Development and assessment of Diversity Arrays Technology for high-throughput DNA analyses in <Emphasis Type="Italic">Musa</Emphasis>

Diversity Arrays Technology (DArT) is a DNA hybridisation-based molecular marker technique that can detect simultaneously variation at numerous genomic loci without sequence information. This efficiency makes it a potential tool for a quick and powerful assessment of the structure of germplasm collections. This article demonstrates the usefulness of DArT markers for genetic diversity analyses of Musa spp. genotypes. We developed four complexity reduction methods to generate DArT genomic representations and we tested their performance using 48 reference Musa genotypes. For these four complexity reduction methods, DArT markers displayed high polymorphism information content. We selected the two methods which generated the most polymorphic genomic representations (PstI/BstNI 16.8%, PstI/TaqI 16.1%) to analyze a panel of 168 Musa genotypes from two of the most important field collections of Musa in the world: Cirad (Neufchateau, Guadeloupe), and IITA (Ibadan, Nigeria). Since most edible cultivars are derived from two wild species, Musa acuminata (A genome) and Musa balbisiana (B genome), the study is restricted mostly to accessions of these two species and those derived from them. The genomic origin of the markers can help resolving the pedigree of valuable genotypes of unknown origin. A total of 836 markers were identified and used for genotyping. Ten percent of them were specific to the A genome and enabled targeting this genome portion in relatedness analysis among diverse ploidy constitutions. DArT markers revealed genetic relationships among Musa genotype consistent with those provided by the other markers technologies, but at a significantly higher resolution and speed and reduced cost.     

Flow cytometric analysis of nuclear DNA content in Musa

 Nuclear genome size variation was studied in Musa acuminata (A genome), Musa balbisiana (B genome) and a range of triploid clones differing in genomic constitution (i.e. the relative number of A and B genomes). Nuclear DNA content was estimated by flow cytometry of nuclei stained by propidium iodide. The A and B genomes of Musa differ in size, the B genome being smaller by 12% on average. No variation in genome size was found among the accessions of M. balbisiana (average genome size 537 Mbp). Small, but statistically significant, variation was found among the subspecies and clones of M. acuminata (ranging from 591 to 615 Mbp). This difference may relate to the geographical origin of the individual accessions. Larger variation in genome size (8.8%) was found among the triploid Musa accessions (ranging from 559 to 613 Mbp). This variation may be due to different genomic constitutions as well as to differences in the size of their A genomes. It is proposed that a comparative analysis of genome size in diploids and triploids may be helpful in identifying putative diploid progenitors of cultivated triploid Musa clones. Statistical analysis of data on genome size resulted in a grouping which agreed fairly well with the generally accepted taxonomic classification of Musa. Received: 11 May 1998 / Accepted: 29 September 1998     

Isolation and characterization of microsatellite markers from Musa balbisiana

This is the first report of targeted development of B genome microsatellite markers in Musa. A total of 44 sequences with microsatellites were isolated from an enriched library of Musa balbisiana cv. ‘Tani’ (BB genome). Of these, 25 were polymorphic when screened on 14 diverse diploid and triploid Musa accessions. The number of alleles detected by each marker ranged between one and seven. All 25 microsatellite markers generated amplification products in all species and genome complements. These new microsatellite markers fill an important gap for diversity assessment and linkage mapping studies in plantain (AAB) and cooking banana (ABB).     

Genomic and cDNA microsatellites from apricot (Prunus armeniaca L.)

We developed primers for the amplification of 24 polymorphic nuclear microsatellites in apricot (Prunus armeniaca L.). Thirteen loci originated from three genomic libraries enriched for TC, TG and AAG motifs. Eight loci were developed from three fruit EST (Expressed‐Sequence‐Tag) libraries and three from a leaf cDNA microsatellite‐enriched library. There were up to nine alleles per polymorphic locus in 12 different cultivars. No difference in allele numbers were shown between cDNA and genomic‐source loci. Mean expected heterozygosity was 0.65 (range: 0.15–0.87). Mendelian segregation was confirmed for all loci. These markers should be helpful for diversity studies, genome mapping and cultivar identification in apricot and related species.     

