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31.
Catherine Marie Breton Daniela Farinelli Sarfraz Shafiq John Seymour Heslop-Harrison Margaret Sedgley André Jean Bervillé 《Tree Genetics & Genomes》2014,10(4):1055-1067
The self-incompatibility type is of key importance to understanding pollination in orchards, because most olive cultivars are partially self-incompatible and thus require pollinizers to ensure fruit set. The gametophytic model has been advocated to function in the olive, but no allele pair has been attributed to any variety. The GSI model failed in most combinations to explain fruit set. Olive growers must screen experimentally and empirically to look for inter-compatible pair-wise combinations of varieties for optimum pollination. The sporophytic model, with given dominance relationships for six S-alleles matches 98 % of the experimental data of the two sets investigated. We propose a method to analyze data from controlled crosses between olive cultivars applied to two experiments for varieties crossed in a diallel design. Furthermore, the dominance between the S-allele pair allows rational prediction of olive variety self-incompatibility levels. The S-allele pairs were unraveled for more than 60 cultivars. To go further, crosses between reference varieties—those in which the S-allele pair was unraveled—and varieties under experimentation (VarE) with an unknown S-allele pair will enable an increase in knowledge and the choice of the best pollinizers in silico. Nevertheless, we pose outstanding questions in orchards where open-pollination efficiency with varieties harboring the R2R3, R1R3, R1R5, or R3R5 pairs. These S-allele pairs require pollen grains without R2 or R3 , R1 or R3, and R3 or R5 determinants. Such pollinizer varieties are not abundant in France and Italy, and this questions whether their spread is sufficient for optimal pollination of main varieties. 相似文献
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S. Taketa H. Ando K. Takeda G. E. Harrison J. S. Heslop-Harrison 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2000,100(2):169-176
The genomic organization and chromosomal distributions of two abundant tandemly repeated DNA sequences, dpTa1 and pSc119.2,
were examined in six wild Hordeum taxa, representing the four basic genomes of the genus, by Southern and fluorescence in situ hybridization. The dpTa1 probe
hybridized to between 30 and 60 sites on the chromosomes of all five diploid species studied, but hybridization patterns differed
among the species. Hybridization of the pSc119.2 sequence to the chromosomes and Southern blots of digested DNA detected signals
in Hordeum bulbosum, Hordeum chilense, Hordeum marinum and Hordeum murinum 4x, but not in Hordeum murinum 2x and Hordeum vulgare ssp. spontaneum. A maximum of one pSc119.2 signal was observed in the terminal or subterminal region of each chromosome arm in the species
carrying this sequence. The species carrying the same I-genome differed in the presence (Hordeum bulbosum) or absence (Hordeum spontaneum) of pSc119.2. The presence of pSc119.2 in the tetraploid cytotype of Hordeum murinum, but its absence in the diploid cytotype, suggests that the tetraploid is not likely to be a simple autotetraploid of the
diploid. Data about the inter- and intra-specific variation of the two independent repetitive DNA sequences give information
about both the interrelationships of the species and the evolution of the repetitive sequences.
Received: 17 March 1999 / Accepted: 16 June 1999 相似文献
34.
Chromosomal Variation in Crocus vernus Hill (Iridaceae) Investigated by in situ Hybridization of rDNA and a Tandemly Repeated Sequence 总被引:2,自引:0,他引:2
The physical localization of three tandemly-organized repetitiveDNA sequences was investigated byin situ hybridization to metaphasechromosomes of 11 Crocus vernus accessions. The sequences includedwere the 18S25S rDNA, the 5S rDNA and a tandemly-repeatedsequence cloned from C. vernus(clone pCvKB8). Ten 2n = 8 karyotypesfrom accessions ranging across the Alps and the Pyrenees couldbe interpreted as variations of a standard karyotype. Polymorphismswere found involving size of the satellite chromosomes, extra5S rDNA sites, and extensive differences in size and numberof pCvKB8 loci. The 2 n = 16 type did not correspond to anypossible tetraploid derived from the 2 n = 8 types. Copyright2000 Annals of Botany Company Evolution, phylogeny, Crocus vernus Hill (Iridaceae), in situ hybridization, chromosomal polymorphism, karyotype evolution, repetitive DNA 相似文献
35.
