Evolution ofSedum seriesRupestria (Crassulaceae): Evidence from chloroplast DNA and biosystematic data

Evolutionary relationships within the compariumSedum seriesRupestria (Crassulaceae) were investigated by phylogenetic analyses of restriction site variation of the chloroplast genome and morphological variation. DNAs were digested with 21 restriction enzymes and hybridized withS. album cpDNA probes covering the entire genome. A total of 141 ingroup variable restriction sites was identified. Morphological variation was observed in a total of 66 characters. Both datasets were analysed using parsimony methods and compared with evidence from cytology, artificial hybridization and biogeography to infer evolutionary relationships. The results 1) indicate a relatively high level of nucleotide sequence divergence withinS. ser.Rupestria; 2) indicate three main lines of plastome differentiation, which are in agreement with morphology, basic chromosome numbers, and centres of diversity; 3) do not provide a compelling solution for basal relationships; 4) support an earlier hypothesis on reticulation and provide evidence for a third case of allopolyploidy in the series; 5) suggest that interspecific gene flow inS. ser.Rupestria is funnelled through the presumably allopolyploidS. rupestre subsp.erectum.     

Molecular phylogeny ofNothofagus (Nothofagaceae) based on theatpB-rbcL intergenic spacer of the chloroplast DNA

The genusNothofagus is distributed in the Southern Hemisphere from South America to Oceania, and its distribution has been assumed to be formed by continental drift by means of Gondwana break-up during the Mesozoic era. The phylogeny of the genus was elucidated by the sequences ofatpB-rbcL intergenic spacer of cpDNA for the better understanding of its evolution and biogeography. The phylogeny ofNothofagus corresponded completely to the pollen morphology which recognizes four pollen types in extant species, and agrees well with the taxonomic system of Hill and Read (1991) although there, the subgenusNothofagus showed in unresolved polytomy. The topology of the phylogenetic tree reveals that subgenusLophozonia was derived first, and thenFuscospora, Nothofagus andBrassospora. Species from South America and New Zealand were assigned to each cluster according to their pollen morphology. Therefore, diversification ofNothofagus should have already proceeded at the subgenus level before the completion of Gondwana break-up Tropical species distributed in New Guinea and New Caledonia whose evolutionary history has been controversial were revealed to be a derived group. All five New Caledonian species formed a monophyletic group with very few sequence divergences in the intergenic spacer of cpDNA, thus showing rapid adaptive radiation in the island. Evolutionary trends of several morphological traits ofNothofagus are discussed. The evolution of valve number of cupules, number of nuts per cupule, and habit of leaf-fall (evergreen or deciduous) which are diversified in the genus, were revealed as having occurred several times as the result of convergence.     

The allopolyploid origin ofSedum rupestre subsp.rupestre (Crassulaceae)

InSedum rupestre L. a polyploid series (x = 16) occurs in which aneuploid chromosome numbers and odd levels of ploidy prevail. The most common and widely distributed cytotype,S. rupestre subsp.rupestre, is 2n = 112. Plants resemblingS. rupestre subsp.rupestre can be obtained by hybridizing the tetraploid cytotypes ofS. forsterianumSm. (2n = 48) andS. rupestre subsp.erectum't Hart (2n = 64). Comparison of these artificial hybrids with their parents and a large number of plants ofS. rupestre subsp.rupestre (2n = 112) from nature showed thatS. rupestre subsp.rupestre and the artificial hybrids are morphologically indistinguishable, and intermediate betweenS. forsterianum andS. rupestre subsp.erectum. MorphologicallyS. rupestre subsp.rupestre is closer to subsp.erectum than toS. forsterianum. Chloroplast DNA restriction patterns ofS. rupestre subsp.rupestre, however, resembleS. forsterianum more closely. The combined results of the hybridization experiments, the analysis of the cpDNA restriction patterns, and the morphological variation indicate the allopolyploid origin ofS. rupestre subsp.rupestre.Natural hybrids inSedum (Crassulaceae) 4.     

