Effect of different restriction enzymes, probe source, and probe length on detecting restriction fragment length polymorphism in tomato

Euchromatin and pericentromeric heterochromatin: comparative composition in the tomato genome

Eleven sequenced BACs were annotated and localized via FISH to tomato pachytene chromosomes providing the first global insights into the compositional differences of euchromatin and pericentromeric heterochromatin in this model dicot species. The results indicate that tomato euchromatin has a gene density (6.7 kb/gene) similar to that of Arabidopsis and rice. Thus, while the euchromatin comprises only 25% of the tomato nuclear DNA, it is sufficient to account for approximately 90% of the estimated 38,000 nontransposon genes that compose the tomato genome. Moreover, euchromatic BACs were largely devoid of transposons or other repetitive elements. In contrast, BACs assigned to the pericentromeric heterochromatin had a gene density 10-100 times lower than that of the euchromatin and are heavily populated by retrotransposons preferential to the heterochromatin-the most abundant transposons belonging to the Jinling Ty3/gypsy-like retrotransposon family. Jinling elements are highly methylated and rarely transcribed. Nonetheless, they have spread throughout the pericentromeric heterochromatin in tomato and wild tomato species fairly recently-well after tomato diverged from potato and other related solanaceous species. The implications of these findings on evolution and on sequencing the genomes of tomato and other solanaceous species are discussed.

QTL analysis of fruit antioxidants in tomato using Lycopersicon pennellii introgression lines

Antioxidants present in fruits and vegetables may help prevent some chronic diseases such as cancer, arthritis, and heart disease. Tomatoes provide a major contribution to human dietary nutrition because of their widespread consumption in fresh and processed forms. A tomato introgression line population that combines single chromosomal segments introgressed from the wild, green fruited species Lycopersicon pennellii in the background of the domesticated tomato, Lycopersicon esculentum, was used to identify quantitative trait loci (QTL) for nutritional and antioxidant contents. The concentration of ascorbic acid, total phenolics, lycopene and beta-carotene, and the total antioxidant capacity of the water-soluble fraction (TACW) were measured in the ripe fruits. A total of 20 QTL were identified, including five for TACW (ao), six for ascorbic acid (aa), and nine for total phenolics (phe). Some of these QTL (ao6-2, ao6-3, ao7-2, ao10-1, aa12-4, phe6-2, and phe7-4) increased levels as compared to the parental line L. esculentum. For lycopene content, we detected four QTL, but none increased levels relative to L. esculentum. The two QTL (bc6-2 and bc6-3) detected for beta-carotene increased its levels. The traits studied displayed a strong environmental interaction as only 35% of the water-soluble antioxidant QTL (including TACW, ascorbic, and phenolic contents) were consistent over at least two seasons. Also, only two QTL for phenolics were observed when plants were grown in the greenhouse and none was detected for ascorbic or TACW. The analysis demonstrates that the introgression of wild germplasm may improve the nutritional quality of tomatoes; however regulation appears to be complex with strong environmental effects.

Genetic diversity and relationships in mulberry (genus Morus) as revealed by RAPD and ISSR marker assays

Background

The genus Morus, known as mulberry, is a dioecious and cross-pollinating plant that is the sole food for the domesticated silkworm, Bombyx mori. Traditional methods using morphological traits for classification are largely unsuccessful in establishing the diversity and relationships among different mulberry species because of environmental influence on traits of interest. As a more robust alternative, PCR based marker assays including RAPD and ISSR were employed to study the genetic diversity and interrelationships among twelve domesticated and three wild mulberry species.

Results

RAPD analysis using 19 random primers generated 128 discrete markers ranging from 500–3000 bp in size. One-hundred-nineteen of these were polymorphic (92%), with an average of 6.26 markers per primer. Among these were a few putative species-specific amplification products which could be useful for germplasm classification and introgression studies. The ISSR analysis employed six anchored primers, 4 of which generated 93 polymorphic markers with an average of 23.25 markers per primer. Cluster analysis of RAPD and ISSR data using the WINBOOT package to calculate the Dice coefficient resulted into two clusters, one comprising polyploid wild species and the other with domesticated (mostly diploid) species.

