Genomic characterization of self-incompatibility ribonucleases (S-RNases) in loquat (Eriobotrya japonica Lindl.) (Rosaceae, Pyrinae)

Loquat (Eriobotrya japonica Lindl.) is a fruit tree species of the Pyrinae subtribe of the Rosaceae that behaves as self incompatible. Since self-incompatibility in the Rosaceae is of the gametophytic type where a stylar ribonuclease (S-RNase) controls the female function of pollen–pistil recognition, consensus primers derived from the alignment of S-RNase sequences from other Pyrinae species were used to search for S-RNases in loquat. As a result, the first four S-RNases were sequenced for this species. The genomic sequences obtained showed the structural features of Pyrinae S-RNases. Moreover, microscopic observations of pollen tube growth in the style confirmed the inter-(in)compatibility relationships predicted from the molecular analyses. Phylogenetic analysis of the deduced amino acid sequences with other Pyrinae S-RNases confirmed that divergence of S-alleles in loquat and the Pyrinae predated speciation. This study reports for the first time the genomic characterization of S-RNases in loquat, providing a sound basis for an appropriate selection of pollinator cultivars and an adequate design of breeding programs.     

Development of a CAPS marker system for genotyping European pear cultivars harboring 17 <Emphasis Type="Italic">S</Emphasis> alleles

The full-length cDNAs of eight S ribonucleases (S-RNases) were cloned from stylar RNA of European pear cultivars that could not be characterized by the cleaved amplified polymorphic sequences (CAPS) marker system for genotyping European pear cultivars harboring nine S alleles Sa, Sb, Sd, Se, Sh, Sk, Sl, Sq, and Sr. Comparison of the nucleotide sequences between these cDNAs and six putative S-RNase alleles previously amplified by genomic PCR revealed that five corresponded to the putative Sc-, Si-, Sm-, Sn-, and Sp-RNase alleles and the other three corresponded new S-RNase alleles (designated as putative Sg-, Ss-, and St-RNase alleles). Genomic PCR with a new set of primers was used to amplify 17 S-RNase alleles: 1906 bp (Sg), 1642 bp (St), 1414 bp (Sl), ca. 1.3 kb (Sk and Sq), 998 bp (Se), 440 bp (Sb), and ca. 350 bp (Sa, Sc, Sd, Sh, Si, Sm, Sn, Sp, Sr, and Ss). Among them, S-RNase alleles of similar size were discriminated by digestion with 11 restriction endo-nucleases. The PCR amplification of 17 S-RNase alleles following digestion with the restriction endonucleases provided a new CAPS marker system for rapid S-genotyping of European pear cultivars harboring 17 S alleles. Using the CAPS analysis, Sc, Sg, Si, Sm, Sn, Sp, Ss, and St alleles were found in 32 cultivars, which were classified into 23 S-genotypes.     

PCR detection of transcripts homologous to the self-incompatibility gene in anthers ofBrassica

The polymerase chain reaction (PCR) is particularly well suited for the detection of rare sequences. Taking advantage of the recent isolation of sequences associated with stigma self-incompatibility inBrassica oleracea, we used PCR amplifications with primers synthesized to the S6 cDNA sequence, to demonstrate the presence of mRNA homologous to stigmaS-locus gene (SLG) in anthers during early microsporogenesis. In addition, otherS-locus-related (SLR) sequences were shown to be transcribed in sexual as well as in vegetative tissues (roots, leaves), suggesting that the SLG family might be involved not only in pollen-stigma recognition, but more generally in various forms of plant cell signalling processes. This information corroborates the recent discovery of a cDNA-deduced protein kinase from maize roots, whose extracellular receptor displays high homology withBrassica S-locus-specific glycoproteins.Communicated by H.F. Linskens     

Pistil-function breakdown in a new <Emphasis Type="Italic">S</Emphasis>-allele of European pear, <Emphasis Type="Italic">S</Emphasis><Subscript><Emphasis Type="Italic">21</Emphasis></Subscript>°, confers self-compatibility

