CHLOROPLAST DNA RESTRICTION SITE VARIATION IN THE FERN GENUS PELLAEA: PHYLOGENETIC RELATIONSHIPS OF THE PELLAEA GLABELLA COMPLEX

The cheilanthoid ferns have long resisted efforts to circumscribe well-defined, phylogenetically natural generic and infrageneric groups, presumably because of homoplastic morphologies associated with their xeric habitats. This cladistic analysis of phylogenetically informative chloroplast DNA restriction site data from 14 enzymes and seven taxa in the cheilanthoid genus Pellaea provides new insights into the phylogenetic relationships of the P. glabella complex. It also assesses the congruence of results based on restriction site data at inter- and intraspecific levels in these sexually and apogamously reproducing ferns with those of earlier morphological and isozyme analyses of the same group. Wagner parsimony yielded a single most parsimonious tree of 187 steps and 11% homoplasy, based on a data matrix of 166 restriction sites of which 66 were phylogenetically informative. Phylogenetic analysis based on user-defined stepmatrix character-state weighting of site gains over losses produced an identical single most parsimonious tree. Dollo parsimony yielded two most parsimonious trees, one of which was topologically identical to the Wagner tree. Specific and infraspecific relationships in the P. glabella complex determined by the completely independent restriction site and isozyme data sets are identical. This lends confidence to the ongoing use of restriction site data in a broader study of Pellaea and other cheilanthoid taxa and to the present conclusions that P. atropurpurea is sister to the P. glabella complex, whereas P. breweri, previously considered the closest relative of this complex, is actually more distantly related to it than are the other taxa in this study.     

TRIBAL PLACEMENT OF MARSHALLIA (ASTERACEAE) USING CHLOROPLAST DNA RESTRICTION SITE MAPPING

The examination of morphological traits has failed to resolve the tribal placement of Marshallia. Suggested relationships for this anomalous genus have, at various times, included Eupatorieae, Heliantheae, Vemonieae, and Inuleae. Chloroplast DNA restriction site mapping, using Bamadesiinae (Mutisieae) as the outgroup, revealed 981 restriction site mutations, 332 of which were phylogenetically informative, for 60 genera representing 15 tribes of Asteraceae. Wagner parsimony produced 36 equally parsimonious tress of 729 steps, and Dollo parsimony produced 34 equally parsimonious trees of 759 steps. Monophyletic groups, resulting from the Wagner analysis, were further tested with the bootstrap method. The placement of Marshallia in the Heliantheae-Tageteae-Coreopsideae-Eupatorieae complex was consistent for all trees produced. Tageteae and Coreopsideae form the sister group to paraphyletic Heliantheae, with Marshallia sharing its most recent common ancestor with Galinsoga, Palafoxia, and Bahia. The Eupatorieae form a monophyletic clade that is derived from helianthoid ancestors.     

PHYLOGENETIC IMPLICATIONS OF CHLOROPLAST DNA RESTRICTION SITE VARIATION IN THE MUTISIEAE (ASTERACEAE)

Phylogenetic relationships among 13 species in the tribe Mutisieae and a single species from each of three other tribes in the Asteraceae were assessed by chloroplast DNA restriction site mapping. Initially, 211 restriction site mutations were detected among 16 species using 10 restriction enzymes. Examination of 12 of these species using nine more enzymes revealed 179 additional restriction site mutations. Phylogenetic analyses of restriction site mutations were performed using both Dolio and Wagner parsimony, and the resulting monophyletic groups were statistically tested by the bootstrap method. The phylogenetic trees confirm an ancient evolutionary split in the Asteraceae that was previously suggested by the distribution of a chloroplast DNA inversion. The subtribe Barnadesiinae of the tribe Mutisieae is shown to be the ancestral group within the Asteraceae. The molecular phylogenies also confirm the paraphyly of the Mutisieae and provide statistical support for the monophyly of three of its four currently recognized subtribes (Barnadesiinae, Mutisiinae, and Nassauviinae). The fourth subtribe, Gochnatiinae, is shown to be paraphyletic. Within the subtribes, several closely related generic pairs are identified. Chloroplast DNA sequence divergence among genera of the Asteraceae ranges between 0.7 and 5.4%, which is relatively low in comparison to other angiosperm groups. This suggests that the Asteraceae is either a relatively young family or that its chloroplast DNA has evolved at a slower rate than in other families.     

