutant cms HA 89 lines were also restored completely by RHA 266, RHA 274, RHA 280 and RHA 296, and F₂’s segregation ratios indicated single dominant gene control, implying a common cytoplasmic male sterility in all lines. F₁’s of half‐diallel crosses among RHA 266, RHA 273, RHA 274, RHA 280 and RHA 296 were testcrossed onto the cms lines, and their all MF progenies among lines, except RHA 280, confirmed that fertility restoration was controlled by a single Rf₁ gene locus. The restoration gene in confection line RHA 280, namely Rf₃, was at a different locus than Rf₁ and was equally capable of restoring all the cms lines. Cms HA 89 mutants and cms PI 432513 are in H. annuus cytoplasm, and are agronomically equal in hybrid performance to the cms PET1 used in commercial sunflower hybrids. These new cms lines will provide immediate alternative cms sources for reducing the genetic vulnerability resulting from the exclusive use of the single cms source PET1 in sunflower hybrid production.  相似文献   

Determination of incompatibility genotypes in almond using first and second intron consensus primers: detection of new S alleles and correction of reported S genotypes   总被引：1，自引：1，他引：1  

E. Ortega    B. G. Sutherland    F. Dicenta    R. Boskovic  K. R. Tobutt 《Plant Breeding》2005,124(2):188-196

The work aimed to develop a reliable and convenient PCR approach for determining incompatibility S genotypes in almond. Initially, genomic DNAs of 24 accessions of known S genotype were amplified with novel consensus primers flanking the first and second introns of the S‐RNase gene. The PCR products separated on agarose showed length polymorphisms and correlated well with the reference alleles S1‐S₂3 and Sf. In addition, to improve discrimination between alleles of similar sizes, the same sets of primers but fluorescently labelled were used, and the products sized on an automated sequencer. These fluorescent primers were particularly informative in the case of the first intron, variation in the length of which has not been used previously for S genotyping in almond. Some reference alleles showed the same patterns with first and second intron primers, and others showed a microsatellite‐like trace. Subsequently, the S genotypes of 26 cultivars not genotyped previously and of four of uncertain genotype were determined. An allele described in Australian work as putative S₁₀ was shown to be a ‘new’ allele and ascribed to S₂₄ and evidence of five more ‘new’S alleles was found, for which the labels S₂₅‐S₂₉ are proposed. This PCR approach should be useful for genotyping in other Prunus crops.  相似文献   

Early-bolting trait and RAPD markers in the specific monosomic addition line of radish carrying the e-chromosome of Brassica oleracea   总被引：1，自引：0，他引：1  

Y. Kaneko    S. W. Bang  Y. Matsuzawa 《Plant Breeding》2000,119(2):137-140

The specific monosomic addition line of radish, Raphanus sativus, carrying the e chromosome of Brassica oleracea (2n = 19, e‐type MAL) with the genetic background of the late‐bolting cv.‘Tokinashi’ was produced by successive backcrossing of the original e‐type MAL of radish that showed early bolting in the genetic background of the cv. ‘Shogoin’. The early‐bolting trait specific to the e‐type MAL was constantly expressed in the backcrossed progenies (BC₂, BC₃ and BC₄), whereas the reverted radish‐like plants (2n =18) were gradually converted to bolting as late as ‘Tokinashi’. The added e‐chromosome expressed an epistatic effect against the genome of Japanese radish. Its early‐bolting trait was dominant to the late‐bolting trait of ‘Tokinashi’ which may be under the control of a few genes. Moreover, e‐type specific RAPD markers detected in eight primers were invariably transmitted in the backcrossed progenies by ‘Tokinashi’. From the analysis of the characteristics to the e‐type MAL and e‐type specific RAPD markers, it is suggested that the e‐added chromosome of kale (B. oleracea) was transmitted from generation to generation without any recombination with the radish chromosome. The gene(s) for the early‐bolting trait detected in this study may be useful for breeding work in radish, especially in the tropical areas.  相似文献   

Early selection for extreme resistance to potato virus Y and tobacco etch virus in potato using a β-glucuronidase-tagged virus     

