Characterisation of microsatellites from Actinidia chinensis

We have identified a set of informative microsatellite markers for genome analysis in kiwifruit and related Actinidia species. A small-insert genomic library was constructed from Actinidia chinensis DNA, and screened for microsatellites. About 1.2% of the total colonies hybridised to a (GA)₈ probe, 0.4% to (GT)₈, and 0.1% to a mixture of three different trinucleotide repeat probes, (CAA)₅, (GAA)₅ and (CTA)₅. From the DNA sequences of 35 hybridising clones, 18 primer pairs were designed, and used to amplify genomic DNA from 38 individual plants, representing 30 different accessions of ten Actinidia species. The banding patterns for most of the dinucleotide repeats showed a high degree of polymorphism in the diploid and tetraploid A. chinensis, and in the hexaploid A. deliciosa (kiwifruit). Heterozygosity levels of up to 100% were found among eight diploid accessions of A. chinensis examined, and the number of different-sized bands among all the species varied from 3 to 36 for each microsatellite. One simple CT microsatellite gave 21 bands with sizes suggesting that the number of repeats ranged from 9 to 37. The highest number of bands (36) and the largest size variation (>100 bp) were observed with a complex microsatellite harbouring four different repeat motifs. The majority of primer pairs amplified bands from most of the ten Actinidia species tested. The most polymorphic primer pairs were used successfully to fingerprint a range of closely related varieties of kiwifruit (A. deliciosa).Abbreviations PCR polymerase chain reaction - RFLP restriction fragment length polymorphism - VNTR variable number of tandem repeats     

Cross-species amplification of microsatellite loci within the dioecious, polyploid genus Actinidia (Actinidiaceae)

Microsatellite marker transfer across species in the dioecious genus Actinidia (kiwifruit) could offer an efficient and time-effective technique for use during trait transfer for vine and fruit improvement in breeding programmes. We evaluated the cross-species amplification of 20 EST-derived microsatellite markers that were fully informative in an Actinidia chinensis mapping family. We tested all 20 markers on 120 genotypes belonging to 21 species, 5 with varieties and/or chromosome races. These 26 taxa included 16 diploids, 7 tetraploids, 2 hexaploids and 1 octaploid, and represented all four taxonomic sections in the genus. All 20 markers showed some level of cross-species amplification. The most successful marker amplified in all genotypes from all species from all sections of the genus, the least successful amplified fragments only in A. chinensis and A. deliciosa. One species, A. glaucophylla, failed to amplify with all but 2 markers. PIC (Polymorphism information content) values were high, with 14 of 17 markers recording values of 0.90 and above. Sequence data demonstrated the presence of the microsatellite in all the amplified products. Sequence homology was less 5′ of the microsatellite and increased toward the start codon of the translated region of the EST from which the marker was derived. The data confirm that EST-derived microsatellite markers from Actinidia species show cross-species amplification with high levels of polymorphism which could make them useful markers in breeding programmes.     

Genetic variation and natural hybridization among sympatric <Emphasis Type="Italic">Actinidia</Emphasis> species and the implications for introgression breeding of kiwifruit

The overlapping ranges of closely related species provide a natural setting for the investigation of reticulate hybridization and other evolutionary processes. In the present study, we examined the pattern of genetic variation and interspecific gene flow in seven Actinidia species across ten localities in which sympatry among at least two species occurs. Our results showed that 48.7% of the alleles across the nine nuclear microsatellite loci examined were shared among the seven Actinidia species. Moreover, at the species level, Actinidia chinensis and Actinidia deliciosa exhibited the highest genetic similarity, with a large percentage of shared alleles (P _s = 81.3%) and a significant consistency between the distribution frequency of their allele sizes (r = 0.859, P = 0.045). Yet, the genetic distinctions between species are obvious except for the species pair A. chinensis and A. deliciosa. Interspecific introgression was detected among the two main species pairs (Actinidia latifolia–Actinidia eriantha and A. chinensis–A. deliciosa), but more apparent in the latter in which 30% of the A. chinensis individuals and 49% of the A. deliciosa individuals showed genetic admixture in the STRUCTURE analysis. Possibly active hybrid zones relating to the two main species pairs were discussed at last, which are expected to pave the way for the introgression breeding of kiwifruit from natural sympatric populations.     

