Effect of a gap on gene flow between otherwise adjacent transgenic <Emphasis Type="Italic">Brassica napus</Emphasis> crops

The chloroplast DNA diversity of 33 accessions belonging to 16 species of five sections in Allium subgenus Rhizirideum was studied by analysing the sequence of three fragments: the trnL-F intergenic spacer, the rps 16 intron and rbcL (rubisco large subunit). The three sections Cepa, Schoenoprasum and Rhizirideum, representing the majority of the included species, each possess a separate clade after phylogenetic analysis. Exceptions to this general rule are the placement of Allium pskemense (section Cepa) connected to Allium senescens (section Rhizirideum) and Alium roylei, taking an intermediate position between sections Cepa and Schoenoprasum. Both species were located in their own section after nuclear DNA analysis. A range of crossing experiments has been carried out. The different position of A. roylei when comparing cpDNA and nDNA diversity was not confirmed with the production of hybrid seeds after crossing A. roylei with species other than those of section Cepa. The different position of A. pskemense in the cpDNA and the nDNA tree can not be compared to its crossability, since only a few crossing experiments are reported for this species. The hypothesis that a shorter distance between two species in a cpDNA tree compared to their distance in a nDNA tree will indicate interfertility at a certain level, is neither confirmed nor rejected by the currently available results.Communicated by R. Hagemann     

Phylogeny and biogeography of a large radiation of Andean lizards (Iguania, Stenocercus)

With 61 species occurring mostly in the Andes and adjacent lowland areas, Stenocercus lizards represent one of the most widespread and well-represented Andean vertebrate groups. Phylogenetic relationships among species of Stenocercus are inferred using different datasets based on mitochondrial DNA sequence data of 35 species and morphological data of 59 species. Among morphological data, polymorphic and meristic/morphometric characters are coded under the frequency parsimony and gap-weighting methods, respectively, and the accuracy of these methods is tested. When both types of characters are included, the resulting tree topology is more similar to the topologies obtained from analyses of DNA sequence data than those topologies obtained after exclusion of one or both types of characters. The phylogenetic hypotheses inferred including 59 species of Stenocercus (dataset 1) and excluding those species for which DNA data were not available (dataset 2) are generally congruent with each other, as well as with previously published hypotheses. The most parsimonious tree obtained from analysis of dataset 2 is used in a dispersal-vicariance analysis to infer ancestral areas and major biogeographical events. Species of Stenocercus are divided into two major clades. Clade A has diversified mostly in the central Andes, with a few species in the northern Andes and one species in the southern Andes. Clade B is more widespread, with species in the northern, central, and southern Andes, as well as in the Atlantic lowlands and Amazon basin. The most recent common ancestor of Stenocercus is inferred to have occurred in the eastern cordillera of the central Andes. Given morphological similarity and altitudinal distribution of some species nested in a northern-Andes clade, as well as the relatively recent uplift of this Andean region, it is possible that species in this clade have diverged as recently as the mid-Pliocene.     

Chloroplast DNA restriction site variation and phylogeny of the Berberidaceae

Comparative restriction site mapping of the chloroplast genome was performed to examine phylogenetic relationships among 27 species representing 16 genera of the Berberidaceae and two outgroups. Chloroplast genomes of the species included in this study showed no major structural rearrangements (i.e., they are collinear to tobacco cpDNA) except for the extension of the inverted repeat in species of Berberis and Mahonia. Excluding several regions that exhibited severe length variation, a total of 501 phylogenetically informative sites was mapped for ten restriction enzymes. The strict consensus tree of 14 equally parsimonious trees indicated that some berberidaceous genera (Berberis, Mahonia, Diphylleia) are not monophyletic. To explore phylogenetic utility of different parsimony methods phylogenetic trees were generated using Wagner, Dollo, and weighted parsimony for a reduced data set that included 18 species. One of the most significant results was the recognition of the four chromosomal groups, which were strongly supported regardless of the parsimony method used. The most notable difference among the trees produced by the three parsimony methods was the relationships among the four chromosomal groups. The cpDNA trees also strongly supported a close relationship of several generic pairs (e.g., Berberis-Mahonia, Epimedium-Vancouveria, etc.). Maximum likelihood values were computed for the four different tree topologies of the chromosomal groups, two Wagner, one Dollo, and one weighted topology. The results indicate that the weighted tree has the highest likelihood value. The lowest likelihood value was obtained for the Dollo tree, which had the highest bootstrap and decay values. Separate analyses using only the Inverted Repeat (IR) region resulted in a tree that is identical to the weighted tree. Poor resolution and/or support for the relationships among the four chromosomal lineages of the Berberidaceae indicate that they may have radiated from an ancestral stock in a relatively short evolutionary time.     