Characterization of 10 trinucleotide microsatellite loci in the Critically Endangered Pyrenean yam Borderea chouardii (Dioscoreaceae)

The low levels of allozymic variability found in the Critically Endangered Borderea chouardii prompted us to develop microsatellite markers to assess the genetic variability and population structure for the adequate conservation management of this species. A (CTT)_n‐enriched partial genomic library was constructed. Ten polymorphic microsatellite loci were isolated from it, rendering 51 alleles in 47 individuals analysed. The allelic pattern observed for all of the loci with more than two alleles suggests that B. chouardii is tetraploid.     

Identification of the Genomic Constitution ofMusaL. Lines (Bananas, Plantains and Hybrids) Using Molecular Cytogenetics

The genomic constitutions of someMusaL. lines (bananas, plantainsand artificial hybrids) were identified using molecular cytogenetictechniques. Double targetin situDNA:DNA hybridization to chromosomespreads using as probes, total genomic DNA isolated from diploidMusalinesof known AA (labelled with biotin-11-dUTP) and BB (labelledwith digoxigenin-11-dUTP) genome constitution was carried out.The use of 60% acetic acid combined with heating over a flamegave high quality chromosome spreads free of cytoplasm forinsituhybridization. Total genomic A DNA labelled broad centromericregions of all 22 chromosomes of the diploid line, Calcutta4 (M. acuminataColla. ssp.burmanniccoides; A genome) with somechromosomes showing stronger hybridization. Labelled DNA fromthe B genome hybridized strongly to the centromeric regionsof all 22 chromosomes of Butohan 2 (M. balbisianaColla; B genome).The two satellited chromosomes of genome B labelled stronglywith genomic A DNA.In situhybridization of labelled A and Bgenomic DNA to metaphase chromosomes of triploid AAB and ABBcultivars discriminated between A and B genome chromosomes.The plantains Agbagba, Obino l'Ewai and Mbi Egome showed 22genome A and 11 genome B chromosomes while the cooking bananasBluggoe and Fougamou showed 11 genome A and 22 genome B chromosomes.Hybridization of labelled A and B genomic DNA to chromosomesof the hybrids showed that TMP2x 2829-62 has all 22 genome Achromosomes while TMPx 4698-1 has 33 genome A and 11 genomeB chromosomes.In situhybridization of labelled total genomicDNA to chromosomes has immense potential for identificationof chromosome origin and can be used to characterize cultivarsand hybrids produced inMusabreeding.Copyright 1997 Annals ofBotany Company Genomicin situhybridization; banana; plantain; hybrids; plant breeding; genome organization; biodiversity     

De novo genetic variation associated with retrotransposon activation, genomic rearrangements and trait variation in a recombinant inbred line population of Brassica napus derived from interspecific hybridization with Brassica rapa

Interspecific hybridization is a significant evolutionary force as well as a powerful method for crop breeding. Partial substitution of the AA subgenome in Brassica napus (AⁿAⁿCⁿCⁿ) with the Brassica rapa (A^rA^r) genome by two rounds of interspecific hybridization resulted in a new introgressed type of B. napus (A^rA^rCⁿCⁿ). In this study, we construct a population of recombinant inbred lines of the new introgressed type of B. napus. Microsatellite, intron‐based and retrotransposon markers were used to characterize this experimental population with genetic mapping, genetic map comparison and specific marker cloning analysis. Yield‐related traits were also recorded for identification of quantitative trait loci (QTLs). A remarkable range of novel genomic alterations was observed in the population, including simple sequence repeat (SSR) mutations, chromosomal rearrangements and retrotransposon activations. Most of these changes occurred immediately after interspecific hybridization, in the early stages of genome stabilization and derivation of experimental lines. These novel genomic alterations affected yield‐related traits in the introgressed B. napus to an even greater extent than the alleles alone that were introgressed from the A^r subgenome of B. rapa, suggesting that genomic changes induced by interspecific hybridization are highly significant in both genome evolution and crop improvement.     