European pear exhibits RNase-based gametophytic self-incompatibility controlled by the polymorphic S-locus. S-allele diversity of cultivars has been extensively investigated; however, no mutant alleles conferring self-compatibility have been reported. In this study, two European pear cultivars, ‘Abugo’ and ‘Ceremeño’, were classified as self-compatible after fruit/seed setting and pollen tube growth examination. S-genotyping through S-PCR and sequencing identified a new S-RNase allele in the two cultivars, with identical deduced amino acid sequence as S ₂₁ , but differing at the nucleotide level. Test-pollinations and analysis of descendants suggested that the new allele is a self-compatible pistil-mutated variant of S ₂₁ , so it was named S ₂₁ °. S-genotypes assigned to ‘Abugo’ and ‘Ceremeño’ were S ₁₀ S ₂₁ ° and S ₂₁ °S ₂₅ respectively, of which S ₂₅ is a new functional S-allele of European pear. Reciprocal crosses between cultivars bearing S ₂₁ and S ₂₁ ° indicated that both alleles exhibit the same pollen function; however, cultivars bearing S ₂₁ ° had impaired pistil-S function as they failed to reject either S ₂₁ or S ₂₁ ° pollen. RT-PCR analysis showed absence of S ₂₁ °-RNase gene expression in styles of ‘Abugo’ and ‘Ceremeño’, suggesting a possible origin for S ₂₁ ° pistil dysfunction. Two polymorphisms found within the S-RNase genomic region (a retrotransposon insertion within the intron of S ₂₁ ° and indels at the 3′UTR) might explain the different pattern of expression between S ₂₁ and S ₂₁ °. Evaluation of cultivars with unknown S-genotype identified another cultivar ‘Azucar Verde’ bearing S ₂₁ °, and pollen tube growth examination confirmed self-compatibility for this cultivar as well. This is the first report of a mutated S-allele conferring self-compatibility in European pear.     

Allele-specific PCR detection of sweet cherry self-incompatibility (S) alleles S1 to S16 using consensus and allele-specific primers

PCR-based identification of all 13 known self-incompatibility (S) alleles of sweet cherry is reported. Two pairs of consensus primers were designed from our previously published cDNA sequences of S₁ to S₆ S-RNases, the stylar components of self-incompatibility, to reveal length variation of the first and the second introns. With the exception of the first intron of S₁₃, these also amplified S₇ to S₁₄ and an allele previously referred to as S_x, which we now label S₁₆. The genomic PCR products were cloned and sequenced. The partial sequence of S₁₁ matched that of S₇ and the alleles were shown to have the same functional specificity. Allele-specific primers were designed for S₇ to S₁₆, so that allele-specific primers are now available for all 13 S alleles of cherry (S₈, S₁₁ and S₁₅ are duplicates). These can be used to distinguish between S alleles with introns of similar size and to confirm genotypes determined with consensus primers. The reliability of the PCR with allele-specific primers was improved by the inclusion of an internal control. The use of the consensus and allele-specific primers was demonstrated by resolving conflicting genotypes that have been published recently and by determining genotypes of 18 new cherry cultivars. Two new groups are proposed, Group XXIII (S₃S₁₆), comprising 'Rodmersham Seedling' and 'Strawberry Heart', and Group XXIV (S₆S₁₂), comprising 'Aida' and 'Flamentiner'. Four new self-compatibility genotypes, S₃S₃, S₄S₆, S₄S₉ and S₄S₁₃, were found. The potential use of the consensus primers to reveal incompatibility alleles in other cherry species is also demonstrated.Communicated by H.F. Linskens     

Adventitious shoot regeneration from in vitro leaves of several pear cultivars (Pyrus communis L.)