Molecular phylogeny of Osmanthus(Oleaceae)based on non-coding chloroplast and nuclear ribosomal internal transcribed spacer regions

The phylogenetic relationships of Osmanthus Lour.were investigated using the nuclear ribosomal internal transcribed spacer(ITS)regions and non-coding chloroplast regions(psbA-trnH,trnL-F).The two datasets support the conclusion that Osmanthus is polyphyletic.with some species of the subtribe Oleinae nested within Osmanthus.Osmanthus didymopetalus P S.Green is nested within the clade formed by species of section Osmanthus in two trees.Osmanthus attenuatus P.S.Green.O.Funnanensis P.S.Green,and O gracilinervis R.L.Lu of traditional section Osmanthus are clearly divergent from other accessions,and do not form a monophyletic group with other Osmanthus accessions.Osmanthus marginatus Hemsl.is embedded in the clade formed by species of section Osmanthus in the ITS tree.In cpDNA trees all species of section Osmanthus are placed in the large clade and all species of section Leiolea formed a group.The taxonomic incongruence among trees for ITS and cpDNA indicate hybridization.as introgression may have occurred among some species of sections Osmanthus and Leiolea.Phylogeny of Osmanthus is discussed in light of molecular and morphological data,and a revised infrageneric classification with three sections(Leiolea,Siphosmanthu,and Osmanthus)is presented.The section Linocieroides is abandoned and united with section Osmanthus.     

Molecular phylogeny of selected Old World Astragalus (Fabaceae): incongruence among chloroplast trnL-F, ndhF and nuclear ribosomal DNA ITS sequences

This study reports maximum parsimony and Bayesian phylogenetic analyses of selected Old World Astragalus using two chloroplast fragments including trnL-F and ndhF and the nuclear ribosomal internal transcribed spacer (nrDNA ITS). A total of 52 taxa including 34 euploid Old World and New World Astragalus , one aneuploid species from the Neo-Astragalus clade as a representative and 14 other Astragalean taxa, plus Cheseneya astragalina and two species of Caragana as outgroups were analyzed for both trnL-F and nrDNA ITS regions. ndhF was analyzed in 30 taxa and the same number for the combination of these three datasets were examined. In general, the trnL-F dataset and the ndhF and nrDNA ITS datasets generated more or less the same clades within Astragalus . However, in the trnL-F and ndhF phylogenies, Astragalus species are not gathered in a single clade, the so-called Astragalus s.s., as indicated by the nrDNA ITS tree. Visual inspection of these three phylogenies revealed that they were inconsistent regarding the position and relationships of Astragalus hemsleyi , A. ophiocarpus , A. annularis–A. epiglottis / Astragalus pelecinus, A. echinatus and A. arizonicus . Incongruence length difference test suggested that the trnL-F , ndhF and nrDNA ITS datasets were incongruent. In spite of this, phylogenetic analyses of the combined datasets as one unit or as three partitions generated trees that were topologically similar as a mix of the cpDNA and the nrDNA ITS trees. However, the combined dataset provided more resolved and statistically supported clades. The recently described A. memoriosus appeared closely related to A. stocksii (both from sect. Caraganella ) based on both trnL-F and nrDNA ITS sequences.     

Systematic Position of Allium macrostemon Based on nrDNA ITS and cpDNA trnL-F Sequence Data

Allium macrostemon is an important medicinal and edible plant. Its systematic position and taxonmical classification remain controversial to date. To explore this issue, we reconstructed phylogenetic relationships among Amacrostemon and other related taxa using nrDNA ITS and cpDNA trnL F markers. The phylogenetic trees derived from Bayesian inference and maximum parsimony analysis showed that Amacrostemon is monophyletic, and has a close relationship with some species of polyphyletic sections Caerulea and Pallasia instead of sections Codonoprasum and Allium. The including of Amacrostemon within section Allium was not supported by both molecular data and morphological characters of spathe, filaments and ovary. Allium macrostemon should be included in a new section, however further studies using additional samples (especially those from Central Asia) is necessary. In addition, we also provided a discussion on the phylogenetic relationships among four original plants (Amacrostemon, Achinense, Acaeruleum and Aneriniflorum) of Allii Macrostemonis Bulbus and systematic position of partial species of section Pallasia.     

