Phylogenetic analysis of Oryza species, based on simple sequence repeats and their flanking nucleotide sequences from the mitochondrial and chloroplast genomes

Simple sequence repeats (SSR) and their flanking regions in the mitochondrial and chloroplast genomes were sequenced in order to reveal DNA sequence variation. This information was used to gain new insights into phylogenetic relationships among species in the genus Oryza. Seven mitochondrial and five chloroplast SSR loci equal to or longer than ten mononucleotide repeats were chosen from known rice mitochondrial and chloroplast genome sequences. A total of 50 accessions of Oryza that represented six different diploid genomes and three different allopolyploid genomes of Oryza species were analyzed. Many base substitutions and deletions/insertions were identified in the SSR loci as well as their flanking regions. Of mononucleotide SSR, G (or C) repeats were more variable than A (or T) repeats. Results obtained by chloroplast and mitochondrial SSR analyses showed similar phylogenetic relationships among species, although chloroplast SSR were more informative because of their higher sequence diversity. The CC genome is suggested to be the maternal parent for the two BBCC genome species (O. punctata and O. minuta) and the CCDD species O. latifolia, based on the high level of sequence conservation between the diploid CC genome species and these allotetraploid species. This is the first report of phylogenetic analysis among plant species, based on mitochondrial and chloroplast SSR and their flanking sequences.     

Complete chloroplast genome sequence of Magnolia grandiflora and comparative analysis with related species

Magnolia grandiflora is an important medicinal,ornamental and horticultural plant species.The chloroplast(cp) genome of M.grandiflora was sequenced using a 454 sequencing platform and the genome structure was compared with other related species.The complete cp genome of M.grandiflora was 159623 bp in length and contained a pair of inverted repeats(IR) of 26563 bp separated by large and small single copy(LSC,SSC) regions of 87757 and 18740 bp,respectively.A total of 129 genes were successfully annotated,18 of which included introns.The identity,number and GC content of M.grandiflora cp genes were similar to those of other Magnoliaceae species genomes.Analysis revealed 218 simple sequence repeat(SSR) loci,most composed of A or T,contributing to a bias in base composition.The types and abundances of repeat units in Magnoliaceae species were relatively conserved and these loci will be useful for developing M.grandiflora cp genome vectors.In addition,results indicated that the cp genome size in Magnoliaceae species and the position of the IR border were closely related to the length of the ycf1 gene.Phylogenetic analyses based on 66 shared genes from 30 species using maximum parsimony(MP) and maximum likelihood(ML) methods provided strong support for the phylogenetic position of Magnolia.The availability of the complete cp genome sequence of M.grandiflora provides valuable information for breeding of desirable varieties,cp genetic engineering,developing useful molecular markers and phylogenetic analyses in Magnoliaceae.     

Complete chloroplast genome sequences of Dipterygium glaucum and Cleome chrysantha and other Cleomaceae Species,comparative analysis and phylogenetic relationships

This current study presents, for the first time, the complete chloroplast genome of two Cleomaceae species: Dipterygium glaucum and Cleome chrysantha in order to evaluate the evolutionary relationship. The cp genome is 158,576 bp in length with 35.74% GC content in D. glaucum and 158,111 bp with 35.96% GC in C. chrysantha. Inverted repeats IR 26,209 bp, 26,251 bp each, LSC of 87,738 bp, 87,184 bp and SSC of 18,420 bp, 18,425 bp respectively. There are 136 genes in the genome, which includes 80 protein coding genes, 31 tRNA genes and four rRNA genes were observed in both chloroplast genomes. 117 genes are unique while the remaining 19 genes are duplicated in IR regions. The analysis of repeats shows that the cp genome includes all types of repeats with more frequent occurrences of palindromic; Also, this analysis indicates that the total number of simple sequence repeats (SSR) were 323 in D. glaucum, and 313 in C. chrysantha, of which the majority of the SSRs in these plastid genomes were mononucleotide repeats A/T which are located in the intergenic spacer. Moreover, the comparative analysis of the four cp sequences revealed four hotspot genes (atpF, rpoC2, rps19, and ycf1), these variable regions could be used as molecular makers for the species authentication as well as resources for inferring phylogenetic relationships of the species. All the relationships in the phylogenetic tree are with high support, this indicate that the complete chloroplast genome is a useful data for inferring phylogenetic relationship within the Cleomaceae and other families. The simple sequence repeats identified will be useful for identification, genetic diversity, and other evolutionary studies of the species. This study reported the first cp genome of the genus Dipterygium and Cleome. The finding of this study will be beneficial for biological disciplines such as evolutionary and genetic diversity studies of the species within the core Cleomaceae.     