A. Castilho T. E. Miller J. S. Heslop-Harrison 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,93(5-6):816-825
Aegilops umbellulata Zhuk. carries genes at Glu-U1 loci that code for a pair of high-molecular-weight glutenin subunits not found in common wheat, Triticum aestivum. Wheat-Ae. umbellulata recombinant lines were produced with the aim of transferring genes coding for glutenin subunits from Ae. umbellulata into wheat with minimal flanking material. We used fluorescent genomic in situ hybridization to evaluate the extent of recombination and to map physically the translocation breakpoints on 11 wheat-Ae. umbellulata recombinant lines. In situ hybridization was able to identify alien material in wheat and showed breakpoints not only near the centromeres but also along chromosome arms. To characterize and identify chromosomes further, including deletions along the 1U chromosome, we used simultaneous multiple target in situ hybridization to localize a tandemly repeated DNA sequence (pSc119.2) and the 18S–25S and 5S rRNA genes. One line contained an Ae. umbellulata telocentric chromosome and another two had different terminal deletions, mostly with some wheat chromosome rearrangements. Although from six independent original crosses, the other eight lines included only two types of intercalary wheat-Ae. umbellulata recombination events. Five occurred at the 5S rRNA genes on the short arm of the Ae. umbellulata chromosome with a distal wheat-origin segment, and three breakpoints were proximal to the centromere in the long arm, so most of the long arm was of Ae. umbellulata origin. The results allow characterization of recombination events in the context of the karyotype. They also facilitate the design of crossing programmes to generate lines where smaller Ae. umbellulata chromosome segments are transferred to wheat with the potential to improve bread-making quality by incorporating novel glutenin subunits without undesirable linked genes. 相似文献
36.
I. Galasso T. Schmidt D. Pignone J. S. Heslop-Harrison 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1995,91(6-7):928-935
A knowledge of genome organization is important for understanding how genomes function and evolve, and provide information likely to be useful in plant breeding programmes involving hybridization and genetic manipulation. Molecular techniques, including in situ hybridization, molecular cloning and DNA sequencing, are proving valuable tools to investigate the structure, organization, and diversity of chromosomes in agricultural crops. Heterologous labelled 18 s-5.8 s-25 s (pTa71) and 5 s rDNAs (pTa794) were used for in situ hybridization on Vigna unguiculata (L.) Walp. chromosomes. Hybridization with 18 s-5.8 s-25 s rRNA gene probes occurred at the same chromosomal sites which were positive to the CMA fluorochrome. Silver staining of nucleolar-organizing regions indicated that all the rDNA sites detected using the 18 s-5.8 s-25 s rRNA gene probe possessed active genes. Degenerate telomeric repeats gave hybridization signals at the telomeres of most chromosomes and no intercalary sites were detected at metaphase; the sequences appear to have no preferential distribution in interphase nuclei. A repetitive DraI family from V. unguiculata was cloned (pVuKB1) and characterized. The DraI repeat is 488 nucleotides long, AT rich (74%), and hybridized on all chromosomes in the centromeric areas. The presence of this sequence family was investigated by Southern hybridization in different Vigna species and other Leguminoseae. It was only detected in V. unguiculata, and hence represents a species-specific DNA sequence. 相似文献
37.
Sybille Kubis John Seymour Heslop-Harrison Thomas Schmidt 《Journal of molecular evolution》1997,44(3):310-320
Members of a highly abundant restriction satellite family have been isolated from the wild beet species Beta nana. The satellite DNA sequence is characterized by a conserved RsaI restriction site and is present in three of four sections of the genus Beta, namely Nanae, Corollinae, and Beta. It was not detected in species of the evolutionary old section Procumbentes, suggesting its amplification after separation of this section. Sequences of eight monomers were aligned revealing a size
variation from 209 to 233 bp and an AT content ranging from 56.5% to 60.5%. The similarity between monomers in B. nana varied from 77.7% to 92.2%. Diverged subfamilies were identified by sequence analysis and Southern hybridization. A comparative
study of this repetitive DNA element by fluorescent in situ hybridization and Southern analyses in three representative species
was performed showing a variable genomic organization and heterogeneous localizations along metaphase chromosomes both within
and between species. In B. nana the copy number of this satellite, with some 30,000 per haploid genome, is more than tenfold higher than in Beta lomatogona and up to 200 times higher than in Beta vulgaris, indicating different levels of sequence amplification during evolution in the genus Beta. In sugar beet (B. vulgaris), the large-scale organization of this tandem repeat was examined by pulsed-field gel electrophoresis. Southern hybridization
to genomic DNA digested with DraI demonstrated that satellite arrays are located in AT-rich regions and the tandem repeat is a useful probe for the detection
of genetic variation in closely related B. vulgaris cultivars, accessions, and subspecies.
Received: 24 May 1996 / Accepted: 13 September 1996 相似文献
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