J. Hinrichs-Berger  H. Junghans  H. Buchenauer 《Plant Breeding》2000,119(4):319-323

The Ry_sto gene from Solanum stoloniferum introduced into potato cultivars (Solanum tuberosum L. ssp. tuberosum) confers resistance to potato virus A, potato virus V and potato virus Y (PVY). In addition to PVY, tobacco etch virus (TEV) and a TEV construct that encodes β‐glucuronidase (TEV‐GUS) were inoculated to determine the inheritance of resistance to these viruses in progenies obtained from potato cultivars containing the Ry_sto gene. While cultivars ‘Karlena’ and ‘Delikat’ were susceptible, ‘Bettina’ and clone 927eY were resistant to PVY, TEV and TEV‐GUS, as determined by enzyme linked immunosorbent assay, biotest and GUS assay, respectively. The segregation ratios obtained from the progenies of ‘Bettina’בDelikat’ and 816eY בKarlena’ indicate that resistances to PVY and TEV are governed by one dominant gene or two genes tightly linked in coupling phase. Evidently, Ry_sto confers broad spectrum resistance to potyviruses. TEV resistance could be reliably detected 4 days after inoculation with the TEV‐GUS construct by GUS assay. Therefore, the GUS‐tagged TEV construct can be used for early selection for resistances based on the gene Ry_sto or closely linked genes.  相似文献   

Incompatibility and resistance to woolly apple aphid in apple   总被引：1，自引：0，他引：1  

K. R. Tobutt  R. Bo&#;kovic  P. Roche 《Plant Breeding》2000,119(1):65-69

The study investigated the reported linkage of the locus for resistance to woolly apple aphid with the locus for incompatibility. Apple seedlings from the cross ‘Northern Spy’(heterozygous for resistance) בTotem’(susceptible) were scored for resistance, and for incompatibility genotype, by analysis of stylar ribonucleases, and for Got‐1, the isoenzyme marker for incompatibility. Cosegregation analysis provided no evidence that the loci for resistance and incompatibility are linked. Two rootstock cultivars,‘M9’and ‘Merton 789′, which in early work had been reported to give poor set in crosses with ‘Northern Spy’, were found to have the same incompatibility genotype as ‘Northern Spy’, namely S₁S₃.‘M4’and ‘Irish Peach’, two other cultivars that had given poor set when crossed on to ‘Northern Spy’, appeared to be homozygous at the incompatibility locus and to have the genotypes S₃S₃ and S₁S₁, respectively.  相似文献   

All hermaphrodite progeny are derived by self-pollinating the sunrise papaya mutant     

C. Chan-Tai  C.-R. Yen    L.-S. Chang    C.-H. Hsiao  T.-S. Ko  W. E. Weber 《Plant Breeding》2003,122(5):431-434

Self‐pollination of a hermaphroditic cultivar normally gives a ratio of 2 : 1 hermaphrodite to female papayas with genotypes M₂m and mm, respectively. Much effort has been dedicated to marking the sexual types of papaya at the seedling stage to distinguish hermaphroditic from female papayas. A hermaphroditic papaya mutant (SR*) has been obtained, derived from the ‘Sunrise’ papaya cultivar mutant. Self‐pollination of the mutant resulted in all progenies being hermaphroditic. The genotype of the female was lethal, as a result of a lethal gene being linked to the mm female gene complex in this case. However, a 3 : 1 segregation ratio was obtained from the progeny of the hermaphroditic cultivar ‘Thailand’ crossed with SR*, indicating that all genotypes survived. Homozygous genotypes (M₂M₂) would be lethal according to Storey's model. Randomly selected F1 plants of the ‘Thailand’ SR* combination were self‐pollinated to obtain an F₂ generation. The F₂ segregation ratio suggested that the SR* mutant had a different form of the M₂ allele, now designated as M_@, which allowed the dominant M_@M₂ to survive in cross combinations. Genetic study has proved that SR* has the M_@ml genotype, a new mutant. It is capable of producing all hermaphroditic papaya progenies.  相似文献