The complete chloroplast genome sequence of the endangered species Syringa pinnatifolia (Oleaceae)

Syringa pinnatifolia is an endangered endemic species in China with important ornamental and medicinal value, and it needs urgent protection. Here, we report the complete chloroplast (cp) genome structure of S. pinnatifolia and its evolution is inferred through comparative studies with related species. The S. pinnatifolia cp genome was 155 326 bp and contained a large single copy region (LSC) of 86 167 bp and a small single copy region (SSC) of 17 775 bp, as well as a pair of inverted repeat regions (IRs) of 25 692 bp. A total of 113 unique genes were annotated, including 79 protein‐coding genes, 30 tRNA genes and four rRNA genes. The GC content of the S. pinnatifolia cp genome was 37.9%, and the corresponding values in the LSC, SSC and IR regions were 36.0, 32.1, 43.2% respectively. Repetitive sequences analysis revealed that the S. pinnatifolia cp genome contained 38 repeats. Microsatellite marker detection analysis identified 253 simple sequence repeats (SSRs), which provides opportunities for future studies of the population genetics and phylogenetic relationships of Syringa. Phylogenetic analysis of 29 selected cp genomes revealed that S. pinnatifolia is closely related to Syringa vulgaris and all 27 Lamiales species formed a clade separate from the two outgroup species. This newly characterized S. pinnatifolia chloroplast genome will provide a useful genomic resource of phylogenetic inference and the development of more genetic markers for species discrimination and population studies in the genus Syringa.     

The complete chloroplast genome sequence of the Chinese endemic species Sorbus setschwanensis (Rosaceae) and its phylogenetic analysis

Sorbus setschwanensis Koehne is a pinnate-leaved Sorbus s.str. species endemic to China with narrow distribution and intriguing phylogeny that needs wider attention. In this paper, the complete chloroplast (cp) genome of S. setschwanensis is reported, and its phylogenetic position is analyzed. The complete cp genome of S. setschwanensis is 160 064 bp in size with 36.50% GC content. It has a typical quadripartite structure including a pair of inverted repeat regions (IRs) of 26 378 bp that separates a large single copy (LSC) region of 86 013 bp and a small single copy (SSC) region of 19 295 bp. The cp genome encodes 108 genes, comprising 76 protein-coding genes, 28 tRNA genes and 4 rRNA genes. Additionally, 52 simple sequence repeats (SSRs) and 43 dispersed repeats were identified. Comparison of the whole cp genome with those of other Sorbus species showed an overall high degree of sequence similarity, but there are six highly variable regions (trnR-atpA, petN-psbM, ndhC-trnV, trnE-trnT, trnT-trnL and rpl32-trnL) located in intergenic spacers that may be useful as molecular markers in future population genetic and phylogenetic studies in the genus. Phylogenetic analyses based on 108 coding genes from 25 species in Rosaceae revealed that S. setschwanensis is nested within Sorbus sect. Sorbus together with other pinnately leaved species, but does not form a sister lineage to S. rufopilosa belonging to the same series Multijugae. Thus, the systematic position of S. setschwanensis and relationships with other species in the genus needs to be further studied.     

Complete chloroplast genome sequences of Praxelis (Eupatorium catarium Veldkamp), an important invasive species

Praxelis (Eupatorium catarium Veldkamp) is a new hazardous invasive plant species that has caused serious economic losses and environmental damage in the Northern hemisphere tropical and subtropical regions. Although previous studies focused on detecting the biological characteristics of this plant to prevent its expansion, little effort has been made to understand the impact of Praxelis on the ecosystem in an evolutionary process. The genetic information of Praxelis is required for further phylogenetic identification and evolutionary studies. Here, we report the complete Praxelis chloroplast (cp) genome sequence. The Praxelis chloroplast genome is 151,410 bp in length including a small single-copy region (18,547 bp) and a large single-copy region (85,311 bp) separated by a pair of inverted repeats (IRs; 23,776 bp). The genome contains 85 unique and 18 duplicated genes in the IR region. The gene content and organization are similar to other Asteraceae tribe cp genomes. We also analyzed the whole cp genome sequence, repeat structure, codon usage, contraction of the IR and gene structure/organization features between native and invasive Asteraceae plants, in order to understand the evolution of organelle genomes between native and invasive Asteraceae. Comparative analysis identified the 14 markers containing greater than 2% parsimony-informative characters, indicating that they are potential informative markers for barcoding and phylogenetic analysis. Moreover, a sister relationship between Praxelis and seven other species in Asteraceae was found based on phylogenetic analysis of 28 protein-coding sequences. Complete cp genome information is useful for plant phylogenetic and evolutionary studies within this invasive species and also within the Asteraceae family.     