An efficient adventitious shoot regeneration system was developed for pear (Pyrus communis L.), using leaves from in vitro proliferating shoots. Under optimal conditions, bud regeneration frequencies of Comice, Passe-Crassane, Williams and Conference ranged from 60% to 97%, with the mean number of shoots per regenerating leaf ranging from 3.2 to 6.6. Despite the great variability in responses of the different cultivars, in general an initial dark exposure of at least 20 days was required. Ammonium and total nitrogen proved to play an essential role: intermediate NH₄ ⁺ concentrations were suitable for regeneration. The balance between NH₄ ⁺ and NO₃ ^- also influenced regeneration; optimal regeneration occured on media with a 1:3 NH₄ ⁺/NO₃ ^- ratio. TDZ at 1 M was less efficient than higher concentrations, whatever the NAA level. Finally, length and growth regulator composition of the two phases (induction and expression) influenced the regeneration rate of Conference.Abbreviations BA 6-benzyladenine - EDFS ethylenediamine-tetraacetic acid ferric-sodium salt - IBA 4-indole-3yl-butyric acid - NAA -naphthaleneacetic acid - TDZ thidiazuron (N-phenyl-N-1,2,3-thidiazol-5-ylurea)     

Cloning and characterization of genomic DNA sequences of four self-incompatibility alleles in sweet cherry (<Emphasis Type="Italic">Prunus avium</Emphasis> L.)

Gametophytic self-incompatibility (GSI) in sweet cherry is determined by a locus S with multiple alleles. In the style, the S-locus codifies for an allele-specific ribonuclease (S-RNase) that is involved in the rejection of pollen that carries the same S allele. In this work we report the cloning and genomic DNA sequence analysis including the 5 flanking regions of four S-RNases of sweet cherry (Prunus avium L., Rosaceae). DNA from the cultivars Ferrovia, Pico Colorado, Taleguera Brillante and Vittoria was amplified through PCR using primers designed in the conserved sequences of sweet cherry S-RNases. Two alleles were amplified for each cultivar and three of them correspond to three new S-alleles named S ₂₃ , S ₂₄ and S ₂₅ present in 'Pico Colorado', 'Vittoria' and 'Taleguera Brillante' respectively. To confirm the identity of the amplified fragments, the genomic DNA of these three putative S-RNases and the allele S ₁₂ amplified in the cultivar Ferrovia were cloned and sequenced. The nucleotide and deduced amino-acid sequences obtained contained the structural features of rosaceous S-RNases. The isolation of the 5-flanking sequences of these four S-RNases revealed a conserved putative TATA box and high similarity among them downstream from that sequence. However, similarity was low compared with the 5-flanking regions of S-RNases from the Maloideae. S ₆ - and S ₂₄ -RNase sequences are highly similar, and most amino-acid substitutions among these two RNases occur outside the rosaceous hypervariable region (RHV), but within another highly variable region. The confirmation of the different specificity of these two S-RNases would help elucidate which regions of the S-RNase sequences play a role in S-pollen specific recognition.Communicated by H.F. Linskens     

Light effects on in vitro rooting of pear cultivars of different rhizogenic ability

The effect of varying light regimes on in vitro rooting of microcuttings of two pear (Pyrus communis L.) cultivars was investigated. Cultures of the easy to-root Conference and the difficult-to-root Doyenne d'Hiver were incubated for 21 days with or without indole-3-butyric acid (IBA) in the medium in darkness or under continuous far-red (8 µmol m^–2 s^–1), blue, white or red (15 or 36 µmol m^–2 s^–1) light. Conference rooted without IBA when exposed to red, blue or white light while no rooting was observed under far-red light and in darkness. The high rooting efficiency under red and, by contrast, the inhibition under far-red light and darkness suggest the involvement of the phytochrome system in rhizogenesis. The addition of IBA to the culture medium enhanced root production under all light regimes in both cultivars. Red light, especially at the lower photon fluence rate, had a positive effect by increasing root extension (number × length of roots) and stimulating secondary root formation.Abbreviations IBA Indole-3-butyric acid - R red light - B blue light - FR far-red light - W white light - D darkness - P_fr active (far-red light absorbing) form of phytochrome - P_tot total phytochrome - BA benzyl-adenine     