Conclusion

These results suggest that RAPD and ISSR markers are useful for mulberry genetic diversity analysis and germplasm characterization, and that putative species-specific markers may be obtained which can be converted to SCARs after further studies.

An enhanced molecular marker based genetic map of perennial ryegrass (Lolium perenne) reveals comparative relationships with other Poaceae genomes

A molecular-marker linkage map has been constructed for perennial ryegrass (Lolium perenne L.) using a one-way pseudo-testcross population based on the mating of a multiple heterozygous individual with a doubled haploid genotype. RFLP, AFLP, isoenzyme, and EST data from four collaborating laboratories within the International Lolium Genome Initiative were combined to produce an integrated genetic map containing 240 loci covering 811 cM on seven linkage groups. The map contained 124 codominant markers, of which 109 were heterologous anchor RFLP probes from wheat, barley, oat, and rice, allowing comparative relationships between perennial ryegrass and other Poaceae species to be inferred. The genetic maps of perennial ryegrass and the Triticeae cereals are highly conserved in terms of synteny and colinearity. This observation was supported by the general agreement of the syntenic relationships between perennial ryegrass, oat, and rice and those between the Triticeae and these species. A lower level of synteny and colinearity was observed between perennial ryegrass and oat compared with the Triticeae, despite the closer taxonomic affinity between these species. It is proposed that the linkage groups of perennial ryegrass be numbered in accordance with these syntenic relationships, to correspond to the homoeologous groups of the Triticeae cereals.

Molecular phylogeny of mangroves. VI. Intraspecific genetic variation in mangrove species Excoecaria agallocha L. (Euphorbiaceae)

Genomic DNA from 84 individuals of Excoecaria agallocha from seven mangrove populations were analysed for random amplified polymorphic DNAs (RAPDs) using 16 random 10-mer primers. Polymorphism within populations varied from 20% to 31%. At the interpopulation level, 111/149 (74%) of RAPDs were polymorphic. Restriction fragment length polymorphism (RFLP) analysis of 21 individuals (3 individuals randomly selected from the 7 populations) using 30 probe-enzyme combinations revealed a high level of interpopulation polymorphism (62.2%) indicating interpopulation genetic divergence. The polymorphic RAPDs and RFLPs were pooled, and clustering was carried out based on mean similarity for individual populations. The dendrogram showed groupings of populations from the West and East Coasts of India into separate clusters, at 60% similarity level. Further, RAPD and RFLP analysis of male and female plants showed approximately the same level of variation in both sexes, and no sex-linked markers were found. These results demonstrate that considerable intrapopulation and interpopulation genetic variations exist in E. agallocha, and that lack of genetic variation is not the reason for the morphological uniformity observed across the range of the species.

Characterization of the Citrus genome through analysis of restriction fragment length polymorphisms

Studies on the nature of restriction fragment length polymorphisms (RFLPs) were undertaken to characterize the Citrus genome. This type of analysis has not been carried out with any other perennial crop. Citrus reticulata Blanco cv Clementine, C. xparadisi Macf. cv Duncan, and an F1 hybrid (LB 1-21) were used to determine what probe/enzyme combinations revealed polymorphisms in Southern analysis, and a backcross family (LB 1-21x'Clementine') of 65 randomly selected hybrid seedlings was used for some analyses. A majority (73%) of the clones examined from a PstI genomic library appeared to detect single-copy sequences based on RFLP banding patterns, while clones from a cDNA library revealed a lower percentage of single copy sequences. When hybridization stringencies were lowered, 21% of the genomic clones examined revealed greater copy numbers. PstI digestion of 'Duncan' DNA indicated abundant methylation, so the relatively high frequency of multiple-copy sequences observed at moderate stringency cannot be attributed to a lack of methylation of the Citrus DNA. The polymorphisms in banding patterns observed primarily resulted from insertions and/or deletions rather than from base substitutions, and a model is presented to account for the varying patterns obtained from individual probes with different restriction enzymes. Finally, a model for transposon activity in Citrus is proposed, based on observations made during the course of these studies.