The Complete Chloroplast Genome Sequence of the Medicinal Plant Salvia miltiorrhiza

Salvia miltiorrhiza is an important medicinal plant with great economic and medicinal value. The complete chloroplast (cp) genome sequence of Salvia miltiorrhiza, the first sequenced member of the Lamiaceae family, is reported here. The genome is 151,328 bp in length and exhibits a typical quadripartite structure of the large (LSC, 82,695 bp) and small (SSC, 17,555 bp) single-copy regions, separated by a pair of inverted repeats (IRs, 25,539 bp). It contains 114 unique genes, including 80 protein-coding genes, 30 tRNAs and four rRNAs. The genome structure, gene order, GC content and codon usage are similar to the typical angiosperm cp genomes. Four forward, three inverted and seven tandem repeats were detected in the Salvia miltiorrhiza cp genome. Simple sequence repeat (SSR) analysis among the 30 asterid cp genomes revealed that most SSRs are AT-rich, which contribute to the overall AT richness of these cp genomes. Additionally, fewer SSRs are distributed in the protein-coding sequences compared to the non-coding regions, indicating an uneven distribution of SSRs within the cp genomes. Entire cp genome comparison of Salvia miltiorrhiza and three other Lamiales cp genomes showed a high degree of sequence similarity and a relatively high divergence of intergenic spacers. Sequence divergence analysis discovered the ten most divergent and ten most conserved genes as well as their length variation, which will be helpful for phylogenetic studies in asterids. Our analysis also supports that both regional and functional constraints affect gene sequence evolution. Further, phylogenetic analysis demonstrated a sister relationship between Salvia miltiorrhiza and Sesamum indicum. The complete cp genome sequence of Salvia miltiorrhiza reported in this paper will facilitate population, phylogenetic and cp genetic engineering studies of this medicinal plant.     

Characterization of the chloroplast genome sequence of oil palm (Elaeis guineensis Jacq.)

Oil palm (Elaeis guineensis Jacq.) is an economically important crop, which is grown for oil production. To better understand the molecular basis of oil palm chloroplasts, we characterized the complete chloroplast (cp) genome sequence obtained from 454 pyrosequencing. The oil palm cp genome is 156,973 bp in length consisting of a large single-copy region of?85,192 bp flanked on each side by inverted repeats of 27,071 bp with a small single-copy region of 17,639 bp joining the?repeats. The genome contains 112 unique genes: 79 protein-coding genes, 4 ribosomal RNA genes and 29 tRNA genes. By aligning the cp?genome sequence with oil palm cDNA sequences, we observed 18 non-silent and 10 silent RNA editing events among 19 cp protein-coding genes. Creation of an initiation codon by RNA editing in rpl2 has been reported in several monocots and was also found in the oil palm cp genome. Fifty common chloroplast protein-coding genes from 33 plant taxa were used to construct ML and MP?phylogenetic trees. Their topologies are similar and strongly support for the position of E. guineensis as the sister of closely related species Phoenix dactylifera in Arecaceae (palm families) of monocot subtrees.     

Complete nucleotide sequence of the <Emphasis Type="Italic">Cryptomeria japonica</Emphasis>D. Don. chloroplast genome and comparative chloroplast genomics: diversified genomic structure of coniferous species

Background  

The recent determination of complete chloroplast (cp) genomic sequences of various plant species has enabled numerous comparative analyses as well as advances in plant and genome evolutionary studies. In angiosperms, the complete cp genome sequences of about 70 species have been determined, whereas those of only three gymnosperm species, Cycas taitungensis, Pinus thunbergii, and Pinus koraiensis have been established. The lack of information regarding the gene content and genomic structure of gymnosperm cp genomes may severely hamper further progress of plant and cp genome evolutionary studies. To address this need, we report here the complete nucleotide sequence of the cp genome of Cryptomeria japonica, the first in the Cupressaceae sensu lato of gymnosperms, and provide a comparative analysis of their gene content and genomic structure that illustrates the unique genomic features of gymnosperms.     