In situ hybridization in Actinidia using repeat DNA and genomic probes

 In situ hybridization has been used to probe chromosome spreads of hexaploid Actinidia deliciosa (kiwifruit; 2n=6x=174) and tetraploid A. chinensis (2n=4x=116). When a species-specific repeat sequence, pKIWI516, was used, six hybridization sites were observed in some accessions of tetraploid A. chinensis and all of A. deliciosa. Southern analysis with the pKIWI516 probe revealed that there are two types of tetraploid A. chinensis. Genomic probes from diploid A. chinensis (2n=2x=58) did not differentiate the genomes of hexaploid A. deliciosa and tetraploid A. chinensis, irrespective of the presence or absence of blocking DNA. The results indicate that the genomes of polyploid Actinidia species are similar but not identical. The origin of A. deliciosa is discussed. Received: 29 June 1996 / Accepted: 5 July 1996     

Restriction-site variation of PCR-amplified chloroplast DNA regions and its implication for the evolution and taxonomy of Actinidia

 Twenty six restriction sites from five PCR-amplified chloroplast DNA sequences (rbcL, psbA, rpoB, and two spacers flanking the trnL gene) were mapped and analysed in 20 Actinidia taxa, encompassing all four sections into which the genus is divided. At least three species out of the 20 examined have been found to have originated through natural interspecific hybridisation on the basis of the discrepancy between morphological and biochemical traits and the cpDNA profiles of pairs of species. A widely reticulate evolution has therefore been postulated in Actinidia. Wagner and weighted parsimony analysis produced consensus trees that did not match the traditional taxonomy based on morphological characters. The molecular data clearly showed that some taxa, such as A. rufa and A. kolomikta, occupy a wrong position and most, if not all, of the traditional groups represented by sections and series are weakly supported, since they appear as polyphyletic. A. chinensis and A. deliciosa were confirmed to be very closely related. Since chloroplast DNA is paternally inherited in Actinidia, A. chinensis is a paternal progenitor, if not the only one, of A. deliciosa, the domesticated kiwifruit. Received: 18 August 1997 / Accepted: 6 October 1997     

Restriction fragment length polymorphisms in the genusActinidia (Actinidiaceae)

A series of chloroplast and nuclear probes were used to examine restriction fragment length polymorphisms (RFLPs) in kiwifruit (Actinidia deliciosa) and three of its closest relatives. The four species fell into two pairs, withA. chinensis andA. deliciosa closely related but some distance away from the other two species,A. latifolia andA. eriantha. The results are consistent with the hypothesis that the diploid species,A. chinensis, is a precursor ofA. deliciosa, which is hexaploid.     

Cross-species transferability of G. arboreum-derived EST-SSRs in the diploid species of Gossypium

Diploid species with a common Gossypium origin are highly diverse in morphology and have been classified into eight genomic groups designated A–G and K. In this study, the transferability of 207 Gossypium arboreum-derived expressed sequence tag-simple sequence repeat (EST-SSR) primer pairs was examined among 25 different diploid accessions representing 7 genomes and 23 Gossypium species. We found that 124 of the 207 (60%) primer pairs produced amplification products in all 25 accessions. The remaining 83 (40%) primer pairs produced amplification in only a subset of species, ranging from 13 to 22 species, which is consistent with some genome- and species-specific amplification. The cross-species amplification of these EST-SSRs in 22 diploid species was 96.5% in 4,554 combinations (207 SSRs×22 species), indicative of a high transferability among the Gossypium species. Furthermore, a high level of polymorphism with an average number of 6.53 alleles per SSR marker was detected. No correlation was found between the repeat motif type and cross-species amplification. DNA sequencing showed that the high-level polymorphism findings was mainly due to changes in the number of repeat motifs and that the high transferability can be attributed to a higher-level conservation in the flanking regions among these diploid Gossypium species. The transferability among these different diploid species presented here can increase the efficiency of transferring genetic information across species and further enhance their introgression into cultivated cotton species by the molecular tagging of important genes existing in these diploid species using the EST-SSR markers.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

Isolation and characterization of microsatellites in lane snapper (Lutjanus synagris), mutton snapper (Lutjanus analis), and yellowtail snapper (Ocyurus chrysurus)

Polymerase chain reaction primer pairs for a total of 25 nuclear‐encoded microsatellites (loci) were developed from genomic DNA libraries of lane snapper (Lutjanus synagris), mutton snapper (Lutjanus analis), and yellowtail snapper (Ocyurus chrysurus). The microsatellites include 24 perfect (21 dinucleotide and three trinucleotide) and one imperfect (combination tetranucleotide/tetranucleotide) repeat motifs. A total of 32 individuals of each species were assayed for allelic variation at all 25 microsatellites; reliable amplification products were generated for lane snapper (25 loci), mutton snapper (21 loci), and yellowtail snapper (24 loci). Significant deviations from Hardy–Weinberg expectations, following Bonferroni corrections, were found for one microsatellite in lane and yellowtail snappers, and for three microsatellites in mutton snapper. All pairwise comparisons of microsatellites (all three species) did not deviate significantly from genotypic equilibrium.     

