Taxonomy and biogeography of Diapensia (Diapensiaceae) based on chloroplast genome data

Diapensia L. is the second largest genus of Diapensiaceae. The taxonomic treatment within Diapensia and relationships within Diapensiaceae have been disputed. Chloroplast genome sequence data have proved to be useful for plant phylogenetic analyses and species delimitation. In this study, we de novo sequenced and assembled 22 chloroplast genomes of 15 species of Diapensiaceae, including all recognized species of Diapensia with multiple samples. A super‐matrix containing a total of 107 genes and 18 taxa was constructed for phylogenetic analyses to resolve phylogenetic relationships among genera of the family and within Diapensia. The resulting phylogenetic tree showed the following strongly supported relationships: (Galax, (Pyxidanthera, (Berneuxia, ((Schizocodon, Diapensia), and Shortia s.s.)))). The dated phylogeny and reconstructed lineage‐through‐time plot for the family indicated rapid diversification in the Neogene and an acceleration of diversification rate after c. 8 Ma. Biogeographic analysis suggested that Diapensia originated in the Northeast Asian mountains approximately 6.06 Ma, followed by northward dispersal to the Arctic and southwestward dispersal to the Himalaya–Hengduan Mountains. Phylogenetic relationships within Diapensia were well resolved. Based on the phylogenetic results, we proposed to reinstate the species status of Diapensia bulleyana Forrest ex Diels, and raised D. purpurea f. albida to the species rank (D. albida [W. E. Evans] J. F. Ye comb. & stat. nov.). The distribution ranges of all species delineated based on the phylogenetic results were revised accordingly based on specimen occurrences. Our study adds new examples for the power of plastid genome data for resolving phylogenetic relationships and clarifying taxonomic disputes among closely related species.     

Nelumbonaceae:Systematic position and species diversification revealed by the complete chloroplast genome

<正>Nelumbonaceae is a morphologically unique family of angiosperms and was traditionally placed in Nymphaeales;more recently,it was placed in Proteales based on molecular data,or in an order of its own,Nelumbonales. To determine the systematic position of the family and to date the divergence time of the family and the divergence time of its two intercontinentally disjunct species,we sequenced the entire chloroplast genome of Nelumbo lutea and most of the chloroplast genes of,N.nucifera.We carried out phylogenetic and molecular dating analyses of the two species and representatives of 47 other plant families,representing the major lineages of angiosperms, using 83 plastid genes.The N.lutea genome was 163 510 bp long,with a total of 130 coding genes and an overall GC content of 38%.No significant structural differences among the genomes of N.lutea,Nymphaea alba, and Platanus occidentalis were observed.The phylogenetic relationships based on the 83 plastid genes revealed a close relationship between Nelumbonaceae and Platanaceae.The divergence times were estimated to be 109 Ma between the two families and 1.5 Ma between the two Nelumbo species.The estimated time was only slightly longer than the age of known Nelumbo fossils,suggesting morphological stasis within Nelumbonaceae.We conclude that Nelumbonaceae holds a position in or close to Proteales.We further conclude that the two species of Nelumbo diverged recently from a common ancestor and do not represent ancient relicts on different continents.     

Molecular evolution of insertions and deletion in the chloroplast genome of silene

Insertions, deletions, and inversions in the chloroplast genome of higher plants have been shown to be extremely useful for resolving phylogenetic relationships both between closely related taxa and among more basal lineages. Introns and intergenic spacers from the chloroplast genome are now increasingly used for phylogenetic and population genetic studies of populations from a single species, and it is therefore interesting to know whether indels can provide useful data and hence increase the power of intraspecific studies. Here, we show that indels in three cpDNA intergenic spacers and one cpDNA intron for two species of Silene evolve at slightly higher rates than base pair substitutions. Repeat indels appear to have the highest rate of evolution and are thus more prone to homoplasy. We show that coded indel data have high information content for phylogenetic analysis, and indels thus provide useful information to infer phylogenetic relationships at the intraspecific level.     