猴樟叶绿体基因组特征分析

猴樟(Cinnamomum bodinieri)枝叶含有丰富的精油,是重要的园林绿化树种和经济树种,但目前有关猴樟基因组学的研究报道不多。为揭示猴樟叶绿体基因组特征及系统发育关系,该文基于高通量测序平台进行测序,从头组装了完整的猴樟叶绿体基因组,并对其基因组结构、基因构成及序列重复、密码子使用偏好性以及系统发育进行分析,结合樟亚科主要属物种叶绿体基因组数据构建系统发育树。结果表明:(1)猴樟叶绿体基因组全长152 727 bp,包括一对20 132 bp的反向重复(IRs)区、93 605 bp的大单拷贝(LSC)区和18 858 bp的小单拷贝(SSC)区,总GC含量为39.13%。(2)该基因组共编码127个基因,包括83个蛋白质编码基因(PCGs)、36个转运RNA基因(tRNAs)和8个核糖体RNA基因(rRNAs); 共鉴定出92个SSR位点,其中大部分是A/T组成的单核苷酸重复序列; 密码子适应指数(CAI)为0.166,有效密码子数(ENc)为54.68; 猴樟与近缘种的叶绿体基因组主要在IR区和2个SC区边界上存在一定的差异。(3)24种樟亚科植物的系统发育树显示,猴樟与樟树亲缘关系最近,同时支持了樟属-甜樟属分支(Cinnamomum-Ocotea Clade)、月桂属-新木姜子属分支(Laurus-Neolitsea Clade)、润楠属-鳄梨属分支(Machilus-Persea Clade)的建立。该研究丰富了猴樟遗传资源信息,进一步确定了樟亚科主要属的系统发育地位。     

Complete chloroplast genomes of Liliaceae (s.l.) species: comparative genomic and phylogenetic analyses

We first report the complete chloroplast (cp) genome of Fritillaria taipaiensis and determine its characteristics, sequence divergence and phylogenetic relationships by comparing it with complete cp genomes of Liliaceae s.l. (including e.g. Nartheciaceae, Amaryllidaceae and Asparagaceae) species obtained from NCBI Genbank. We show that the ycf1, ycf15 and infA genes have become pseudogenes or are lost in some of the seventeen Liliaceae species, and that dispersed repeats are prevailing among the four types of repeats (dispersed, palindromic, complement and tandem repeats). The number of simple sequence repeats ranged from 53 to 84 in the seventeen species, with mononucleotide repeats being the most abundant, followed by dinucleotides. A total of nine genes with positive selection sites were identified (atpB, atpE, ndhF, ndhH, petB, rpl2, rpl20, rpl22 and ycf2). Furthermore, we examined 19 mutational hotspot regions, including three coding regions (rps16, infA and rpl22) and sixteen non-coding regions. A phylogenetic analysis of the complete cp genomes and protein-coding sequences showed that Fritillaria is most closely related to Lilium. Moreover, Asparagus and Polygonatum, Hosta and Yucca are closely related to the Liliaceae. These results will contribute to further study of evolutionary patterns and phylogenetic relationships in Liliaceae s.l.     

The complete chloroplast genome of Myriophyllum spicatum reveals a 4‐kb inversion and new insights regarding plastome evolution in Haloragaceae

Myriophyllum, among the most species‐rich genera of aquatic angiosperms with ca. 68 species, is an extensively distributed hydrophyte lineage in the cosmopolitan family Haloragaceae. The chloroplast (cp) genome is useful in the study of genetic evolution, phylogenetic analysis, and molecular dating of controversial taxa. Here, we sequenced and assembled the whole chloroplast genome of Myriophyllum spicatum L. and compared it to other species in the order Saxifragales. The complete chloroplast genome sequence of M. spicatum is 158,858 bp long and displays a quadripartite structure with two inverted repeats (IR) separating the large single copy (LSC) region from the small single copy (SSC) region. Based on sequence identification and the phylogenetic analysis, a 4‐kb phylogenetically informative inversion between trnE‐trnC in Myriophyllum was determined, and we have placed this inversion on a lineage specific to Myriophyllum and its close relatives. The divergence time estimation suggested that the trnE‐trnC inversion possibly occurred between the upper Cretaceous (72.54 MYA) and middle Eocene (47.28 MYA) before the divergence of Myriophyllum from its most recent common ancestor. The unique 4‐kb inversion might be caused by an occurrence of nonrandom recombination associated with climate changes around the K‐Pg boundary, making it interesting for future evolutionary investigations.     