Novel DNA probes capable of discriminating indica and japonica rice cultivars

We obtained two DNA clones, G93 (1.6kb) and G318 (1.7kb) from indica rice (Oryza sativa L.) cultivar Culture 340. Southern hybridization analysis indicated that both DNA probes hybridized with DNA of indica cultivars but not with japonica cultivars. Some javanica cultivars DNAs did not hybridize with these probes. Nucleotide sequence (400bp) of a part of G93 showed a 65.8% G + C content. These novel DNA probes can be used for the study of evolutional fingerprinting of rice cultivars.

Restriction fragment length polymorphism detected by cDNA and genomic DNA clones in Stylosanthes

A DNA isolation method suitable for genomic library construction and RFLP analyses of the forage legume Stylosanthes was developed. Probes isolated using this method were used to investigate the feasibility of constructing RFLP-based genetic maps in this genus. Two hundred and seventy-one PstI genomic DNA and 134 cDNA clones were analysed against four Stylosanthes accessions, including two tetraploids and two diploids, with the use of two restriction enzymes, DraI and HindIII. The proportion of clones which detected single-copy sequences from the PstI genomic library was higher than that from the cDNA library, but the percentage of clones which detected low-copy sequences was doubled in the latter. There was no significant difference in the level of RFLPs detected by gDNA and cDNA probes, although the level of polymorphism was lower in the diploids. A large proportion of RFLPs seemed to have resulted from mutation/base substitution events, and this was especially the case in diploids.

RFLP inheritance and linkage in walnut

Thirty-two low-copy-number genomic DNA clones from a walnut (Juglans sp.) Pst I genomic library were used to establish a molecular-marker linkage map for walnut. The clones were hybridized to restriction-endonuclease-digested DNA from parent walnut trees involved in an interspecific backcross of (J. hindsii x J. regia) x J. regia in order to identify parental polymorphism. Sixty-three backcross progeny were analyzed to determine the inheritance and linkage of 48 RFLP loci. Sixty-six percent of the walnut cloned sequences detected duplicated, but unlinked, loci. Twelve linkage groups were identified by 42 of the RFLP loci. A Poisson probability method for estimating genome size was utilized to calculate the approximate walnut genome length as 1660 cM and to estimate that 138 markers would be needed to cover 95% of the walnut genome within 20 cM of each marker.

Molecular marker analysis of Helianthus annuus L. 1. Restriction fragment length polymorphism between inbred lines of cultivated sunflower

cDNA and PstI genomic clones have been used to assess levels of restriction fragment length polymorphism (RFLP) in Helianthus annuus and to determine the inter-relationships between a diverse set of 24 inbred lines. Of the cDNA clones screened 45% were useful as RFLP probes, compared to less than 20% from the PstI library, which showed high levels of redundancy for high copy sequences. Fifty-seven low-copy DNA probes (23 PstI and 34 cDNA clones) were used to fingerprint 12 maintainer (B) lines and 12 restorer (R) lines. The average number of RFLP variants per probe was found to be 3.2, with a mean polymorphic index of 0.49, indicating that high levels of nuclear DNA polymorphism are to be found in cultivated sunflower. Cluster and principal coordinate analysis of the fingerprinting data clearly separated the maintainer and restorer lines, but there was a degree of association between 2 unbranched R-lines and the B-line germ plasm pool.

Detection and inheritance of RFLPs in Eucalyptus nitens

The level of polymorphism using genomic and cDNA probes with a number of restriction enzymes and the inheritance of the RFLP loci was investigated in E. nitens. The polymorphism detected with 366 genomic and cDNA probes and three to six restriction enzymes was analysed in three-generation outbred pedigrees. No difference in the level of polymorphism detected with genomic versus cDNA probes was observed. There was a difference in the efficiency of detection of polymorphism with six different restriction enzymes, with three of the enzymes (BglII, DraI and EcoRI) showing substantially more polymorphism than the others. There was no significant correlation between the size of the DNA fragments generated by the enzymes and the detection of polymorphism. Several cases of restriction-site mutations resulting in a polymorphism were observed. The inheritance of 69 loci was analysed in two pedigrees resulting from interpopulational crosses. The majority of the loci segregated according to expected ratios with distortion observed in only 3% of loci. Probes from the cDNA library detected a greater proportion of loci with more than two alleles than did probes from the genomic library. The high polymorphism, large number of alleles, and ease of interpretation of RFLPs in E. nitens means that they will be useful in a range of applications such as genetic linkage maps and paternity analysis.