The discovery and phylogenetic implications of a novel 41 bp plastid DNA deletion in wild potatoes

Insertions and deletions (indels) are common in intergenic spacer regions of plastid DNA and can provide important phylogenetic characters for closely related species. For example, a 241-bp plastid DNA deletion in the trnV-UAC/ndhC intergenic spacer region has been shown to have major phylogenetic importance in determining the origin of the cultivated potato. As part of a phylogenetic study of the wild potato Solanum series Piurana group we screened 199 accessions of 38 wild potato species in nine of the 19 tuber-bearing (Solanum section Petota) series that have not been examined before for indels in the trnV-UAC/ndhC intergenic spacer region. A novel 41 bp deletion (but no 241 bp deletion) was discovered for 30 accessions of three species: S. chiquidenum (5 of 10 accessions), S. chomatophilum (19 of 28), and S. jalcae (6 of 6). Accessions with and without this deletion are found throughout much of the north-south range of all three species in northern and central Peru, but not east of the Marañón River. Multivariate morphological analyses of these 44 accessions showed no morphological associations to the deletion. The results suggest extensive interspecific gene flow among these three species, or a common evolutionary history among species that have never been suggested to be interrelated.     

Identification ofArmillaria species from hokkaido by analysis of the intergenic spacer (IGS) region of ribosomal DNA using PCR-RFLP

The intergenic spacer (IGS) region, which is located between the 3′ end of 26S ribosomal DNA (rDNA) and the 5′ end of 5S rDNA, of sixArmillaria species from Hokkaido was investigated using polymerase chain reaction-restriction fragment length polymorphisms (PCR-RFLP). Restriction with onlyAlu I could distinguishA. mellea subsp.nipponica from the other species. WithAlu I andDde I,A. ostoyae andA. gallica could be distinguished from the other species. Digestion withAlu I resulted in two patterns (types A and B) ofA. singula and three patterns (types A, B, and C) ofA. jezoensis. One pattern (type B) of the former species and two patterns (types B and C) of the latter species were each different from those of the other species.Armillaria sinapina gave only oneAlu I digestion pattern, which was identical to that ofA. jezoensis (type A) andA. singula (type A). However, by digestion withDde I,A. singula (type A) could be distinguished fromA. jezoensis (type A) andA. sinapina.     

Biosystematic study ofSedum L. SubgenusAizoon (Crassulaceae)

Variation in chromosome number and morphological characters ofSedum aizoon L. var.floribundum Nakai were investigated to analyze, correlations between them. Geographical variation in chromosome number was also examined. Chromosome numbers of 189 individuals from 55 localities were counted as 2n=32, 33, 34, 48, 61, 64, 78, 80, 84, 85, 88, 93, 94, 95, 96, 97 and 102. InSedum subgenusAizoon, which has the basic number of X=8, var.floribundum of the speciesaizoon showed a polyploid series from tetraploid to dodecaploid. Tetraploids were found most frequently in this variety. More than two chromosome numbers were found in all the populations with 2n=61 or more. Tetraploids were mainly distributed in the eastern part of Japan, and higher polyploids (higher than hexaploid level except octaploids) were distributed in the western part of Japan. Thirteen morphological characters were examined in 119 individuals belonging to 30 populations. The principal component analysis and the cluster analysis of these characters indicated that populations with similar chromosome numbers were not always morphologically similar. Ten morphotypes can be recognized based on the combination of chromosome number and morphological characters. ThusS. aizoon var.floribundum can be regarded as a polyploid-aneuploid complex.     

Chloroplast DNA analysis in Tunisian fig cultivars (Ficus carica L.): Sequence variations of the trnL-trnF intergenic spacer

We investigated the nucleotide variation of a non-coding, chloroplast DNA (cpDNA) region to infer relationships among Tunisian fig cultivars. In this study, we examine the level of genetic diversity and its distribution using sequences of the trnL and trnF genes intergenic spacer. The non-coding region displays 28 substitution sites. Insertions and deletions involving 6 sites were found. By using the Kimura-2 method, nucleotide sequences have been aligned using the MEGA program to calculate pairwise divergence of trnL-trnF spacer sequences between cultivars. The size of this non-coding region varied from 430 to 464 bases. The relatively high A + T values (63.7–64.4%) of trnL-trnF intergenic spacer in Ficus carica may explain the high proportion of the identified transversions (t_i/t_v = 0.9). These results suggest the occurrence of nucleotide diversity with a large variation level of chloroplast non-coding region. The analysed data illustrate a considerable level of variability in the genetic pool of the local germplasm. In fact, relationships inferred from the cpDNA analysis suggest several clades, which do not show geographical correspondence. Fourteen haplotypes were detected among 20 individuals examined, yielding a haplotype diversity of 0.983 and a high level of nucleotide diversity (0.0100). The observed variation pattern of plastid DNA provides evidence that the fig germplasm has been undergoing rapid expansion. Neutrality tests rejected the neutrality assumption in the total sample. The cytoplasm variability indicates a narrow genetic base in the cultivated common fig. Despite the high level value of the apparent diversity, we may conclude that fig chloroplast genome provides a new conceptual and practical opportunity to evaluate genetic diversity and to identify local cultivars, making it a valuable source to include into potential breeding programs.     