A genome-specific repeat sequence from kiwifruit (Actinidia deliciosa var. deliciosa)

Summary Six members of a family of moderately repetitive DNA sequences from kiwifruit (Actinidia deliciosa var. deliciosa) have been cloned and characterized. The repeat family is composed of elements that have a unit length of 463 bp, are highly methylated, occur in tandem arrays of at least 50 kb in length, and constitute about 0.5% of the kiwifruit genome. Individual elements diverge in nucleotide sequence by up to 5%, which suggests that the repeat sequence is evolving rapidly. Homologous sequences were found in A. deliciosa var. chlorocarpa. The repeat sequence was not found under low stringency hybridization conditions in the diploid A. chinensis, the species most closely related to the hexaploid kiwifruit, or in eight other Actinidia species. However, homologous repeats were detected in a tetraploid species, A. chrysantha. The results provide the first molecular evidence to suggest that kiwifruit may be an allopolyploid species.     

Transferability of wheat microsatellites to diploid Triticeae species carrying the A, B and D genomes

Hexaploid wheat (Triticum aestivum L em Thell) is derived from a complex hybridization procedure involving three diploid species carrying the A, B and D genomes. In this study, we evaluated the ability of microsatellite sequences from T. aestivum to be revealed on different ancestral diploid species more or less closely related, i.e. to test for their transferability. Fifty five primer pairs, evenly distributed all over the genome, were investigated. Forty three of them mapped to single loci on the hexaploid wheat genetic map although only 20 (46%) gave single PCR products; the 23 others (54%) gave more than one band with either only one being polymorphic, the others remaining monomorphic, or with several co-segregating polymorphic bands. The other 12 detected two (9) or three (3) different loci. From the 20 primer pairs which gave one amplification pro- duct on hexaploid wheat, nine (45%) also amplified products on only one of the diploid species, and seven (35%) on more than one. Four microsatellites (20%) which mapped to chromosomes from the B genome of wheat, did not give any amplification signal on any of the diploid species. This suggests that some regions of the B genome have evolved more rapidly compared to the A or D genomes since the emergence of polyploidy, or else that the donor(s) of this B genome has(have) not yet been identified. Our results confirm that Triticum monococcum ssp. urartu and Triticum tauschii were the main donors of the A and D genomes respectively, and that Aegilops speltoides is related to the ancestor(s) of the wheat polyploid B genome. Received: 21 June 2000 / Accepted: 15 November 2000     

Fraxin and esculin: two coumarins specific to Actinidia chinensis and A. deliciosa (kiwifruit)

Fraxin and esculin were characterized in stems and fruits of A. deliciosa (kiwifruit) and A. chinensis. These two coumarins were not present in several other Actinidia species belonging to the four sections of the genus Actinidia such as A. callosa, A. eriantha, A. hemsleyana, A. arguta, A. kolomikta, A. melanandra, A. polygama. Our results support the opinion that A. deliciosa and A. chinensis are closely related and likely belonging to the same species.     

AC/GT and AG/CT microsatellite repeats in peach [Prunus persica (L) Batsch]: isolation, characterisation and cross-species amplification in Prunus

 We report the sequences of 17 primer pairs of microsatellite loci, which we have cloned and sequenced from two genomic libraries of peach [Prunus persica (L) Batsch] ‘Redhaven’, enriched for AC/GT and AG/CT repeats respectively. For ten of these microsatellite loci we were able to demonstrate Mendelian inheritance in a segregating back-cross population; the remainder did not segregate. The polymorphism of the microsatellites was evaluated in a panel of ten peach genotypes, including true-to-type peaches, nectarines and one canning-peach. Fifteen microsatellites (88%) were polymorphic showing 2–4 alleles each. The mean heterozygosity, averaged over all loci, was 0.32 and significantly higher than that reported in the literature for isozymes and molecular markers, such as RFLPs and RAPDs. We have also assayed the cross-species transportability and found that ten microsatellite (59%) gave apparently correct amplification in all Prunus species surveyed, namely P. domestica (European plum), P. salicina (Japanese plum), P. armeniaca (apricot), P. dulcis (almond), P. persica var. vulgaris (peach), P. persica var. laevis (nectarine), P. avium (sweet cherry) and P. cerasus (sour cherry), with three of them also being amplified in Malus (apple). The remaining microsatellites gave less-extensive amplification. Because of their appreciable polymorphism and wide cross-species transportability, most of these new markers can be integrated into the linkage maps which are currently being constructed in peach, as well as in other stone fruit crops, such as almond, apricot, cherry and plum. Received: 3 September 1998 / Accepted: 28 November 1998     