Genetic diversity in cocoa revealed by cDNA probes

The variability of the cocoa (Theobroma cacao) nuclear genome was investigated. A total of 203 cocoa clones was surveyed for restriction fragment length polymorphisms (RFLPs) using four restriction endonuclease and 31 seed cDNA probes. A high level of polymorphism has been found. This study points to a structuring of the species that fits with the distinction between the Criollo and Forastero populations. These results combined with previously obtained nuclear rDNA and mtDNA data allow us to propose new hypotheses on the origin and evolution of the different cocoa populations.

A linkage map of rye

A linkage map of rye (Secale cereale L.) is presented which comprises 60 loci including RFLPs, RAPDs, isozyme, morphological and physiological markers. The genetics and linkage relationships of these markers were investigated in several inbred lines of rye. For the RFLP mapping a genomic library of PstI-digested DNA was constructed from which 50 size-selected clones were analysed. The portion of single-copy and multi-copy DNA and the frequency of polymorphic DNA was determined. The markers are unequally distributed over the seven chromosomes of rye. Many of them exhibit a distorted segregation. The main region of deviating segregation ratios could be localized near the self-incompatibility loci.

Genetic diversity among wild and cultivated populations of Hevea brasiliensis assessed by nuclear RFLP analysis

Restriction fragment length polymorphism was assessed in wild and cultivated populations of Hevea brasiliensis using random probes from an Hevea nuclear library. One-hundred-and-sixty-four individuals were surveyed, and the results discussed in the light of previous work performed on isozyme variation. Both studies show that germplasm collections have led to an effective enrichment of the genetic resources available for Hevea breeding, and that cultivated clones have conserved a relatively high level of polymorphism, despite their narrow genetic base and their high level of inbreeding. An equivalent level of polymorphism is revealed by random nuclear probes and isozymes. However, the genetic structuring of the diversity appears more striking using RFLP markers. Wild accessions can be divided into three genetic groups according to their geographical origin. The present results are an essential guide to the incorporation of wild material in breeding schemes.

Toward the construction of a molecular map of cassava (Manihot esculenta Crantz): comparison of restriction enzymes and probe sources in detecting RFLPs

The construction of a detailed genetic map of cassava (Manihot esculenta Crantz), classified as a tetraploid species, depends on the ability of cloned sequences to detect polymorphisms. As a first step in developing this map, 200 cloned nuclear sequences generated with different restriction enzymes were hybridized to total digested DNA from eleven cultivated lines and one wild Manihot species, M. aesculifolia. Polymorphism was detected less frequently with both BamHI and EcoRI genomic probes than with PstI, HindIII and XbaI genomic probes. DNA digested with HpaII, DraI and TaqI displayed less polymorphism, whereas DNA digested with EcoRI and EcoRV displayed more polymorphism like that found in lettuce, rice and tomato (Landry et al., 1987; McCouch et al., 1988; Miller and Tanksley, 1990). Four-cutter restriction enzymes displayed less frequency of polymorphism when compared with six-cutter restriction enzymes. Polymorphism displayed by DraI was extremely low, indicating that regions rich in adenine and thymine may not be hot spots for mutation in cassava. Polymorphism detected between cultivated genotypes and M. aesculifolia was dramatically higher than that found among cultivated genotypes.

HpaII library indicates 'methylation-free islands' in wheat and barley

A library of wheat genomic DNA HpaII tiny fragments (HTF), sized below 500 bp, has been constructed. Of the clones in the library 80% belong to the single/low-copy category, while 12% of the clones are nuclear repetitive sequences and 8% originate from the chloroplast and mitochondrial DNA. This result shows a substantial enrichment in the single/low-copy sequences of the wheat genome, which contains at least 80% repetitive sequences. Twenty-nine random single/lowcopy clones were analysed further for wheat chromosome location, cross-hybridisation to barley DNA and their association with rare-cutting, C-methylation-sensitive restriction sites. The results show that the HTF clones are associated more frequently than expected with NotI, MluI, NruI and PstI sites in wheat and barley genomic DNA. The 12% repetitive fraction of the clones contain both moderately and highly repetitive sequences, but no tandemly repeated sequences. The level of enrichment for single/low-copy sequences indicates that libraries of this type are a valuable source of probes for RFLP mapping. In addition, the close association of the HTF clones with rare-cutting restriction enzyme sites ensures that HTF clones will have a useful role in the construction of long-range physical maps in wheat.