Recycling of CO2 via Crassulacean acid metabolism in the rock outcrop succulent Sedum pulchellum Michx. (Crassulaceae)

Under well-watered conditions in the laboratory, Sedum pulchellum assimilated CO₂ only during the day, yet exhibited small nocturnal increases in tissue acid content followed by deacidification in the light (CAM-cycling). When drought-stressed, little CO₂ was fixed in the day and none at night, yet even greater acid fluctuations were observed (CAM-idling). Calculations indicate that water savings associated with CAM-cycling when water is available are small. Water saving is more likely to be significant during CAM-idling when water supply is limited and stomata are closed day and night. Thus, in this species, CAM-idling may be of greater benefit to the plant, relative to CAM-cycling, in surviving habitats prone to frequent drought stress.Abbreviations A CO₂ exchange rate - CAM Crassulacean acid metabolism - c_i shoot internal CO₂ concentration - g_c shoot conductance to CO₂ - PPFD photosynthetic photon flux density - WUE water-use efficiency Supported by National Science Foundation Grant No. DMB 8506093.     

Phylogenetic relationships in the genusStylosanthes (Leguminosae) based upon chloroplast DNA variation

A detailed analysis of chloroplast DNA restriction fragment length variation was undertaken to reconstruct the maternal phylogeny of 18 taxa from both sections of the papilionoid tropical forage legume genusStylosanthes. Data were analysed by means of the computer program PAUP, using an heuristic search with Wagner parsimony. The resulting cladogram dividedStylosanthes into four separate clades, which comprised: (i) theS. guianensis complex and related species (i.e.S. gracilis, S. grandifolia andS. montevidensis); (ii)S. hispida, tetraploidS. hamata s. l.,S. sympodialis, S. humilis, S. leiocarpa, S. angustifolia and certain accesions ofS. scabra; (iii)S. calcicola, S. viscosa, diploidS. hamata s. str., andS. fruticosa, plus accessions ofS. scabra, S. capitata and one accession ofS. grandifolia; and (iv)S. macrocephala and other accessions ofS. capitata not included within clade 3. Results are generally congruent with previously established interspecific relationships and, moreover, enabled identification of putative maternal progenitors for four tetraploid taxa:S. humilis was identified as a likely maternal parent of bothS. sympodialis andS. hamata s. l.,S. viscosa as a maternal parent ofS. scabra, andS. macrocephala as a maternal parent ofS. capitata.     

Wax plants disentangled: a phylogeny of Hoya (Marsdenieae, Apocynaceae) inferred from nuclear and chloroplast DNA sequences

Hoya (Marsdenieae, Apocynaceae) includes at least 200 species distributed from India to the Pacific Islands. We here infer major species groups in the genus based on combined sequences from the chloroplast atpB-rbcL spacer, the trnL region, and nuclear ribosomal DNA ITS region for 42 taxa of Hoya and close relatives. To assess levels of ITS polymorphism, ITS sequences for a third of the accessions were obtained by cloning. Most ITS clones grouped by species, indicating that speciation in Hoya usually predates ITS duplication. One ITS sequence of H. carnosa, however, grouped with a sequence of the morphologically similar H. pubicalyx, pointing to recent hybridization or the persistence of paralogous copies through a speciation event. The topology resulting from the combined chloroplast and nuclear data recovers some morphology-based sections, such as Acanthostemma and Eriostemma, as well as a well-supported Australian/New Guinean clade. The combined data also suggest that morphological adaptations for ant-symbiosis evolved at least three times within Hoya.     