Identifying QTLs for fire-blight resistance via a European pear (<Emphasis Type="Italic">Pyrus communis</Emphasis> L.) genetic linkage map

The existence of different levels of susceptibility to fire blight (Erwinia amylovora) in European pear (Pyrus communis L.) cultivars suggests that it is possible to identify QTLs related to resistance in pear germplasm. Given the polygenic nature of this trait, we designed two genetic maps of the parental lines 'Passe Crassane' (susceptible) and 'Harrow Sweet' (resistant) using SSRs, MFLPs, AFLPs, RGAs and AFLP-RGAs markers. RGA-related markers should theoretically map in chromosome regions coding for resistance genes. The 'Passe Crassane' map includes 155 loci, for a total length of 912 cM organised in 18 linkage groups, and the 'Harrow Sweet' map 156 loci, for a total length of 930 cM divided in 19 linkage groups; both maps have a good genome coverage when compared to the more detailed apple maps. Four putative QTLs related to fire blight resistance were identified in the map. A suite of molecular markers, including two AFLP-RGAs, capable of defining resistant and susceptible haplotypes in the analysed population was developed.     

Self-(in)compatibility of the almonds P. dulcis and P. webbii: detection and cloning of 'wild-type Sf ' and new self-compatibility alleles encoding inactive S-RNases

Prunus dulcis, the almond, is a predominantly self-incompatible (SI) species with a gametophytic self-incompatibility system mediated by S-RNases. The economically important allele S _f , which results in self-compatibility in P. dulcis, is said to have arisen by introgression from Prunus webbii in the Italian region of Apulia. We investigated the range of self-(in)compatibility alleles in Apulian material of the two species. About 23 cultivars of P. dulcis (14 self-compatible (SC) and nine SI) and 33 accessions of P. webbii (16 SC, two SI and 15 initially of unknown status), all from Apulia, were analysed using PCR of genomic DNA to amplify S-RNase alleles and, in most cases, IEF and staining of stylar protein extracts to detect S-RNase activity. Some amplification products were cloned and sequenced. The allele S _f was present in nearly all the SC cultivars of P. dulcis but, surprisingly, was absent from nearly all SC accessions of P. webbii. And of particular interest was the presence in many SI cultivars of P. dulcis of a new active allele, labelled S ₃₀ , the sequence of which showed it to be the wild-type of S _f so that S _f can be regarded as a stylar part mutant S ₃₀ °. These findings indicate S _f may have arisen within P. dulcis, by mutation. One SC cultivar of P. dulcis, ‘Patalina’, had a new self-compatibility allele lacking RNase activity, S _n5 , which could be useful in breeding programmes. In the accessions of P. webbii, some of which were known to be SC, three new alleles were found which lacked RNase activity but had normal DNA sequences.     

Recent developments in the molecular genetics and biology of self-incompatibility

A summary of recent work on molecular aspects of self-incompatibility in Nicotiana alata is presented. The amino acid sequences of style proteins corresponding to different S-alleles of N. alata have a high level of homology in some regions and are variable in other regions. The regions of homology include N-terminal sequences as well as most of the glycosylation sites and cysteine residues. The glycosyl substituents may consist of a number of glycoforms. The isolated style S-glycoproteins inhibit in vitro growth of pollen tubes. The S-glycoproteins tested inhibited the growth of pollen of several S-genotypes, and there was some specificity in the interaction. Heat treatment of the isolated S-glycoproteins dramatically increased their activity as inhibitors of pollen tube growth, although the specificity in the interaction was lost. The nature of the S-allele products in pollen is not yet established.     