Towards an integrated linkage map of common bean : 1. Development of genomic DNA probes and levels of restriction fragment length polymorphism

Two genomic libraries were established to provide markers to develop an integrated map combining molecular markers and genes for qualitative and quantitative morpho-agronomic traits in common bean. Contrasting characteristics were observed for the two libraries. While 89% of the PstI clones were classified as single-copy sequences, only 21% of the EcoRIBamHI clones belonged in that category. Clones of these two libraries were hybridized against genomic DNA of nine genotypes chosen according to their divergent evolutionary origin and contrasting agronomic traits. Eight restriction enzymes were used in this study. PstI clones revealed 80-90% polymorphism between the Andean and Middle American gene pools and 50-60% polymorphism within these gene pools. However, under the same conditions only 30% of the EcoRI-BamHI clones showed polymorphism between the Middle American and Andean gene pools. Hybridization with PstI clones to EcoRI-, EcoRV-, or HindIII-digested genomic DNA resulted in a cumulative frequency of polymorphism of approximately 80%. Hybridizations to BamHI-, HaeIII-, HinfI-, PstI-, and XbaI-digested genomic DNA detected no additional polymorphisms not revealed by the former three enzymes. In the PstI library, a positive correlation was observed between the average size of hybridizing restriction fragments and the frequency of polymorphism detected by each restriction enzyme. This relationship is consistent with the higher proportion of insertion/deletion events compared with the frequency of nucleotide substitutions observed in that library.

RFLP-based genetic map of the homoeologous group 3 chromosomes of wheat and rye

Genetic maps of chromosomes 3A, 3B and 3D of wheat and 3R of rye were developed using 22 DNA probes and two isozyme marker systems. Analysis of the 49 loci mapped showed extreme clustering around the centromere in all four maps, with large 'gaps' in the distal chromosome regions, which is interpreted as being due to strong localisation of recombination towards the ends of the wheat and rye chromosomes. In the centromeric regions gene orders are highly conserved between the three wheat genomes and the rye genome. However, the unpredictable behaviour of the DNA clones that map in distal chromosome locations may indicate that the genomes are diverging most rapidly in the regions of higher recombination. A comparison of cDNA and genomic probes showed the latter to be much more efficient for revealing RFLP. Some classes of gDNA clones, i.e. chromosome-specific sequences and those hybridizing in a non-homoeologous manner, were seen to be most polymorphic. Correlations between map locations and RFLP levels showed no clear relationship. In addition to anonymous DNA clones, the locations of known function clones, sedoheptulose-1,7-bisphosphatase (XSbp), carboxypeptidase I (XCxp1) and a bZIP protein (XEmbp), were ascertained along with those for two isozyme loci, Mal-1 and Est-5.

Restriction fragment length polymorphism analysis of polymerase chain reaction products amplified from mapped loci of rice (Oryza sativa L.) genomic DNA

Thirty mapped Indica rice genomic (RG) clones were partially sequenced from each end. From such sequence data, pairs of oligonucleotides were synthesized to act as primers for polymerase chain reaction (PCR) amplification of the corresponding loci in crude total DNA preparations. The PCR products from DNA of Indica varieties were of the sizes expected from the sizes of the corresponding RG clones. However, size polymorphisms were seen between PCR products from Indica and Japonica varieties, and among wildOryza species. Restriction fragment length polymorphism (RFLP) was observed between PCR products of Indica varieties simply by electrophoretic analysis of restricted products, without the need for Southern hybridization or radiolabelling. The RFLPs noted between varieties ARC6650 and Phalguna were inherited in recombinant inbred lines derived from a cross between them. The RFLPs were detectable in PCR products amplified from DNA extracted by a simple procedure from single seedlings or leaves, and revealed genetic heterogeneity in cultivated lines. An approach is described that is relevant to the acceleration of classical plant breeding through molecular techniques.