Variation of 16S-23S rRNA intergenic spacer regions (ISRs) in Acinetobacter baylyi (strain B2) isolated from activated sludge

To determine the variability of the 16S-23S rRNA intergenic spacer region (ISR) of the newly described Acinetobacter baylyi, 88 clones containing ISR amplicons were screened and 14 chosen for further analysis. Two different sized 16S-23S rRNA ISRs were distinguished comprising five variable and four conserved nucleotide blocks. The major regions of heterogeneity between the different sized ISRs were due to blocks of substitutions with unique secondary structures interspersed with nucleotide substitutions, rather than differences caused by presence or absence of tRNA genes, which is often the case. Recombination events causing shuffling of nucleotide blocks are considered the most likely explanation for the mosaic structure observed between the different copies of the ISR. Single base differences present in the long ISR (LISR) were then exploited in attempts to detect possible heterogeneity between rrn copies in Acinetobacter baylyi but variability was not detected by RFLP analysis of LISR-specific PCR products. These primers were shown to be highly specific for 3 Acinetobacter baylyi strains based on LISR sequence homogeneity.     

DNA contents,giemsa banding,and systematics inScilla bifolia,S. drunensis,andS. vindobonensis (Liliaceae)

DNA contents have been determined cytophotometrically in the three Central European, relatedScilla speciesS. bifolia (2n = 18, 2 x, 1 C = 6.2 pg),S. drunensis (2n = 36, 4 x, 1 C = 12.8 pg), andS. vindobonensis (2n = 18, 2 x, 1 C = 9.4 pg). The tetraploid speciesS. drunensis contains twice as much DNA as the diploidS. bifolia. However, the diploid speciesS. vindobonensis differs in DNA content fromS. bifolia by a factor of about 1.5. This difference is largely due to euchromatic DNA, although the higher DNA content inS. vindobonensis is combined with higher heterochromatin content. The data indicate thatS. bifolia andS. drunensis on the one hand, andS. vindobonensis on the other hand are phyletically well separated. Previous taxonomic conclusions from morphology as well as C-banding are thus corroborated.Evolution ofScilla and Related Genera, V.     

Structure of the intergenic spacer region from the ribosomal RNA gene family of white spruce (Picea glauca)

Five genomic clones containing ribosomal DNA repeats from the gymnosperm white spruce (Picea glauca) have been isolated and characterized by restriction enzyme analysis. No nucleotide variation or length variation was detected within the region encoding the ribosomal RNAs. Four clones which contained the intergenic spacer (IGS) region from different rDNA repeats were further characterized to reveal the sub-repeat structure within the IGS. The sub-repeats were unusually long, ranging from 540 to 990 bp but in all other respects the structure of the IGS was very similar to the organization of the IGS from wheat, Drosophila and Xenopus.     

Comparison of the evolution of ribulose-1, 5-biphosphate carboxylase (rbcL) and atpB-rbcL noncoding spacer sequences in a recent plant group,the tribe Rubieae (Rubiaceae)

Plastid sequences of the atpB-rbcL spacer and rbcL gene itself were used to evaluate their respective potential in reconstructing the phylogeny of 15 taxa from the tribe Rubieae (Rubiaceae). From our previous analyses using the atpB-rbcL spacer, the 15 selected taxa represent most of the variability of the tribe. Since this group is considered to be relatively recent (Upper Tertiary), it should allow the study of early dynamics of nucleotide substitutions in recent divergences. The results show that the spacer and rbcL inferred phylogenies are not totally congruent; the spacer trees are more similar to interpretations of morphological data. A comparative analysis of the pattern of nucleotide substitution of these two sequences in the Rubieae shows that (1) the overall rate of substitution is similar in the spacer and in rbcL, and the rate of synonymous substitution in rbcL is much higher; (2) the level of homoplasy is higher in rbcL than in the spacer matrix which shows a higher phylogenetic structure; and (3) the pattern of transition and transversion substitutions is different in the two sequences, and is not linear in rbcL. As a result of these observations, we suggest that (1) the spacer is evolving relatively slowly because of unsuspected, and phylogenetically important; selective constraints on its sequence; and (2) in the rbcL sequence, many sites, free of constraint, are changing at high rate, and some of these sites seem to have undergone multiple substitutions even in this recent tribe. This could explain the high level of homoplasy found in Rubieae rbcL sequences.Correspondence to: J.-F. Manen     

Hybridization ofSaxifraga oppositifolia andS. biflora (Saxifragaceae) in a mixed alpine population