PHYLOGENETIC RELATIONSHIPS OF CAULERPA (CHLOROPHYTA) BASED ON COMPARATIVE CHLOROPLAST ULTRASTRUCTURE1,2

The ultrastructure of chloroplasts from 28 of the 73 species of Caulerpa Lamouroux (Chlorophyta, Caulerpales) has been studied to aid in interpreting phylogenetic relationships among the 12 recognized sections. Variations of systematic value include pyrenoid occurrence and fine structure, thylakoid architecture and amount of photosynthate storage. Comparisons of field and culture specimens indicate these characters are consistent. Chloroplast thylakoids are grouped into bands, with the distribution of bands differing among species. In the most common arrangement, bands are evenly distributed throughout the chloroplast. A few species show lateral displacement of bands whereas others have a majority of bands arranged at one end of the chloroplast. Starch is stored cither as one or two large grains (> 1 μm diam.) or numerous small grains (< 0.5 μm diam.). Electron-transparent regions are common in other species in which chloroplasts rarely store starch. Simple, embedded pyrenoids are present in several species of section Sedoideae. An opaque region occurs in chloroplasts of C. elongata which may represent an intermediate stage in the evolutionary loss of the pyrenoid. It is suggested that the chloroplast of Caulerpa evolved, from a large, complex, pyrenoid-containing organelle housing both photosynthetic and amylogenic functions, to a small, structurally simpler one, specialized for photosynthesis alone. A phylogeny of the 12 sections of Caulerpa is constructed, based on chloroplast evolution which agrees with an earlier morphology-based hypothesis on the origin and evolution of Caulerpa.     

CHLOROPLAST DNA RESTRICTION SITE VARIATION AND THE PHYLOGENY OF COREOPSIS SECTION COREOPSIS (ASTERACEAE)

Restriction site variation in chloroplast DNAs (cpDNAs) of Coreopsis section Coreopsis was employed to assess divergence and phylogenetic relationships among the nine species of the section. A total of fourteen restriction site mutations and one length mutation was detected. Cladistic analysis of the cpDNA data produced a phylogeny that is different in several respects from previous hypotheses. CpDNA mutations divide the section into two groups, with the two perennial species C. auriculata and C. pubescens lacking any derived restriction site changes. The other seven species are united by five synapomorphic restriction site mutations and the one length mutation. These seven species fall into three unresolved clades consisting of 1) the remaining three perennial species, C. grandiflora, C. intermedia, and C. lanceolata; 2) three annual species, C. basalis, C. nuecensoides, and C. nuecensis; and 3) the remaining annual, C. wrightii. The cpDNA data suggest that, although the perennial habit is primitive within the section, the annual species of section Coreopsis have likely not originated from an extant perennial species. The estimated proportion of nucleotide differences per site (given as 100p) for the cpDNAs of species in the section ranges from 0.00 to 0.20, which is comparable to or lower than values reported for other congeneric species. The low level of cpDNA divergence is concordant with other data, including cross compatibility, interfertility and allozymes, in suggesting that species of the section are not highly divergent genetically.     

大熊猫及其近缘种rDNA序列变异和系统进化关系

应用ｒＤＮＡ间隔区Ｓｏｕｔｈｅｒｎ转换技术研究大熊猫及其近缘种的分子系统关系。通过比较大熊猫、小熊猫、黑熊、马来熊、浣熊和猞猁的ｒＤＮＡ间隔区限制性内切酶图谱,用最大似然法和简约法构建它们的分子系统树。结果表明大熊猫与熊具有较近的亲缘关系,与小熊猫和浣熊的亲缘关系较远。     

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.     