Molecular phylogeny of Dipterocarpaceae in Indonesia based on chloroplast DNA

In order to construct a molecular phylogeny of Indonesian Dipterocarpoideae (Dipterocarpaceae), PCR-RFLP of the chloroplast regions rbcL, petB, psbA, psaA, and trnL-F was performed with seven restriction enzymes in 129 samples including 58 species from nine genera. In the strict consensus tree with Monotes kerstingii as outgroup Indonesian Dipterocarpaceae were divided into two major clades. One clade (bootstrap value=71) consisted of Upuna, Cotylelobium, Anisoptera, Vatica, Dipterocarpus (tribe Dipterocarpeae, bootstrap value=83) and Dryobalanops (tribe Shoreae, bootstrap value=99) in a basal position. The second clade consisted of Hopea, Parashorea, and Shorea (tribe Shoreae) with 95% bootstrap support. Tribe Dipterocarpeae is monophyletic, tribe Shoreae is polyphyletic since Dryobalanops is sister to tribe Dipterocarpeae. In the neighbour-joining tree the sister group position of Dryobalanops to tribe Dipterocarpeae is not supported by the bootstrap analysis. Alternatively, we used Upuna borneensis as outgroup. The effect of outgroup selection on tree topology, taxonomic classification and the interpretation of character evolution is discussed.     

The complete nucleotide sequence of the coffee (Coffea arabica L.) chloroplast genome: organization and implications for biotechnology and phylogenetic relationships amongst angiosperms

The chloroplast genome sequence of Coffea arabica L., the first sequenced member of the fourth largest family of angiosperms, Rubiaceae, is reported. The genome is 155 189 bp in length, including a pair of inverted repeats of 25 943 bp. Of the 130 genes present, 112 are distinct and 18 are duplicated in the inverted repeat. The coding region comprises 79 protein genes, 29 transfer RNA genes, four ribosomal RNA genes and 18 genes containing introns (three with three exons). Repeat analysis revealed five direct and three inverted repeats of 30 bp or longer with a sequence identity of 90% or more. Comparisons of the coffee chloroplast genome with sequenced genomes of the closely related family Solanaceae indicated that coffee has a portion of rps19 duplicated in the inverted repeat and an intact copy of infA . Furthermore, whole-genome comparisons identified large indels (> 500 bp) in several intergenic spacer regions and introns in the Solanaceae, including trnE (UUC)– trnT (GGU) spacer, ycf4 – cemA spacer, trnI (GAU) intron and rrn5 – trnR (ACG) spacer. Phylogenetic analyses based on the DNA sequences of 61 protein-coding genes for 35 taxa, performed using both maximum parsimony and maximum likelihood methods, strongly supported the monophyly of several major clades of angiosperms, including monocots, eudicots, rosids, asterids, eurosids II, and euasterids I and II. Coffea (Rubiaceae, Gentianales) is only the second order sampled from the euasterid I clade. The availability of the complete chloroplast genome of coffee provides regulatory and intergenic spacer sequences for utilization in chloroplast genetic engineering to improve this important crop.     

The chloroplast genome of Phalaenopsis aphrodite (Orchidaceae): comparative analysis of evolutionary rate with that of grasses and its phylogenetic implications