CHLOROPLAST DNA EVOLUTION AND PHYLOGENETIC RELATIONSHIPS IN CLARKIA SECT. PERIPETASMA (ONAGRACEAE)

Restriction-site analysis of chloroplast DNA in Clarkia sect. Peripetasma (Onagraceae) was done to test previously proposed phylogenetic models. One hundred nineteen restriction-site mutations were identified among the nine species using 29 restriction enzymes, and these were used to construct rooted most parsimonious trees (Wagner and Dollo). A chloroplast DNA evolutionary clock could not be statistically rejected. Branch points of this tree were statistically tested by Felsenstein's bootstrap method. This tree 1) provided an unambiguous and detailed genealogical history for the section, 2) verified a previous partial phylogenetic model for the section based on gene duplications and differential silencing, 3) provided details of the phylogenetic model not inferred or expected based on morphology and reproductive isolation, and 4) indicated that morphology evolves at markedly different rates within and between lineages in the section.     

Molecular phylogeny of Cotoneaster (Rosaceae) inferred from nuclear ITS and multiple chloroplast sequences

Cotoneaster Medik. (Rosaceae, Maloideae) is distributed in Europe, North Africa, and temperate areas of Asia except Japan. Members of the genus exhibit considerable morphological variation. The infrageneric classification is also obscured by polyploidy, hybridization, and apomixis. In this study, phylogenetic analyses were conducted to test infrageneric classifications of this genus using DNA sequence data from the nuclear ITS (nrITS) region and three chloroplast intergenic spacer regions. Maximum parsimony and Bayesian inference analyses of both datasets agreed with the two sections/subgenera of Koehne’s classification system, and suggested that four subsections (Microphylli, Chaenopetalum, Adpressi, and Cotoneaster) and the series of Koehne’s classification system were non-monophyletic. The incongruence length difference test indicated that the nrITS and cpDNA datasets were significantly incongruent (P = 0.001), and the placement of 14 species was discordant in phylogenetic trees derived from the two datasets. Within Cotoneaster, hybridization was indicated to be an important factor contributing to the incongruence between the nrITS and cpDNA data. By mapping nine morphological characters onto the combined nrITS–cpDNA phylogenetic tree, we inferred that a deciduous habit, glabrous fruit, white anthers, erect and light pink petals, and white filaments are plesiomorphic character states in Cotoneaster.     

Restriction enzyme analysis of the chloroplast and nuclear 45s ribosomal DNA ofAllium sectionsCepa andPhyllodolon (Alliaceae)

Estimates of the phylogenetic relationships among cultivated and wildAllium species would benefit from identification of molecular characters. Restriction enzyme analysis of the chloroplast DNA (cpDNA) of the bulb onion (Allium cepa), Japanese bunching onion (A. fistulosum), wildAllium species in sect.Cepa andPhyllodolon, and the outgroupsA. ampeloprasum andA. tuberosum detected 39 polymorphisms.Allium cepa andA. vavilovii were identical for all characters. Cladistic analysis generated three most-parsimoniousWagner trees of 44 steps differing only in a zero-length branch.Allium fistulosum andA. altaicum (sect.Phyllodolon) comprised a monophyletic lineage separated from theA. cepa andA. vavilovii of sect.Cepa. The unresolved node was composed ofA. galanthum, A. roylei, and the lineage containingA. cepa, A. vavilovii, A. fistulosum, andA. altaicum. The clade containingA. altaicum, A. cepa, A. fistulosum, A. galanthum, A. roylei, andA. vavilovii remained resolved for strict consensus ofWagner trees of 48 steps or less.Allium pskemense andA. oschaninii were increasingly distant.Allium oschaninii has been proposed as the progenitor of the bulb onion, but was more closely related to the common progenitor of all species in sect.Cepa andPhyllodolon. Phylogenies estimated from cpDNA characters usingDollo parsimony resulted in a single most-parsimonious tree of 46 steps and agreed with phylogenies based onWagner parsimony. Polymorphic restriction enzyme sites in the 45s ribosomal DNA were not used to estimate phylogenies because of uncertain homologies, but are useful for identifying interspecific hybrids. The maternal phylogenies estimated in this study help to distinguish wildAllium species closely related to the bulb onion. Although not in agreement with classifications based on morphology, the phylogenies closely reflected crossability among species in sect.Cepa andPhyllodolon.     