Flavonoid genes of pear (<Emphasis Type="Italic">Pyrus communis</Emphasis>)

Pear (Pyrus sp.) is a major fruit crop of temperate regions with increasing extent of cultivation. Pear flavonoids contribute to its fruit color, pathogen defense, and are health beneficial ingredients of the fruits. Comparative Southern analyses with apple (Malus x domestica) cDNAs showed comparable genomic organization of flavonoid genes of both related genera. A homology-based cloning approach was used to obtain the cDNAs of most enzymes of the main flavonoid pathway of Pyrus: phenylalanine ammonia lyase, chalcone synthase, chalcone isomerase, flavanone 3β-hydroxylase, flavonol synthase, dihydroflavonol 4-reductase, leucoanthocyanidin reductase 1 and 2, anthocyanidin synthase, anthocyanidin reductase, and UDP-glucose : flavonoid 7-O-glucosyltransferase. The substrate specificities of the recombinant enzymes expressed in yeast were determined for physiological and non-physiological substrates and found to be in general agreement with the characteristic pear flavonoid metabolite pattern of mainly B-ring dihydroxylated anthocyanins, flavonols, catechins, and flavanones. Furthermore, significant differences in substrate specificities and gene copy numbers in comparison to Malus were identified. Cloning of the cDNAs and studying the enzymes of the Pyrus flavonoid pathway is an essential task toward a comprehensive knowledge of Pyrus polyphenol metabolism. It also elucidates evolutionary patterns of flavonoid/polyphenol pathways in the Rosaceae, which allocate several important crop plants.     

Style proteins of a wild tomato (Lycopersicon peruvianum) associated with expression of self-incompatibility

The identification, isolation and aminoterminal sequencing of two S-genotype-associated proteins from style extracts of Lycopersicon peruvianum Mill. is reported. There is a high level of homology between these two sequences and with the amino-terminal sequences of other S-allele-associated glycoproteins isolated from Nicotiana alata Link et Otto. These sequences were obtained by a new high-sensitivity method of selected twodimensional gel analysis followed by electroelution and purification of proteins by inverse-gradient high-performance liquid chromatography before sequencing.Abbreviations HPLC high-performance liquid chromatography - Mr relative molecular mass - PTH phenylthiohydrantoin - SDS sodium dodecyl sulphate     

Genetic mapping and molecular characterization of the self-incompatibility (S) locus in Petunia inflata

Gametophytic self-incompatibility (SI) possessed by the Solanaceae is controlled by a highly polymorphic locus called the S locus. The S locus contains two linked genes, S-RNase, which determines female specificity, and the as yet unidentified pollen S gene, which determines male specificity in SI interactions. To identify the pollen S gene of Petunia inflata, we had previously used mRNA differential display and subtractive hybridization to identify 13 pollen-expressed genes that showed S -haplotype-specific RFLP. Here, we carried out recombination analysis of 1205 F2 plants to determine the genetic distance between each of these S -linked genes and S-RNase. Recombination was observed between four of the genes (3.16, G211, G212, and G221) and S-RNase, whereas no recombination was observed for the other nine genes (3.2, 3.15, A113, A134, A181, A301, G261, X9, and X11). A genetic map of the S locus was constructed, with 3.16 and G221 delimiting the outer limits. None of the observed crossovers disrupted SI, suggesting that all the genes required for SI are contained in the chromosomal region defined by 3.16 and G221. These results and our preliminary chromosome walking results suggest that the S locus is a huge multi-gene complex. Allelic sequence diversity of G221 and 3.16, as well as of 3.2, 3.15, A113, A134 and G261, was determined by comparing two or three alleles of their cDNA and/or genomic sequences. In contrast to S-RNase, all these genes showed very low degrees of allelic sequence diversity in the coding regions, introns, and flanking regions.     