Whether the Amborella/Amborella-Nymphaeales or the grass lineage diverged first within the angiosperms has recently been debated. Central to this issue has been focused on the artifacts that might result from sampling only grasses within the monocots. We therefore sequenced the entire chloroplast genome (cpDNA) of Phalaenopsis aphrodite, Taiwan moth orchid. The cpDNA is a circular molecule of 148,964 bp with a comparatively short single-copy region (11,543 bp) due to the unusual loss and truncation/scattered deletion of certain ndh subunits. An open reading frame, orf91, located in the complementary strand of the rrn23 was reported for the first time. A comparison of nucleotide substitutions between P. aphrodite and the grasses indicates that only the plastid expression genes have a strong positive correlation between nonsynonymous (Ka) and synonymous (Ks) substitutions per site, providing evidence for a generation time effect, mainly across these genes. Among the intron-containing protein-coding genes of the sampled monocots, the Ks of the genes are significantly correlated to transitional substitutions of their introns. We compiled a concatenated 61 protein-coding gene alignment for the available 20 cpDNAs of vascular plants and analyzed the data set using Bayesian inference, maximum parsimony, and neighbor-joining (NJ) methods. The analyses yielded robust support for the Amborella/Amborella-Nymphaeales-basal hypothesis and for the orchid and grasses together being a monophyletic group nested within the remaining angiosperms. However, the NJ analysis using Ka, the first two codon positions, or amino acid sequences, respectively, supports the monocots-basal hypothesis. We demonstrated that these conflicting angiosperm phylogenies are most probably linked to the transitional sites at all codon positions, especially at the third one where the strong base-composition bias and saturation effect take place.     

基于全叶绿体基因组分析的栽培黄草乌基源研究

为探究云南伤科用毒性药材黄草乌(Radix Aconitum Vilmoriniani)栽培品质量的影响因素，该研究利用Illumina HiSeq 4000高通量测序平台对来自10个不同栽培基地黄草乌样品的叶绿体基因组展开测序，经过对测序数据的组装、注释，利用生物信息学工具对其叶绿体基因组特征展开分析并构建系统发育树。结果表明：(1)10个栽培品的叶绿体基因组全长155 744～155 937 bp,大单拷贝区和小单拷贝区分别为86 363～86 548 bp、16 921～17 007 bp,反向重复区大小为26 170～26 236 bp,均注释到131个基因。(2)序列鉴定出60～73个SSR位点，基因组比较分析发现，10个栽培品叶绿体基因组显示出一定的扩张，并在其中发现了trnK-UUU-trnQ-UUG等变异热点区域。(3)基于2个数据集的系统发育分析均表明，JS-1-4、QJ-1-2、LX-1-3、LJ-3-2与黄草乌(Aconitum vilmorinianum)亲缘关系较近；LQ-1-3、GJ-1-3、NL-1-3、DC-2-2和滇南草乌(A.austroyunnan...     

红边龙血树叶绿体基因组特征及其系统发育分析

红边龙血树(Dracaena marginata)是一种在全球广泛种植的龙血树属园艺植物,具有较高的观赏价值和药用价值。本研究首次利用高通量测序技术对红边龙血树叶片进行全基因组测序,组装得到完整的叶绿体基因组序列,并进行注释、序列特征比较和系统发育分析。结果表明,红边龙血树叶绿体基因组包含一个典型的四分体结构,长度为154926 bp,是目前已报道的龙血树属中叶绿体基因组最小的物种;共拥有132个基因,包含86个编码蛋白基因、38个转运RNA基因和8个核糖体RNA基因;密码子偏好性分析发现存在偏好使用A/U碱基结尾的现象,整体上密码子偏好性较低;共鉴定出46个简单重复序列位点和54个长重复序列,分别在大单拷贝区与反向重复区有最大检出率;种间边界分析发现边界区域基因存在相对位置差异,扩张收缩情况总体较为相似;与近缘种进行系统发育分析,红边龙血树与细枝龙血树聚为一类,关系最近,符合形态学分类特征。对红边龙血树叶绿体基因组的解析为龙血树属植物的物种鉴定、遗传多样性和叶绿体转基因工程等提供了重要数据基础。     

The complete chloroplast genome sequence of Pelargonium x hortorum: organization and evolution of the largest and most highly rearranged chloroplast genome of land plants