Development of microsatellite markers in Fragaria, their use in genetic diversity analysis, and their potential for genetic linkage mapping.

We have developed 21 new microsatellites in the model diploid perennial species Fragaria vesca from an enriched genomic library developed using F. vesca 'Ruegen'. The transferability of the primer pairs to other Fragaria species was high; all 31 primer pairs produced amplicons in 3 accessions of the octoploid strawberry Fragaria x ananassa, whereas 24 (77%) amplified a product in 7 other diploid Fragaria species. We analysed the allelic variation among 15 F. vesca accessions using the 21 microsatellites reported here and 10 F. vesca microsatellites described previously. The level of polymorphism detected at these microsatellite loci was high; five loci were monomorphic. Only two microsatellites were required to unambiguously discriminate among the 15 F. vesca accessions. A preliminary survey of segregation in an F2 progeny indicates that 20 of the 26 polymorphic loci (77%) could be mapped.     

Development of 11 EST-SSRs for Japanese white birch, Betula platyphylla var. japonica and their transferability to related species

Simple sequence repeat (SSR) markers were developed for Japanese white birch, Betula platyphylla var. japonica, using previously designed primer pairs derived from expressed sequence tags (ESTs). Out of 98 unpublished primer pairs, 35 yielded clear PCR amplification products, 11 of which revealed polymorphism in eight individuals sampled across the species’ range. The number of alleles detected and the expected heterozygosity ranged from 1 to 10 and 0.000 to 0.857, respectively, when these 11 loci were examined in 24 individuals from a single B. platyphylla var. japonica population. In cross-species transferability tests most of the 11 loci were also polymorphic in three other Betula species examined, but not B. maximowicziana. We have now developed a total of 25 polymorphic EST-SSRs for the genus Betula (including 14 we previously developed), which are likely to be highly useful in studies of various aspects of population genetics, including hybridization dynamics, in the genus.     

Isolation and characterization of microsatellite loci in the marine gastropod Nucella lapillus

Our paper deals the cloning and characterization of microsatellites from Nucella lapillus, and tests cross‐species amplification in a congener and in two species of the confamilial genus Thais. Fourteen of 31 microsatellite loci tested were polymorphic, with 4–9 (mean 5.93) alleles per locus. The observed heterozygosity per locus varied from 0.10 to 0.85 (mean 0.37) and expected heterozygosity from 0.48 to 0.85 (mean 0.65). Most primer pairs were successfully amplified in N. freycineti, although only one primer pair was successfully amplified in both species of Thais. The markers are potentially useful for other species of Nucella.     

Characterization of a RAPD fragment unique to species with hairy fruit skin in the genus<Emphasis Type="Italic">Actinidia</Emphasis>

To develop a SCAR primer related to the hairy-fruit trait in the genusActinidia, we took a PCR-RAPD approach using arbitrary 10-mer primers. PCR with the UBC 376 primer generated specific fragments from three species with hairy fruit skin. Those fragments were then cloned to determine their nucleotide sequences. Two SCAR primers were designed from the UBC 376 primer and nucleotide sequences were obtained from the PCR fragments. A SCAR primer, OKC385, specifically amplified a 385-bp fragment from one clone ofActinidia eriantha, four ofActinidia chinensis, and four ofActinidia deliciosa. Deduced amino acid sequences of this fragment showed high sequence homology with plant cellulose synthases, which are involved in the biosynthesis of cellulose, a major cell wall component. The 385-bp fragment was specifically detected only in the seriesPerfectae C.F. Liang of sectionStellatae Li. This type has many hairs on the leaves, fruits, and stems, suggesting that the gene containing the PCR fragment is involved in hair formation in this phylogenetic group. Taken together, our results suggest that the SCAR primer, OKC385, can be used as a specific primer for early selection of the non-hair trait in breeding of the genusActinidia.     