Novel polymorphic microsatellite markers for paternity analysis in the red‐capped robin (Petroica goodenovii: Aves)

Seven microsatellite loci were isolated and characterized from the red‐capped robin Petroica goodenovii, using nonradioactive polymerase chain reaction (PCR)‐based techniques to screen an enriched genomic library. Five loci showed no evidence of null alleles and were variable [mean heterozygosity (H_E) = 0.440, mean number of alleles = 8]. Cross‐amplification using primers for microsatellites in Phylloscopus occipitalis and Emberiza schoeniclus yielded another two polymorphic loci. The combined set of five red‐capped robin and two cross‐amplified loci are suitable for paternity assignment (exclusion probability for seven unlinked loci = 0.9760).     

Identification of Burkholderia multivorans ATCC 17616 genes induced in soil environment by in vivo expression technology

Burkholderia multivorans ATCC 17616 was originally isolated from a soil sample, and it carries three chromosomes. To identify traits of likely adaptive significance for colonization of soil, an in vivo expression technology system for ATCC 17616 was constructed using the promoterless and tandemly arranged dapB and lacZ genes as the reporters, and this system was applied to identify the genomic loci of ATCC 17616 that were induced in sterilized soil. Our screening of a library consisting of dapB‐lacZ‐inserted clones resulted in the isolation of 713 clones in which the insertion sites of genome were putatively transcribed in the soil but not in laboratory media. All insertion sites in the genome were determined by high‐throughput sequencing using genomic DNA as the templates, and subsequent analysis led to a reliable list of a total of 116 genomic loci as the B. m ultivorans ATCC 17616 l oci induced in a s oil environment (mls). These 116 mls carried the genes for energy acquisition from various substances, as well as genes for cell‐envelope integrity and the niche adaptation. The distribution of these loci was biased to the second chromosome, suggesting the importance of this replicon as a source of adaptive traits enhancing survival of this organism in natural environments.     

GENOME‐WIDE INVESTIGATION OF REPRODUCTIVE ISOLATION IN EXPERIMENTAL LINEAGES AND NATURAL SPECIES OF NEUROSPORA: IDENTIFYING CANDIDATE REGIONS BY MICROARRAY‐BASED GENOTYPING AND MAPPING

Inherent incompatibilities between genetic components from genomes of different species may cause intrinsic reproductive isolation. In evolution experiments designed to instigate speciation in laboratory populations of the filamentous fungus Neurospora, we previously discovered a pair of incompatibility loci (dfe and dma) that interact negatively to cause severe defects in sexual reproduction. Here we show that the dfe‐dma incompatibility also is a significant cause of genetic isolation between two naturally occurring species of Neurospora (N. crassa and N. intermedia). The strong incompatibility interaction has a simple genetic basis (two biallelic loci) and antagonistic epistasis occurs between heterospecific alleles only, consistent with the Dobzhansky–Muller model of genic incompatibility. We developed microarray‐based, restriction‐site associated DNA (RAD) markers that identified ～1500 polymorphisms between the genomes of the two species, and constructed the first interspecific physical map of Neurospora. With this new mapping resource, the approximate genomic locations of the incompatibility loci were determined using three different approaches: genome scanning, bulk‐segregant analyses, and introgression. These population, quantitative, and classical genetics methods concordantly identified two candidate regions, narrowing the search for each incompatibility locus to only ～2% of the nuclear genome. This study demonstrates how advances in high‐throughput, genome‐wide genotyping can be applied to mapping reproductive isolation genes and speciation research.     

Dissection of the genetic architecture of three seed‐quality traits and consequences for breeding in Brassica napus

Genome‐wide association studies (GWASs) combining high‐throughput genome resequencing and phenotyping can accelerate the dissection of genetic architecture and identification of genes for plant complex traits. In this study, we developed a rapeseed genomic variation map consisting of 4 542 011 SNPs and 628 666 INDELs. GWAS was performed for three seed‐quality traits, including erucic acid content (EAC), glucosinolate content (GSC) and seed oil content (SOC) using 3.82 million polymorphisms in an association panel. Six, 49 and 17 loci were detected to be associated with EAC, GSC and SOC in multiple environments, respectively. The mean total contribution of these loci in each environment was 94.1% for EAC and 87.9% for GSC, notably higher than that for SOC (40.1%). A high correlation was observed between phenotypic variance and number of favourable alleles for associated loci, which will contribute to breeding improvement by pyramiding these loci. Furthermore, candidate genes were detected underlying associated loci, based on functional polymorphisms in gene regions where sequence variation was found to correlate with phenotypic variation. Our approach was validated by detection of well‐characterized FAE1 genes at each of two major loci for EAC on chromosomes A8 and C3, along with MYB28 genes at each of three major loci for GSC on chromosomes A9, C2 and C9. Four novel candidate genes were detected by correlation between GSC and SOC and observed sequence variation, respectively. This study provides insights into the genetic architecture of three seed‐quality traits, which would be useful for genetic improvement of B. napus.     