The chloroplast genome of Pelargonium x hortorum has been completely sequenced. It maps as a circular molecule of 217,942 bp and is both the largest and most rearranged land plant chloroplast genome yet sequenced. It features 2 copies of a greatly expanded inverted repeat (IR) of 75,741 bp each and, consequently, diminished single-copy regions of 59,710 and 6,750 bp. Despite the increase in size and complexity of the genome, the gene content is similar to that of other angiosperms, with the exceptions of a large number of pseudogenes, the recognition of 2 open reading frames (ORF56 and ORF42) in the trnA intron with similarities to previously identified mitochondrial products (ACRS and pvs-trnA), the losses of accD and trnT-ggu and, in particular, the presence of a highly divergent set of rpoA-like ORFs rather than a single, easily recognized gene for rpoA. The 3-fold expansion of the IR (relative to most angiosperms) accounts for most of the size increase of the genome, but an additional 10% of the size increase is related to the large number of repeats found. The Pelargonium genome contains 35 times as many 31 bp or larger repeats than the unrearranged genome of Spinacia. Most of these repeats occur near the rearrangement hotspots, and 2 different associations of repeats are localized in these regions. These associations are characterized by full or partial duplications of several genes, most of which appear to be nonfunctional copies or pseudogenes. These duplications may also be linked to the disruption of at least 1 but possibly 2 or 3 operons. We propose simple models that account for the major rearrangements with a minimum of 8 IR boundary changes and 12 inversions in addition to several insertions of duplicated sequence.     

基于叶绿体基因组SNP的天台鹅耳枥谱系结构与分化分析

天台鹅耳枥为中国特有的濒危植物,仅间断分布于浙江省境内,种群数量稀少,已处于极危状态。该文通过对6个自然居群(包含所有居群的母株)叶绿体基因组(cpDNA)单核苷酸多态性(SNP)研究,探讨天台鹅耳枥谱系结构与系统分化,以评估濒危状况,并提出相应的保护策略。使用TIANGEN试剂盒法提取基因组DNA,用Illumina NovaSeq 6000进行高通量测序,对获得叶绿体全基因组序列,使用在线程序OGDRAW制作cpDNA图谱,用DnaSP分析核苷酸多样性,用PopART软件进行单倍型网络构建,使用RAxML软件构建极大似然树(ML tree),用MrBayes构建Bayes tree。结果表明：(1)通过天台鹅耳枥叶绿体全基因组序列分析,发现大多数蛋白质编码基因和氨基酸序列显示出明显的密码子偏好,检测到cpLTR正向重复32个、回文重复25个、反转重复22个;SSR重复序列不同类型87个,其中大多数富含A/T,单核苷酸的数量最多。(2)在cpDNA中鉴定了314条SNPs,单核苷酸取代显示天台鹅耳枥群体属单系,分为天台县居群(THS)和景宁县居群(JST),居群单倍型之间演化关系呈现...     

Highly variable chloroplast genome from two endangered Papaveraceae lithophytes Corydalis tomentella and Corydalis saxicola

The increasingly wide application of chloroplast (cp) genome super‐barcode in taxonomy and the recent breakthrough in cp genetic engineering make the development of new cp gene resources urgent and significant. Corydalis is recognized as the most genotypes complicated and taxonomically challenging plant taxa in Papaveraceae. However, there currently are few reports about cp genomes of the genus Corydalis. In this study, we sequenced four complete cp genomes of two endangered lithophytes Corydalis saxicola and Corydalis tomentella in Corydalis, conducted a comparison of these cp genomes among each other as well as with others of Papaveraceae. The cp genomes have a large genome size of 189,029–190,247 bp, possessing a quadripartite structure and with two highly expanded inverted repeat (IR) regions (length: 41,955–42,350 bp). Comparison between the cp genomes of C. tomentella, C. saxicola, and Papaveraceae species, five NADH dehydrogenase‐like genes (ndhF, ndhD, ndhL, ndhG, and ndhE) with psaC, rpl32, ccsA, and trnL‐UAG normally located in the SSC region have migrated to IRs, resulting in IR expansion and gene duplication. An up to 9 kb inversion involving five genes (rpl23, ycf2, ycf15, trnI‐CAU, and trnL‐CAA) was found within IR regions. The accD gene was found to be absent and the ycf1 gene has shifted from the IR/SSC border to the SSC region as a single copy. Phylogenetic analysis based on the sequences of common CDS showed that the genus Corydalis is quite distantly related to the other genera of Papaveraceae, it provided a new clue for recent advocacy to establish a separate Fumariaceae family. Our results revealed one special cp genome structure in Papaveraceae, provided a useful resources for classification of the genus Corydalis, and will be valuable for understanding Papaveraceae evolutionary relationships.     