PCR-RFLP Analysis on Phylogeny of Allium

The molecular phylogeny of the genus Allium which includes eighteen species selected from nine sections was investigated through PCR-RFLP analysis of two chloroplast DNA fragments, including trak gene (approximately 2 520 bp) and rpL16 gene (approximately 1 230 bp). Digestion of these two fragments by 26 restriction endonucleases yielded 303 polymorphic recognition sites, of which 163 were informative sites. The restriction site data matrix were analyzed following the parsimonious Wagner and parsimonious Dollo principle of PAUP ( version 3.1.1 ). Topologically, the most parsimonious Wagner tree constructed by branch-and-bound and heuristic search was similar to the most parsimonious Dollo tree. All the taxa of Allium form a monophyletic group, and five sections based on morphological characters were supported strongly by this result. Sect. Augninum is closely related to Sect. Bromatorrhiza, Sect. Molium is closely related to Sect. Caloscordum. Their reliability was farther confirmed by the bootstrap test very well. In morphology, A. pallasii is closely related to A. caeruleum and belongs to Sect. Haplostemen, A. cepa is closely related to A. galanthum and belongs to Sect. Cepa. But evidence from cladistics of parsimonious tree based on 163 informative sites of PCR-RFLPs showed that they are neither confined to a monophyletic group nor to a natural taxon.     

A phylogeny of Chinese species in the genus Phrynocephalus (Agamidae) inferred from mitochondrial DNA sequences

We investigated the phylogenetic relationships among most Chinese species of lizards in the genus Phrynocephalus (118 individuals collected from 56 populations of 14 well-defined species and several unidentified specimens) using four mitochondrial gene fragments (12S rRNA, 16S rRNA, cytochrome b, and ND4-tRNA(LEU)). The partition-homogeneity tests indicated that the combined dataset was homogeneous, and maximum-parsimony (MP), neighbor-joining (NJ), maximum-likelihood (ML) and Bayesian (BI) analyses were performed on this combined dataset (49 haplotypes including outgroups for 2058bp in total). The maximum-parsimony analysis resulted in 24 equally parsimonious trees, and their strict consensus tree shows that there are two major clades representing the Chinese Phrynocephalus species: the viviparous group (Clade A) and the oviparous group (Clade B). The trees derived from Bayesian, ML, and NJ analyses were topologically identical to the MP analysis except for the position of P. mystaceus. All analyses left the nodes for the oviparous group, the most basal clade within the oviparous group, and P. mystaceus unresolved. The phylogenies further suggest that the monophyly of the viviparous species may have resulted from vicariance, while recent dispersal may have been important in generating the pattern of variation among the oviparous species.     

菝葜科基于形态学证据的系统发育分析

对全世界范围分布的菝葜科Smilacaceae的79个代表种(包括了全部的属和组), 以分布于南美洲的Philesia Comm. ex Juss.和Lapageria Ruiz &; Pav.属为外类群, 选取包括花粉和染色体性状在内的47个广义的形态学性状进行了分支分类系统发育分析, 同时以表征分类的方法构建了距离树(NJ)辅助分析, 首次对世界分布的菝葜科各属间及属内的系统发育关系作了探讨。(1)Ripogonum与菝葜属Smilax +肖菝葜属Heterosmilax互为姐妹群, 但是距离较远, 支持将类菝葜属(新拟中文名)Ripogonum独立为科的观点; (2)肖菝葜属在菝葜科内处于较为进化的分支上, 并与菝葜属土茯苓组sect. Coilanthus的部分种组成一个具较高支持率(88%)的单系分支, 分析表明肖菝葜属并非是一个好属, 应归入菝葜属; (3)菝葜属6个组的划分大都没有得到支持, 只有东亚北美间断分布的草本菝葜组sect. Nemexia的单系得到很好的支持(93%); (4)分布于南美洲巴西的种类聚为一个单系类群, 表明它们可能有共同的起源, 但由于取样局限, 南美洲种类的系统地位有待进一步研究。     