Saxifraga oppositifolia, S. biflora, and their hybridS. ×kochii were studied in a mixed population in the Swiss Alps. Qualitative morphological characters did not allow to clearly separate the hybridS. ×kochii from its parental species. All quantitative characters were intermediate inS. ×kochii, but the ranges of these characters overlapped with those ofS. oppositifolia andS. biflora. A hybrid index and canonical discriminant analysis allowed a clear separation of the three groups and strongly confirmed a priori grouping. Phenological observations showed that the three groups were not temporally separated within the investigated mixed population. Reciprocal hand pollinations betweenS. oppositifolia andS. biflora yielded higher seed set withS. oppositifolia than withS. biflora as maternal plant. Germination rate of seeds from these crossing experiments varied in the same way as seed yields, whereas germination rate was intermediate for seeds from naturally pollinatedS. ×kochii. Considering its ecological and reproductive properties,S. ×kochii has good prerequisites for evolving into a distinct species.     

Molecular phylogeny ofIva (Asteraceae,Heliantheae) based on chloroplast DNA restriction site variation

Iva s.str. (comprising ten species) was examined by cpDNA restriction site variation to determine phyletic relationships within the group. The results were compared with relationships proposed from other data. A total of 86 restriction site mutations was detected, 47 of which proved phylogenetically informative. A single most parsimonious tree was obtained using both Wagner and Dollo parsimony. The tree revealed three main lineages that are congruent with the three chromosome lineages (base numbers of x = 16, 17, 18). The monophyly of the x = 16 and 18 groups was supported strongly by molecular data, while the monophyly of x = 17 lineage was only supported moderately. Relationships among the three lineages indicate that the sect.Iva is paraphyletic because sect.Linearbractea is nested within it. Both morphological data and the secondary chemical data are in agreement with the proposed cpDNA phylogeny. Because of this agreement, sect.Iva is revised such that,I. axillaris was excluded and positioned within the newly proposed sect.Rhizoma. Patterns and rates of cpDNA evolution were also examined. The results indicated an uneven evolution in the chloroplast genome with different rates of cpDNA evolution in at least a few species ofIva. However, the evolutionary clock hypothesis can not be rejected within most of the lineages inIva.     

Inheritance and restriction fragment length polymorphism of chloroplast DNA in the genus Coffea L.

CpDNA variation among 52 tree samples belonging to 25 different taxa of Coffea and two species of Psilanthus was assessed by RFLP analysis on both the total chloroplast genome and the atpB-rbcL intergenic region. Twelve variable characters were distinguished allowing the identification of 12 different plastomes. The low sequence divergence observed might suggest that Coffea is a young genus. The results were in contradiction with the present classification into two genera. Additionally, cpDNA inheritance was studied in interspecific hybrids between C. arabica and C. canephora, and in an intraspecific progeny of C. canephora, using PCR-based markers. Both studies showed exclusively maternal inheritance of cpDNA.     

Origin of chloroplast DNA diversity in the Andean potatoes

Summary Wide chloroplast DNA (ctDNA) diversity has been reported in the Andean cultivated tetraploid potato, Solanum tuberosum ssp. andigena. Andean diploid potatoes were analyzed in this study to elucidate the origin of the diverse ctDNA variation of the cultivated tetraploids. The ctDNA types of 58 cultivated diploid potatoes (S. stenotomum, S. goniocalyx and S. phureja), 35 accessions of S. sparsipilum, a diploid weed species, and 40 accessions of the wild or weed species, S. chacoense, were determined based on ctDNA restriction fragment patterns of BamHI, HindIII and PvuII. Several different ctDNA types were found in the cultivated potatoes as well as in weed and wild potato species; thus, intraspecific ctDNA variation may be common in both wild and cultivated potato species and perhaps in the higher plant kingdom as a whole. The ctDNA variation range of cultivated diploid potatoes was similar to that of the tetraploid potatoes, suggesting that the ctDNA diversity of the tetraploid potato could have been introduced from cultivated diploid potatoes. This provided further evidence that the Andean cultivated tetraploid potato, ssp. andigena, could have arisen many times from the cultivated diploid populations. The diverse but conserved ctDNA variation noted in the Andean potatoes may have occurred in the early stage of species differentiation of South American tuber-bearing Solanums.