Complete structure of the chloroplast genome of Arabidopsis thaliana.

The complete nucleotide sequence of the chloroplast genome of Arabidopsis thaliana has been determined. The genome as a circular DNA composed of 154,478 bp containing a pair of inverted repeats of 26,264 bp, which are separated by small and large single copy regions of 17,780 bp and 84,170 bp, respectively. A total of 87 potential protein-coding genes including 8 genes duplicated in the inverted repeat regions, 4 ribosomal RNA genes and 37 tRNA genes (30 gene species) representing 20 amino acid species were assigned to the genome on the basis of similarity to the chloroplast genes previously reported for other species. The translated amino acid sequences from respective potential protein-coding genes showed 63.9% to 100% sequence similarity to those of the corresponding genes in the chloroplast genome of Nicotiana tabacum, indicating the occurrence of significant diversity in the chloroplast genes between two dicot plants. The sequence data and gene information are available on the World Wide Web database KAOS (Kazusa Arabidopsis data Opening Site) at http://www.kazusa.or.jp/arabi/.     

The mutational hazard hypothesis of organelle genome evolution: 10 years on

Why is there such a large variation in size and noncoding DNA content among organelle genomes? One explanation is that this genomic variation results from differences in the rates of organelle mutation and random genetic drift, as opposed to being the direct product of natural selection. Along these lines, the mutational hazard hypothesis (MHH) holds that ‘excess’ DNA is a mutational liability (because it increases the potential for harmful mutations) and, thus, has a greater tendency to accumulate in an organelle system with a low mutation rate as opposed to one with a high rate of mutation. Various studies have explored this hypothesis and, more generally, the relationship between organelle genome architecture and the mode and efficiency of organelle DNA repair. Although some of these investigations are in agreement with the MHH, others have contradicted it; nevertheless, they support a central role of mutation, DNA maintenance pathways and random genetic drift in fashioning organelle chromosomes. Arguably, one of the most important contributions of the MHH is that it has sparked crucial, widespread discussions about the importance of nonadaptive processes in genome evolution.     

Phylogenetic significance of the characteristics of simple sequence repeats at the genus level based on the complete chloroplast genome sequences of Cyatheaceae

The simple sequence repeats (SSRs) of plant chloroplasts show considerable genetic variation and have been widely used in species identification and phylogenetic relationship determination. Whether chloroplast genome SSRs can be used to classify Cyatheaceae species has not yet been studied. Therefore, the chloroplast genomes of eight Cyatheaceae species were sequenced, and their SSR characteristics were compared and statistically analyzed. The results showed that the chloroplast genome structure was highly conserved (genome size: 154,046–166,151 bp), and the gene content (117 genes) and gene order were highly consistent. The distribution characteristics of SSRs (number, relative abundance, relative density, GC content) showed taxon specificity. The primary results were the total numbers of SSRs and mononucleotides: Gymnosphaera (61–67 and 40–47, respectively), Alsophila (121–122 and 95–96), and Sphaeropteris (102–103 and 77–80). Statistical and clustering analyses of SSR characteristics showed that their distribution was consistent with the recent classification of Cyatheaceae, which divided the eight Cyatheaceae species into three genera. This study indicates that the distribution characteristics of Cyatheaceae chloroplast SSRs can provide useful phylogenic information at the genus level.     