葱属系统发育的PCR—RFLP分析初报

葱属（Ａｌｉｕｍ）为广义百合科（Ｌｉｌｉａｃｅａｅ）葱族（Ａｌｉｅａｅ）的一个重要类群。该属种类丰富、分布极广，关于它的系统发育和进化问题，目前尚存在不少分歧［１］。我国有葱属１１０种（含变种和引进外来种），主要分布于东北、华北、西北和西南地区。我们...     

THE PHYLOGENETIC RELATIONSHIPS AMONG REQUIEM AND HAMMERHEAD SHARKS: INFERRING PHYLOGENY WHEN THOUSANDS OF EQUALLY MOST PARSIMONIOUS TREES RESULT

Abstract— Protein variation among 37 species of carcharhiniform sharks was examined at 17 presumed loci. Evolutionary trees were inferred from these data using both cladistic character and a distance Wagner analysis. Initial cladistic character analysis resulted in more than 30 000 equally parsimonious tree arrangements. Randomization tests designed to evaluate the phylogenetic information content of the data suggest the data are highly significantly different from random in spite of the large number of parsimonious trees produced. Different starting seed trees were found to influence the kind of tree topologies discovered by the heuristic branch swapping algorithm used. The trees generated during the early phases of branch swapping on a single seed tree were found to be topologically similar to those generated throughout the course of branch swapping. Successive weighting increased the frequency and the consistency with which certain clades were found during the course of branch swapping, causing the semi-strict consensus to be more resolved. Successive weighting also appeared resilient to the bias associated with the choice of initial seed tree causing analyses seeded with different trees to converge on identical final character weights and the same semi-strict consensus tree.
The summary cladistic character analysis and the distance Wagner analysis both support the monophyly of two major clades, the genus Rhizoprionodon and the genus Sphyrna. . The distance Wagner analysis also supports the monophyly of the genus Carcharhinus . However, the cladistic analysis suggests that Carcharhinus is a paraphyletic group that includes the blue shark Prionace glauca .     

The use of anonymous DNA markers in assessing worldwide relatedness in the yeast species Pichia kluyveri Bedford and Kudrjavzev

Pichia kluyveri, a sexual ascomycetous yeast from cactus necroses and acidic fruit, is divided into three varieties. We used physiological, RAPD, and AFLP data to compare 46 P. kluyveri strains collected worldwide to investigate relationships among varieties. Physiology did not place all strains into described varieties. Although the combined AFLP and RAPD data produced a single most parsimonious tree, separate analysis of AFLP and RAPD data resulted in significantly different trees (by the partition homogeneity test). We then compared the distribution of strains per band to an expected distribution. This suggested we could separate both the AFLP and RAPD datasets into bands from rapidly and slowly changing DNA regions. When only bands from slowly changing regions (from each dataset) were included in the analysis, both the RAPD and AFLP datasets supported a single tree. This second tree did not differ significantly from the cladogram based on all of the DNA data, which we accepted as the best estimate of the phylogeny of these yeast strains. Based on this phylogeny, we were able to demonstrate the strong influence of geography on the population structure of this yeast, confirm the monophyly of one variety, question the utility of maintaining another variety, and demonstrate that the physiological differences used to separate the varieties did not do so in all cases.     

Phylogeography of <Emphasis Type="Italic">Achyranthes bidentata</Emphasis> (Amaranthaceae) in China’s Warm-Temperate Zone Inferred from Chloroplast and Nuclear DNA: Insights into Population Dynamics in Response to Climate Change During the Pleistocene