Genome‐wide association analyses reveal polygenic genomic architecture underlying divergent shell morphology in Spanish Littorina saxatilis ecotypes

Gene flow between diverging populations experiencing dissimilar ecological conditions can theoretically constrain adaptive evolution. To minimize the effect of gene flow, alleles underlying traits essential for local adaptation are predicted to be located in linked genome regions with reduced recombination. Local reduction in gene flow caused by selection is expected to produce elevated divergence in these regions. The highly divergent crab‐adapted and wave‐adapted ecotypes of the marine snail Littorina saxatilis present a model system to test these predictions. We used genome‐wide association (GWA) analysis of geometric morphometric shell traits associated with microgeographic divergence between the two L. saxatilis ecotypes within three separate sampling sites. A total of 477 snails that had individual geometric morphometric data and individual genotypes at 4,066 single nucleotide polymorphisms (SNPs) were analyzed using GWA methods that corrected for population structure among the three sites. This approach allowed dissection of the genomic architecture of shell shape divergence between ecotypes across a wide geographic range, spanning two glacial lineages. GWA revealed 216 quantitative trait loci (QTL) with shell size or shape differences between ecotypes, with most loci explaining a small proportion of phenotypic variation. We found that QTL were evenly distributed across 17 linkage groups, and exhibited elevated interchromosomal linkage, suggesting a genome‐wide response to divergent selection on shell shape between the two ecotypes. Shell shape trait‐associated loci showed partial overlap with previously identified outlier loci under divergent selection between the two ecotypes, supporting the hypothesis of diversifying selection on these genomic regions. These results suggest that divergence in shell shape between the crab‐adapted and wave‐adapted ecotypes is produced predominantly by a polygenic genomic architecture with positive linkage disequilibrium among loci of small effect.     

Isolation and characterization of microsatellite markers in two basidiomycete species: Pleurotus eryngii and P. ferulae

Six polymorphic microsatellite loci were developed for the closed basidiomycete species Pleurotus eryngii and P. ferulae using an enriched genomic library. The number of alleles per locus varied between two and eight and the expected heterozygosity ranged from 0.30 to 0.72 in P. eryngii and from 0.20 to 0.73 in P. ferulae. This enrichment technique is useful in those species where microsatellite loci are rare in the genome.     

Isolation and characterization of microsatellite loci in the Pacific pleasure oyster,Crassostrea corteziensis,and their cross‐species amplification in four other oyster species

Microsatellite loci were isolated in Crassostrea corteziensis using (GT)_n, (CT)_n and (CTGT)_n‐enriched genomic libraries. Within each of 45 sequenced clones, an average of three microsatellite regions (156 total) were observed. Thirty‐three primers were designed, from which 11 microsatellite loci amplified. Ten of those were polymorphic, with a range of two to 30 alleles. Three loci were not in Hardy–Weinberg equilibrium, and linkage disequilibrium was found for six pairs of loci. These microsatellite loci will be further tested for segregation distortions and null alleles to establish a set for population genetic studies of the species in the Northwest coasts of Mexico, and for optimization of aquaculture development. Seven of the microsatellite loci cross‐amplified in Crassostrea palmula, a sympatric species, and will be useful in further genetic studies.     