A REASSESSMENT OF PHYLOGENETIC RELATIONSHIPS WITHIN THE PHAEOPHYCEAE BASED ON RUBISCO LARGE SUBUNIT AND RIBOSOMAL DNA SEQUENCES

To better assess the current state of phaeophycean phylogeny, we compiled all currently available rbc L, 18S, and 26S rDNA sequences from the EMBL/GenBank database and added 21 new rbc L sequences of our own. We then developed three new alignments designed to maximize taxon sampling while minimizing information loss due to partial sequences. Phylogenetic analyses were performed on separate and combined data sets (with and without taxa from the sister classes Tribophyceae and Phaeothamniophyceae as outgroups) using a variety of assumption sets, tree-drawing algorithms (parsimony, neighbor joining, and likelihood), and resampling methods (bootstrap, decay, jackknife). Partition homogeneity testing (PHT) by codon position within rbc L showed that all positions could be used despite mild third position saturation. PHT by gene and domain within rDNA showed that the 26S D1 and D2 regions do not enhance phylogenetic signal even when combined with the 18S. The rbc L and rDNA (excluding the 26S D1 and D2) could be combined under PHT. The topology of the combined tree was the same as that of the rbc L tree alone, but bootstrap support was consistently higher in the combined analysis, applied to more branches, and enabled the establishment of sister group relationships among six orders. Although the taxon sampling for the combination tree was lower ( n = 22) than for individual gene analyses ( n = 58 for rbc L and n = 59 for rDNA), results show that the Laminariales (previously reported) and Sphacelariales (new) are both paraphyletic. Choristocarpus tenellus (Kützing) Zanardini is the most basal phaeophyte and the Dictyotales the most basal order. In contrast, the Laminariales sensu stricto ( s.s. ) and Ectocarpales sensu lato ( s.l. ) are the most derived. For phylogenetic studies in the Phaeophyceae, rbc L has more resolving power than rDNA, though the reason for this is unclear based on the fact that both genes are highly conserved.     

AN OVERVIEW OF THE GENUS PYRRHOPAPPUS (ASTERACEAE: LACTUCEAE) WITH EMPHASIS ON CHLOROPLAST DNA RESTRICTION SITE DATA

The genus Pyrrhopappus in recent systematic treatments has comprised five taxa (four species, one with two varieties), which have now been studied anew using morphogeographical and chloroplast DNA restriction site data. Eight populations, representing all of the recognized taxa of Pyrrhopappus, were digested with 17 restriction enzymes. Only three restriction site differences were found from among 750 restriction sites and no length variations were observed. This contrasts with similar studies, using these same enzymes, on the closely related genus Krigia in which 173 mutation sites and 20 length variations were found among the seven species concerned. Nucleotide sequence divergence values among the species of Pyrrhopappus were extremely low (0.0012) compared to much higher values found in the closely related genus Krigia (0.1270). Three species of Pyrrhopappus are herein recognized: two diploids with 2n = 12 chromosomes, P. carolinianus and P. pauciflorus (including P. multicaulis, P. geiseri and P. rothrockii), and a tetraploid (2n = 24), P. grandiflorus. The tetraploid is partially sympatric with both diploids but is readily recognized by its perennial roots, which bear tuber-like enlargements. These three species presumably arose relatively recently, and the DNA data suggest that neither P. pauciflorus nor P. carolinianus gave rise to the tetraploid P. grandiflorus.     

雪鸡属分类地位探讨

以5种鸡形目鸟类,包括4个藏雪鸡Tetraogallus tibetanus、12个喜玛拉雅雪鸡T.himalayensis、1个阿尔泰雪鸡T.altaicus、1个石鸡Alectoris chuckar和1个斑翅山鹑Perdix dauurica为材料.通过P(永扩增线粒体细胞色素6基因513个碱基,同时从GenBank下载25种鸡形目鸟类细胞色素b基因序列.通过对鸡形目24个属线粒体细胞色素b基因序列的分析,结果表明共有214个变异位点,简约信息位点184个.以鸿雁 Anser cygnoides为外群,在运用不同分析方法得到的拓扑结构基础上,构建了最大简约树(MP)和最大似然树(ML),结果表明鸡形目鸟类鹑族和雉族基本上是多系发生的.结合分子钟和遗传信息分析,可以得出雪鸡属在鹑族中形成的时间相对较晚,约在14.6Myr出现石鸡属的祖先种群;而在约12.6Myr属和鹌鹑属开始出现.雪鸡属的祖先足起源于低海拔环境,后来伴随着青藏高原的逐渐降起和更新世冰期事件的发生各自演化形成现今各个种.     