Previous phylogeographic studies of the warm-temperate zone in China focused on woody plants, but little attention was given to the climate-sensitive herbaceous plants. In this work, we implemented a phylogeographic survey on the perennial herb Achyranthes bidentata in China’s warm-temperate zone. The sequence variation of cpDNA and nDNA was examined across 209 individuals from 21 populations. A total of 11 chlorotypes and 26 ribotypes were identified. The cpDNA data showed weak population genetic differentiation and could not divide the 21 populations into different genetic groups. By contrast, the nDNA data revealed stronger genetic differentiation than cpDNA and could divide these populations into two genetic groups. The cpDNA and nDNA data both gave unambiguous signs of recent sudden population expansion. Based on the cpDNA and nDNA data, the estimated time of population expansion occurred at interglacial Marine Isotope Stage (MIS) 9 of the Penultimate Glaciation in China. The cpDNA and nDNA data suggested that the glaciation during this period deeply influenced the current distribution patterns and intraspecific divergence of A. bidentata. Our survey showed that A. bidentata tracked climatic oscillations by a large range of southward retreat into three main refugia during MIS 8, followed by the sudden northward expansion from these refugia during MIS 9.     

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.     

MOLECULAR PHYLOGEOGRAPHY, RETICULATION, AND LINEAGE SORTING IN MEDITERRANEAN SENECIO SECT. SENECIO (ASTERACEAE)

Abstract The Mediterranean species complex of Senecio serves to illustrate evolutionary processes that are likely to confound phylogenetic inference, including rapid diversification, gene tree‐species tree discordance, reticulation, interlocus concerted evolution, and lack of complete lineage sorting. Phylogeographic patterns of chloroplast DNA (cpDNA) haplotype variation were studied by sampling 156 populations (502 individuals) across 18 species of the complex, and a species phylogeny was reconstructed based on sequences from the internal transcribed spacer (ITS) regions of nuclear ribosomal DNA. For a subset of species, randomly amplified polymorphic DNAs (RAPDs) provided reference points for comparison with the cpDNA and ITS datasets. Two classes of cpDNA haplotypes were identified, with each predominating in certain parts of the Mediterranean region. However, with the exception of S. gallicus, intraspecific phylogeographic structure is limited, and only a few haplotypes detected were species‐specific. Nuclear sequence divergence is low, and several unresolved phylogenetic groupings are suggestive of near simultaneous diversification. Two well‐supported ITS clades contain the majority of species, amongst which there is a pronounced sharing of cpDNA haplotypes. Our data are not capable of diagnosing the relative impact of reticulation versus insufficient lineage sorting for the entire complex. However, there is firm evidence that S. flavus subsp. breviflorus and S. rupestris have acquired cpDNA haplotypes and ITS sequences from co‐occurring species by reticulation. In contrast, insufficient lineage sorting is a viable hypothesis for cpDNA haplotypes shared between S. gallicus and its close relatives. We estimated the minimum coalescent times for these haplotypes by utilizing the inferred species phylogeny and associated divergence times. Our data suggest that ancestral cpDNA polymorphisms may have survived for ca. 0.4–1.0 million years, depending on molecular clock calibrations.     

Molecular phylogeny of Osmanthus (Oleaceae) based on non‐coding chloroplast and nuclear ribosomal internal transcribed spacer regions

Abstract The phylogenetic relationships of Osmanthus Lour. were investigated using the nuclear ribosomal internal transcribed spacer (ITS) regions and non‐coding chloroplast regions (psbA‐trnH, trnL‐F). The two datasets support the conclusion that Osmanthus is polyphyletic, with some species of the subtribe Oleinae nested within Osmanthus. Osmanthus didymopetalus P. S. Green is nested within the clade formed by species of section Osmanthus in two trees. Osmanthus attenuatus P. S. Green, O. yunnanensis P. S. Green, and O. gracilinervis R. L. Lu of traditional section Osmanthus are clearly divergent from other accessions, and do not form a monophyletic group with other Osmanthus accessions. Osmanthus marginatus Hemsl. is embedded in the clade formed by species of section Osmanthus in the ITS tree. In cpDNA trees all species of section Osmanthus are placed in the large clade and all species of section Leiolea formed a group. The taxonomic incongruence among trees for ITS and cpDNA indicate hybridization, as introgression may have occurred among some species of sections Osmanthus and Leiolea. Phylogeny of Osmanthus is discussed in light of molecular and morphological data, and a revised infrageneric classification with three sections (Leiolea, Siphosmanthu, and Osmanthus) is presented. The section Linocieroides is abandoned and united with section Osmanthus.