Isolation and partial characterization of components of Prunus avium L. styles,including an antigenic glycoprotein associated with a self-incompatibility genotype

Several components of buffer extracts of Prunus avium L. styles (cv. Lambert, S ₃ S ₄) have been isolated and partially characterized: the major component is a glycoprotein (molecular weight approx. 90,000; 95% protein, 5.4% carbohydrate). A sticky uronic-acid-containing component and an arabinogalactan are also present. Two minor components are an antigenic glycoprotein associated with the self-incompatibility genotype (Antigen S) and a component found in styles of all Prunus species (Antigen P). The isolated glycoproteins have a substantial carbohydrate content (Antigen P 17.2%; Antigen S 16.3%), and have apparent molecular weights of 32,000 (Antigen P) and 37,000–39,000 (Antigen S). They are antigenically quite distinct. Material corresponding to Antigen S is secreted into the medium of suspension-cultured callus cells raised from both leaf and stem of P. avium.Abbreviations DEAE diethylaminoethyl - SDS-PAGE sodium dodecylsulphate-polyacrylamide gel electrophoresis     

Genomic characterization of self-incompatibility ribonucleases in the Central Asian pear germplasm and introgression of new alleles from other species of the genus Pyrus

The Pyrus species exhibit the so-called S-RNase-based gametophytic self-incompatibility system, which is considered to be the most widespread self-incompatibility system among flowering plants. In this study, 57 Iranian pear (Pyrus communis L.) domestic cultivars and wild genotypes, plus 21 European pear cultivars used as references, were genotyped adopting a PCR-based genotyping assay using consensus and allele-specific primers. The results revealed traces of significant genetic contribution in the Iranian traditional varieties and genotypes from other Pyrus species; the genetic contribution of Japanese pear clearly emerged with the detection of some Pyrus pyrifolia S-RNase alleles. Moreover, our results highlighted the presence of three new S-RNase alleles (named S₁₂₆, S₁₂₇, and S₁₂₈) that were not previously identified in P. communis, possibly introduced in the germplasm of cultivated pear through gene transfer from other cultivated or wild species.     

Development of an Agrobacterium-mediated transformation method for pear (Pyrus communis L.) with leaf-section and axillary shoot-meristem explants

We have developed a new Agrobacterium-mediated transformation method for the low-frequency-regenerating pear (Pyrus communis L.) cvs. Silver bell and La France. Leaf sections derived from in vitro shoots were initially used for the transformation procedure. Under optimum transformation conditions, which included culture and selection on 30 mg/l kanamycin (Km) combined with 500 mg/l sulbenicillin, a 3.2% transformation efficiency was obtained for cv. Silver bell, but no transformants of La France were obtained because of the very low regeneration frequency. Axillary shoot meristems were then examined as potential explants for La France. Selection in 5 mg/l Km and 375 mg/l carbenicillin resulted in transformed shoots being produced at an efficiency of 4.8%, and the apparent white Km-sensitive shoots were not formed during a 2-year subculture on micropropagation medium containing 50 mg/l Km. Therefore, transformations using axillary shoot meristems may be an alternative method for pear cultivars recalcitrant to regeneration from leaf sections.     

Rhizogenesis in callus from Conference pear (Pyrus communis L.) protoplasts

Large numbers (ca 6×10⁶ protoplasts/g f.wt) of viable (80%) protoplasts were isolated from embryo-callus tissues of Conference pear using an enzyme mixture which contained 2.0% (w/v) Meicelase, 2.0% (w/v) Rhozyme HP-150 and 0.03% (w/v) Macerozyme R-10. A medium based on ammonium-free MS salts and supplemented with 2.0 mg/l NAA, 0.5 mg/l BAP and 9% (w/v) mannitol supported protoplast division and the proliferation of multicellular colonies. Colonies were taken to the callus stage on a medium which contained MS salts plus 0.1 mg/l 2,4-D and 0.1 mg/l BAP. Roots were regenerated from these protoplastderived calli on MS medium with 0.1 mg/l NAA, 5.0 mg/l BAP and 50 mg/l casein hydrolysate.Abbreviations BAP 6-benzylaminopurine - CPW13M CPW salts medium [15] with 13% (w/v) mannitol - FDA fluorescein diacetate, f. wt-fresh weight - MS Murashige and Skoog [14] - NAA -naphthaleneacetic acid - PE plating efficiency (%) - 2,4-D 2,4-dichlorophenoxyacetic acid