角雉属分类地位的探讨

角雉属Tragopan两性羽色不同,雄性具有艳丽的装饰性羽毛,这与一般雉族Phasianini相似;而尾较翅为短,尾羽的换羽从中央到外侧,这些特征又与鹑族Perdicini各属相同,形态特征上角雉属被划为鹑族.通过PCR扩增鸡形目Galliformes黄腹角雉Tragopan caboti等10个属19个个体的线粒体DNA细胞色素b的部分基因,获取片段长度为828bp,以及从GenBank获取22种样本的相应序列,以角叫鸭Anhima cornuta和海龟Kachuga dhongoka为外群,分别用邻接法(Neighbor-joining,NJ)和最小进化法(Minimum-evolution,ME),对鸡形目和将雉科的15个属分为5个属及雉族和鹑族构建分子系统树,NJ和ME系统树中,都是角雉与雉类相聚.角雉出现形态解剖与基因分析分类地位的不一致,说明雉和鹑可能不是单系群.同时我们认为雌雄的色泽区别比尾羽的长短和换羽方式在对雉和鹑形态特征分类时更为重要.从分子水平分析的结果都是角雉属与雉聚类.因此角雉归为雉族更合理.     

VARIATION IN THE CHLOROPLAST GENES RPOC1 AND RPOC2 OF THE GENUS ASTRAGALUS (FABACEAE): EVIDENCE FROM RESTRICTION SITE MAPPING OF A PCR-AMPLIFIED FRAGMENT

A 4,100-base pair (bp) region of the chloroplast genome, amplified via the polymerase chain reaction, was obtained from 14 species of the genus Astragalus and mapped with 23 restriction enzymes. The amplified region encompassed the chloroplast genes RNA polymerase Cl (rpoCl; 90.8% of the gene) and RNA polymerase C2 (rpoC2; 32.7% of the gene) including the intron in rpoC1 and the intergenic spacer between the two genes. Approximately 144 sites (615 bp) were identified; 37 restriction site mutations and one 10-bp length mutation were detected. Estimated interspecific sequence divergence values ranged from 0.00% to 3.92%. Phylogenetic analysis with Wagner and Dollo parsimony both resulted in a single 41-step tree with a consistency index of 0.951. The relative positions of 115 restriction sites were mapped. The insertion and ten of the restriction site mutations mapped to the intron in rpoC1, 18 site mutations mapped to the rpoC1 exons, three site mutations mapped to rpoC2, three site changes mapped to the intergenic spacer, and four site changes were not mapped. This study demonstrates the utility of restriction site analysis of PCR-amplified chloroplast DNA to the study of plant phylogenetic relationships and molecular evolution.     

三尖杉科植物RAPD分析及其系统学意义

利用随机扩增多态性ＤＮＡ（ＲＡＰＤ）技术分析了三尖杉科植物三尖杉Ｃｅｐｈａｌｏｔａｘｕｓ ｆｏｒｔｕｎｅｉ Ｈｏｏｋ．ｆ．、粗榧Ｃｅｐｈａｌｏｔａｘｕｓ ｓｉｎｅｎｓｉｓＬｉ、海南粗榧Ｃｅｐｈａｌｏｔａｘｕｓ ｈａｉｎａｎｅｎｓｉｓＬｉ和篦子三尖极Ｃｅｐｈａｌｏｔａｘｕｓ ｏｌｉｖｅｒｉＭａｓｔ。,经筛选Ｏｐｅｒｏｎ公司的４组８０个引物,其中１１４个引物的谱带清晰呈多态性。采用ＵＰＧＭＡ法对各样本     