The complete chloroplast genome of Gracilariopsis lemaneiformis (Rhodophyta) gives new insight into the evolution of family Gracilariaceae

The complete chloroplast genome of Gracilariopsis lemaneiformis was recovered from a Next Generation Sequencing data set. Without quadripartite structure, this chloroplast genome (183,013 bp, 27.40% GC content) contains 202 protein‐coding genes, 34 tRNA genes, 3 rRNA genes, and 1 tmRNA gene. Synteny analysis showed plasmid incorporation regions in chloroplast genomes of three species of family Gracilariaceae and in Grateloupia taiwanensis of family Halymeniaceae. Combined with reported red algal plasmid sequences in nuclear and mitochondrial genomes, we postulated that red algal plasmids may have played an important role in ancient horizontal gene transfer among nuclear, chloroplast, and mitochondrial genomes. Substitution rate analysis showed that purifying selective forces maintaining stability of protein‐coding genes of nine red algal chloroplast genomes over long periods must be strong and that the forces acting on gene groups and single genes of nine red algal chloroplast genomes were similar and consistent. The divergence of Gp. lemaneiformis occurred ~447.98 million years ago (Mya), close to the divergence time of genus Pyropia and Porphyra (443.62 Mya).     

Complete nucleotide sequence of the sugarcane (Saccharum officinarum) chloroplast genome: a comparative analysis of four monocot chloroplast genomes.

The complete nucleotide sequence of the chloroplast genome of sugarcane (Saccharum officinarum) has been determined. It is a circular double-stranded DNA molecule, 141,182 bp in size, and is composed of a large single copy of 83,048 bp, a small single copy of 12,544 bp, and a pair of inverted repeat regions of 22,795 bp each. A comparative analysis among monocots showed that the sugarcane chloroplast genome was very similar to maize but not to rice or wheat. Between sugarcane and maize at the rps16-trnQ (UUG) region, however, a length polymorphism was identified. With regard to insertions/deletions equal to or longer than 5 bp, a total of 53 insertion and 31 deletion events were identified in the sugarcane chloroplast genome. Of the 84 loci identified, a pair of direct repeat sequences was located side by side in a tandem fashion in 47 loci (56.0%). A recombination event during plant evolution is discussed at two sites between the sugarcane and tobacco chloroplast genomes.     

The mitochondrial genome of the moss Physcomitrella patens sheds new light on mitochondrial evolution in land plants

The phylogenetic positions of bryophytes and charophytes, together with their genome features, are important for understanding early land plant evolution. Here we report the complete nucleotide sequence (105,340 bp) of the circular-mapping mitochondrial DNA of the moss Physcomitrella patens. Available evidence suggests that the multipartite structure of the mitochondrial genome in flowering plants does not occur in Physcomitrella. It contains genes for 3 rRNAs (rnl, rns, and rrn5), 24 tRNAs, and 42 conserved mitochondrial proteins (14 ribosomal proteins, 4 ccm proteins, 9 nicotinamide adenine dinucleotide dehydrogenase subunits, 5 ATPase subunits, 2 succinate dehydrogenase subunits, apocytochrome b, 3 cytochrome oxidase subunits, and 4 other proteins). We estimate that 5 tRNA genes are missing that might be encoded by the nuclear genome. The overall mitochondrial genome structure is similar in Physcomitrella, Chara vulgaris, Chaetosphaeridium globosum, and Marchantia polymorpha, with easily identifiable inversions and translocations. Significant synteny with angiosperm and chlorophyte mitochondrial genomes was not detected. Phylogenetic analysis of 18 conserved proteins suggests that the moss-liverwort clade is sister to angiosperms, which is consistent with a previous analysis of chloroplast genes but is not consistent with some analyses using mitochondrial sequences. In Physcomitrella, 27 introns are present within 16 genes. Nine of its intron positions are shared with angiosperms and 4 with Marchantia, which in turn shares only one intron position with angiosperms. The phylogenetic analysis as well as the syntenic structure suggest that the mitochondrial genomes of Physcomitrella and Marchantia retain prototype features among land plant mitochondrial genomes.     