The complete chloroplast genome sequence of <Emphasis Type="Italic">Dodonaea viscosa</Emphasis>: comparative and phylogenetic analyses

The plant chloroplast (cp) genome is a highly conserved structure which is beneficial for evolution and systematic research. Currently, numerous complete cp genome sequences have been reported due to high throughput sequencing technology. However, there is no complete chloroplast genome of genus Dodonaea that has been reported before. To better understand the molecular basis of Dodonaea viscosa chloroplast, we used Illumina sequencing technology to sequence its complete genome. The whole length of the cp genome is 159,375 base pairs (bp), with a pair of inverted repeats (IRs) of 27,099 bp separated by a large single copy (LSC) 87,204 bp, and small single copy (SSC) 17,972 bp. The annotation analysis revealed a total of 115 unique genes of which 81 were protein coding, 30 tRNA, and four ribosomal RNA genes. Comparative genome analysis with other closely related Sapindaceae members showed conserved gene order in the inverted and single copy regions. Phylogenetic analysis clustered D. viscosa with other species of Sapindaceae with strong bootstrap support. Finally, a total of 249 SSRs were detected. Moreover, a comparison of the synonymous (Ks) and nonsynonymous (Ka) substitution rates in D. viscosa showed very low values. The availability of cp genome reported here provides a valuable genetic resource for comprehensive further studies in genetic variation, taxonomy and phylogenetic evolution of Sapindaceae family. In addition, SSR markers detected will be used in further phylogeographic and population structure studies of the species in this genus.     

Comparative Analyses and Phylogenetic Relationships between <i>Cryptomeria fortunei</i> and Related Species Based on Complete Chloroplast Genomes

Cryptomeria fortunei (Chinese cedar) is a highly adaptable woody species and one of the main forest plantation trees in subtropical high-altitude areas in China. However, there are few studies on its chloroplast (cp) genome. In this study, the complete cp genome of C. fortunei was sequenced and evaluated via comparative analyses with those of related species (formerly the Taxodiaceae) in Cupressaceae. The C. fortunei cp genome was 131,580 bp in length, and the GC content of the whole genome was 35.38%. It lost one relevant large inverted repeat and contained 114 unique genes, including 82 protein-coding genes, 28 tRNAs and 4 rRNAs. The relative synonymous codon usage (RSCU) of codons ending with A/U was more than twice that of codons ending with G/C. Thirty long repeat structures (LRSs) and 213 simple sequence repeat (SSR) loci were detected in the C. fortunei cp genome. Comparative analyses of 10 cp genomes revealed that substantial rearrangements occurred in the gene organization. Additionally, 6 cp hotspot regions (trnS-GGA, ycf1, trnP-GGG, trnC-GCA, psbZ and accD) were identified, and 4 genes (petL, psbM, rpl22 and psaM) had likely underwent positive selection. Phylogenetic analysis showed that Cupressaceae, Taxaceae and Cephalotaxaceae clustered to form a clade and that C. fortunei was most closely related to C. japonica (Japanese cedar), C. japonica cv. Wogon Hort and Taxodium distichum (baldcypress). These results provide references for future studies of population genetics, phylogenetic status and molecular markers among Cupressaceae species and for the cultivation of improved varieties.     