PHYLOGENETIC STUDY OF HEDYOTIS (RUBIACEAE) IN NORTH AMERICA

Lewis , Walter H. (Stephen F. Austin State Coll., Nacogdoches, Texas.) Phylogenetic study of Hedyotis (Rubiaceae) in North America. Amer. Jour. Bot. 49(8): 855–865. Illus. 1962.—Chromosome numbers for 39 taxa of Hedyotis separable into the subgenera Edrisia (Raf.) Lewis and Oldenlandia (L.) T. & G. are reported. The occurrence of basic numbers of x = 6, 7, 8, 9(10), 11, and 13, including infraspecific aneuploidy in H. nigricans (Lam.) Fosb., illustrates the importance of aneuploidy in the speciation of Hedyotis in contrast to most rubiaceous genera. In the North American subg. Edrisia, 25 species are ranked according to primitive and advanced expressions for 13 characters. It is postulated on the basis of these, ecologic, geographic, and chromosomal data that the x = 11 group gave rise to the x = 13 line by the gain of chromosomes and to the x = (10)9, 8, and 7 groups by reduction. Those species with a basic number of 6 are thought to have an Asian origin. Although aneuploidy has been dominant in the evolution of subg. Edrisia, only 12% of the species are polyploids. The development of polyploid races in 3 species, H. caerulea (L.) Hook., H. polypremoides (Gray) Shinners, and H. purpurea (L.) T. & G., however, suggests a greater role of polyploidy in the current evolution of Hedyotis.     

黑麦属种间叶绿体DNA的变异性和种系发生的关系

为了获得有关黑麦属种间关系、黑麦属与小麦属和山羊草属种系发牛关系的新资料,应用Ban HI等8种限制性核酸内切酶酶解黑麦属5个种的叶绿体DNA,进行琼脂糖凝胶电泳,分析其酶解图谱。结果表明,黑麦属种叶绿体基因组的大小与小麦属和山羊草属的叶绿体基因组非常相似。根据黑麦属5个种遗传距离的估算,并与小麦属和山羊草属已知叶绿体基因组间所观察到的遗传距离相比,黑麦属叶绿体基因组的分化很少;这些资料进一步证实黑麦属的近代起源;并表明黑麦属、小麦属和山羊草属间的亲缘关系是非常密切的。     

我国痘苗病毒天坛株基因组左端限制酶位点的变异

本文用分子杂交及酶谱分析的方法,证明了我国痘苗病毒天坛株基因组Hind Ⅲ Dc片段来自Hind Ⅲ C片段,是由于后者Hind Ⅲ酶切位点变异造成的。     

THE SYSTEMATICS AND PHYLOGENETIC RELATIONSHIPS OF VETULICOLIANS

Abstract:  Vetulicolians have variously been considered to be unusual arthropods, stem-group deuterostomes or relatives of the tunicates. They are known from a number of Cambrian Lagerstätten, and are particularly diverse in the Chengjiang biota of Yunnan Province, China. We recognize two classes, Vetulicolida and Banffozoa, which together form a monophyletic group. Within the Chinese collections we also identify two new species and recognize one new genus: Vetulicola monile sp. nov. and Bullivetula variola gen. et sp. nov. The evidence from new and previously described specimens is used to undertake a phylogenetic analysis and to evaluate a range of hypotheses for the affinities of vetulicolians. Given the difficulties of interpreting features in enigmatic fossils and the apparently contradictory set of characters possessed by vetulicolians, it is not possible on current evidence to reach an unequivocal conclusion regarding the phylogenetic position of the group. One possibility is that they are a sister group of arthropods that lost limbs but gained gill structures analogous to those of deuterostomes, but several features remain unexplained by this model. If they are protostomes, a more generally parsimonious position is close to the kinorhynchs. An alternative is that they are deuterostomes, although a placement at the base of the clade is not supported by the evidence. If they are deuterostomes, it is more likely that they are close to the tunicates.