Identification of the most represented repeated motifs in Arabidopsis thaliana microsatellite loci

The major simple sequence repeats present in the Arabidopsis genome were identified by Southern hybridizations with 49 oligonucleotide probes matching all the possible combinations of motifs up to 4 nucleotides long. The method used allowed us to perform all the hybridizations under the same temperature conditions. A good correlation was observed with the data obtained from database analysis, indicating that the method can be useful for identifying the major classes of microsatellite loci in species for which few or no sequence data are available. AG/CT, AAG/CTT, ATG/CAT and GTG/CAC are the major motifs present in the Arabidopsis genome that can be used as convenient probes to isolate microsatellite loci by screening libraries. AAG/CTT is the more frequent of these motifs, and its relative frequency in Arabidopsis is much higher than averagely found in the plant kingdom. About 8% of the cDNA clones from an immature silique library contains AG/CT, AAG/CTT or ATG/CAT microsatellite loci. Several microsatellite loci were isolated by screening genomic and cDNA libraries. Twenty-six tri-nucleotide loci were PCR amplified from four different ecotypes, and polymorphism was observed for 12 of them; 10 loci showing two alleles and 2 loci showing three alleles.     

In vitro response as a reflection of genomic diversity in long-term cultures of Musa

Summary Ten commercial cultivars of Musa representing five different types of genomic constitutions were studied for in vitro multiplication through meristem culture. In addition, the effects of various genomic constitutions at different ploidy levels on growth and meristem proliferation in long-term cultures were analysed statistically. Plantlets were readily obtained by culturing the excised meristems on MS semisolid medium supplemented with IAA, IBA and BAP at various concentrations. The regenerative potential of all cultivars of Musa, irrespective of their genomes, remained unaffected in long-term culture, even after 28–30 months. The genomic influence on both the nature and rate of proliferative growth was evident. Statistical analysis revealed that the rates of meristem proliferation between different cultivars of the same passage and between different passages of the same cultivar were significantly different. Those cultivars having only an A genome showed a low rate of meristem proliferation, while under the same culture conditions, cultivars having one or two B genomes in addition to the A exhibited a very high rate.     

Restriction fragment length polymorphism (RFLP)-based phylogenetic analysis of Musa

Summary Random genomic probes were used to detect RFLPs in 19 Musa species and subspecies. A total of 89 phylogenetically informative alleles were scored and analyzed cladistically and phenetically. Results were in general agreement with morphology-based phylogenetic analyses, with the following exceptions: our data unambiguously places M. boman in section Australimusa, and indicates M. beccarii is very closely related to M. acuminata. Additionally, no support was found for the separation of section Rhodochlamys from section Musa. A comparison of morphology-based and RFLP-based phylogenetic analyses is presented.     

Characterization of microsatellite loci in the western tarnished plant bug,Lygus hesperus Knight (Hemiptera: Miridae)

A microsatellite‐enriched partial genomic DNA library of Lygus hesperus was generated and screened by sequencing. Ten polymorphic microsatellite marker loci were characterized by genotyping 92 insect samples. The observed number of alleles ranged from three to seven with an average of 4.5 (SE ± 0.45), while the effective number of alleles ranged from 1.21 to 3.02 with an average of 2.14 (SE ± 0.20). Significant deviations from Hardy–Weinberg expectations were detected at three loci. Significant linkage disequilibrium was also detected between the loci LhMS2‐54 and LhMS3‐32. Seven of the L. hesperus markers could be transferred to Lygus lineolaris.     

Polymorphic microsatellite DNA markers for Banksia hookeriana (Proteaceae)

We developed 11 polymorphic microsatellite DNA markers for an Australian native shrub Banksia hookeriana (Proteaceae). The number of alleles per locus in 37 individuals varied from three to 17, observed and expected heterozygosities ranged from 0.297 to 0.838 and from 0.279 to 0.900, respectively. Two loci (BH‐B5 and BH‐B107) showed significant deviation from Hardy–Weinberg equilibrium (P < 0.05), and null alleles may be present at these two loci. All loci showed independent inheritance.     

Isolation and characterization of polymorphic microsatellite markers in the gray,short‐tailed opossum (Monodelphis domestica)

Twenty‐six polymorphic microsatellite markers were isolated from (AC)_n and (AG)_n microsatellite‐enhanced genomic libraries of the gray, short‐tailed opossum Monodelphis domestica. All 26 loci showed high allelic diversity, with allele numbers ranging from five to 11 in a subset of 35 animals. Normal Mendelian inheritance was confirmed for 24 loci by analysing allelic segregation in 10, two‐generation, families. Non‐amplifying (null) alleles were detected at two loci, which we recommend be used only if pedigree data are available. We conclude that all of these microsatellite markers would be useful for quantitative trait locus mapping and population genetic studies.