芸薹属多倍体植物基因组进化的RAPD分析

多倍化是促进高等植物发生进化的重要力量。为了更清楚地了解多倍体在形成之后其基因组是如何进化的,利用38个随机引物对芸薹属Brassica L.禹氏三角（U’Triangle）中的多倍体物种及其祖先二倍体物种进行了研究。根据扩增出的273条带计算了遗传距离,并用UPGMA法进行了聚类分析。结果发现,二倍体物种B.campestris（AA）与B.oleracea（CC）的亲缘关系比与B.nigra（BB）的要近;异源多倍体B.napus（AACC）比起其二倍体祖先之一B.campestris（AA）与另一个     

The chloroplast genome sequence of Chara vulgaris sheds new light into the closest green algal relatives of land plants

The phylum Streptophyta comprises all land plants and six monophyletic groups of charophycean green algae (Mesostigmatales, Chlorokybales, Klebsormidiales, Zygnematales, Coleochaetales, and Charales). Phylogenetic analyses of four genes encoded in three cellular compartments suggest that the Charales are sister to land plants and that charophycean green algae evolved progressively toward an increasing cellular complexity. To validate this phylogenetic hypothesis and to understand how and when the highly conservative pattern displayed by land plant chloroplast DNAs (cpDNAs) originated in the Streptophyta, we have determined the complete chloroplast genome sequence (184,933 bp) of a representative of the Charales, Chara vulgaris, and compared this genome to those of Mesostigma (Mesostigmatales), Chlorokybus (Chlorokybales), Staurastrum and Zygnema (Zygnematales), Chaetosphaeridium (Coleochaetales), and selected land plants. The phylogenies we inferred from 76 cpDNA-encoded proteins and genes using various methods favor the hypothesis that the Charales diverged before the Coleochaetales and Zygnematales. The Zygnematales were identified as sister to land plants in the best tree topology (T1), whereas Chaetosphaeridium (T2) or a clade uniting the Zygnematales and Chaetosphaeridium (T3) occupied this position in alternative topologies. Chara remained at the same basal position in trees including more land plant taxa and inferred from 56 proteins/genes. Phylogenetic inference from gene order data yielded two most parsimonious trees displaying the T1 and T3 topologies. Analyses of additional structural cpDNA features (gene order, gene content, intron content, and indels in coding regions) provided better support for T1 than for the topology of the above-mentioned four-gene tree. Our structural analyses also revealed that many of the features conserved in land plant cpDNAs were inherited from their green algal ancestors. The intron content data predicted that at least 15 of the 21 land plant group II introns were gained early during the evolution of streptophytes and that a single intron was acquired during the transition from charophycean green algae to land plants. Analyses of genome rearrangements based on inversions predicted no alteration in gene order during the transition from charophycean green algae to land plants.     

大粒香水稻叶绿体基因组特征分析

大粒香作为贵州重要的优质稻资源,推广种植面积大,并且在乡村振兴过程中为社会带来了较高的经济效益。然而,目前对大粒香基因组学的理论研究报道较少。为揭示大粒香水稻叶绿体基因组(cpDNA)特征及系统发育关系,该研究对大粒香叶绿体进行测序,并分析其基因组特征。结果表明:(1)大粒香水稻cpDNA全长134 563 bp,包括1个大单拷贝区(LSC,80 864 bp)、1个小单拷贝区(SSC,12 347 bp)和2个反向重复序列区(IR_s,20 676 bp)。(2)注释到129个基因,可分为蛋白编码、tRNA和rRNA三类基因,数量分别为85个、36个和8个。(3)密码子偏好分析显示,大粒香cpDNA密码子偏好A碱基或U(T)碱基,亮氨酸密码子使用了1 944次,使用次数最多; 半胱氨酸的密码子仅使用198次,使用次数最少。(4)检测到129个SSR,其中有95个单核苷酸重复且大部分SSR序列由A/T碱基组成。(5)系统发育分析结果显示,大粒香与热带粳稻亲缘关系最近,聚为一类。该研究结果揭示了大粒香叶绿体基因组信息,并确定了大粒香系统发育所属分支。