Development of a set of highly polymorphic genomic microsatellites (gSSRs) in Sitka spruce (Picea sitchensis (Bong.) Carr.)

Robust, polymorphic microsatellite DNA markers (simple sequence repeats—SSRs) are valuable tools for a range of tree conservation and breeding applications. SSRs are routinely used in the study of population genetic structure and diversity, pedigree reconstruction and genetic linkage mapping. Their abundance in the genome, co-dominant inheritance and potential for cross-species amplification make microsatellites highly prized markers. This paper characterises 22 novel genomic polymorphic microsatellite loci for Sitka spruce (Picea sitchensis (Bong.) Carr.). Amplification of DNA from Sitka spruce material was carried out both with a set of unrelated trees to obtain diversity statistics for each locus, and with the progeny of a full-sib family to test simple Mendelian inheritance. Observed heterozygosity ranged from 0.38 to 0.91 and allele number per locus ranged from 6 to 21, with a mean of 12.2. In addition, the primer pairs were tested with DNA from Norway spruce (P. abies) and white spruce (P. glauca) to investigate their potential for cross-species amplification and ten loci amplified in all three species. The results from these genomic microsatellites are compared to data generated from microsatellites derived from Picea EST libraries. In summary, this novel, highly polymorphic markers represent a significant addition to the rapidly expanding Picea genomics tool-box. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Development of microsatellite loci for the black-footed limpet, <Emphasis Type="Italic">Patella depressa</Emphasis>, and cross-amplification in two other <Emphasis Type="Italic">Patella</Emphasis> species

Limpets (Patella spp.) are suitable organisms to investigate the effects of climate change in marine systems. They are widespread over NE Atlantic intertidal rocky shores and have been extensively studied in terms of population dynamics and ecology. Within genus Patella, microsatellites have only been developed for Patella caerulea and cross-species tests are unknown. In this work, we describe 11 primer pairs for Patella depressa and the results of cross-species testing on Patella candei and Patella rustica.     

Cryopreservation of shoot tips,evaluations of vegetative growth,and assessments of genetic and epigenetic changes in cryo-derived plants of Actinidia spp.

A droplet-vitrification protocol was described for cryopreservation of shoot tips of kiwifruit ‘Yuxiang’ (Actinidia chinensis var. deliciosa). No significant differences were found in root formation and shoot growth between the in vitro-derived shoots (the control) and cryo-derived ones when cultured in vitro. No significant differences were detected in survival and vegetative growth between the in vitro-derived plants (the control) and cryo-derived ones after re-establishment in greenhouse conditions. Inter-simple sequence repeat (ISSR) and amplified fragment length polymorphism (AFLP) did not detect any polymorphic bands in the cryo-derived shoots when cultured in vitro and the cryo-derived plants after re-establishment in greenhouse conditions. These data indicate rooting ability, vegetative growth and genetic stability are maintained in the cryo-derived kiwifruit plants recovered from the droplet-vitrification cryopreservation. Methylation sensitive amplification polymorphism (MSAP) detected 12.8% and 1.6% DNA methylation in the cryo-derived shoots when cultured in vitro and the cryo-derived plants after re-established in greenhouse conditions, respectively. This droplet-vitrification was applied to five cultivars and three rootstocks belonging to A. chinensis var. deliciosa, A. chinensis var. chinensis, A. macrosperma, A. polygama and A. valvata. The highest (68.3%) and lowest (22.5%) shoot regrowth were obtained in A. macrosperma and A. chinensis var. chinensis ‘Jinmi’, respectively, with an average of 46.4% shoot regrowth obtained across the eight genotypes. The droplet-vitrification protocol described here can be considered the most applicable cryopreservation method so far reported for the genus Actinidia. Results reported here provide theoretical and technical supports for setting up cryo-banks of genetic resources of Actinidia spp.     

The allopolyploid origin of kiwifruit,Actinidia deliciosa (Actinidiaceae)

The genetic origin of kiwifruit (Actinidia deliciosa var.deliciosa) was studied using phylogenetic analysis of DNA sequences derived from the polygalacturonase gene. Results indicate that hexaploid kiwifruit had an allopolyploid origin with the diploidA. chinensis contributing one genome (genome A) and another (as yet unidentified) diploid species contributing a second genome (genome B). The results leave open the question of whether a third, distinct species contributed to the hexaploid kiwifruit genome. A tetraploid race ofA. chinensis is also suggested to be allopolyploid containing genomes A and B.