Complete chloroplast genome sequence of <Emphasis Type="Italic">Capsicum</Emphasis><Emphasis Type="Italic">baccatum</Emphasis> var. <Emphasis Type="Italic">baccatum</Emphasis>

Molecular markers derived from the complete chloroplast genome can provide effective tools for species identification and phylogenetic resolution. Complete chloroplast (cp) genome sequences of Capsicum species have been reported. We herein report the complete chloroplast genome sequence of Capsicum baccatum var. baccatum, a wild Capsicum species. The total length of the chloroplast genome is 157,145 bp with 37.7 % overall GC content. One pair of inverted repeats, 25,910 bp in length, was separated by a small single-copy region (17,974 bp) and large single-copy region (87,351 bp). This region contains 86 protein-coding genes, 30 tRNA genes, 4 rRNA genes, and 11 genes contain one or two introns. Pair-wise alignments of chloroplast genome were performed for genome-wide comparison. Analysis revealed a total of 134 simple sequence repeat (SSR) motifs and 282 insertions or deletions variants in the C. baccatum var. baccatum cp genome. The types and abundances of repeat units in Capsicum species were relatively conserved, and these loci could be used in future studies to investigate and conserve the genetic diversity of the Capsicum species.     

High-throughput sequencing uncover Ficus tikoua Bur. chloroplast genome

Ficus tikoua Bur., called “di guo”, is a very important economic plant. However, we know little on its molecular mechanisms for a long time. In this study, three F. tikoua chloroplast genomes were first obtained through Illumina sequencing. The F. tikoua Bur. cp genomes exhibited a typical circular structure, including a pair of inverted repeats, a small single copy sequence, and a long single copy sequence. More than 100 genes and about 70 ncRNAs (rRNAs, tRNAs, snRNA, snoRNA, etc.) were identified in each cp genomes. Some repeats, including DNA element, long terminal repeat, small RNA, simple repeat and low complexity, were examined in the three complete cp genomes. In addition, phylogeny tree from six Ficus. species and five Morus. species in family Moracea were constructed for clarifying taxonomy. This data can help further the understanding of evolution and phylogenetic relationships in F. tikoua Bur.

     

扁果草叶绿体基因组特征分析

为探讨扁果草(Isopyrum anemonoides)叶绿体基因组特征及该属物种的系统发育关系,采用Illumina Hiseq高通量测序技术,对扁果草进行全基因组测序,组装、注释和完成扁果草叶绿体全基因组图谱绘制。结果显示,扁果草叶绿体全基因组总长161 034 bp,为典型的四分体结构,包含85个蛋白编码基因、37个转运RNA和8个核糖体RNA。共检测到44个散在重复序列和47个简单重复序列。此外,扁果草叶绿体基因组中共包含53 678个密码子,其中编码亮氨酸的密码子最多(5 251个),编码色氨酸的密码子最少(712个)。共线性分析结果显示,扁果草与近缘种叶绿体基因组中不存在倒位或重排现象。系统发育分析表明,扁果草并未与该属的东北扁果草(I.manshuricum)聚在一个分支上,而是与假耧斗菜(Paraquilegia microphylla)有很近的亲缘关系。本研究为开展后续的扁果草属物种鉴定、系统发育研究提供基础资料。     

Complete chloroplast genome sequence of a tree fern Alsophila spinulosa : insights into evolutionary changes in fern chloroplast genomes

Background  

Ferns have generally been neglected in studies of chloroplast genomics. Before this study, only one polypod and two basal ferns had their complete chloroplast (cp) genome reported. Tree ferns represent an ancient fern lineage that first occurred in the Late Triassic. In recent phylogenetic analyses, tree ferns were shown to be the sister group of polypods, the most diverse group of living ferns. Availability of cp genome sequence from a tree fern will facilitate interpretation of the evolutionary changes of fern cp genomes. Here we have sequenced the complete cp genome of a scaly tree fern Alsophila spinulosa (Cyatheaceae).     

The complete chloroplast genome and characteristics analysis of Callistemon rigidus R.Br.

Callistemon rigidus R.Br. one of the traditional Chinese medicinal plants, is acrid-flavored and mild-natured, with the prominent effects reducing swelling, resolving phlegm, and dispelling rheumatism. Clinically, it has been commonly used to treat cold, cough and asthma, pain and swelling from impact injuries, eczema, rheumatic arthralgia. The chloroplast genome study on Callistemon rigidus R.Br. is a few seen. This study demonstrates the data collected from the assembly and annotation of the chloroplast (cp) genome of Callistemon rigidus R.Br., followed by furthers comparative analysis with the cp genomes of closely related species. C. rigidus R.Br. showed a cp genome in the size of 158, 961 bp long with 36.78% GC content, among which a pair of inverted repeats (IRs) of 26, 671 bp separated a large single-copy (LSC) region of 87, 162 bp and a small single-copy (SSC) region of 18, 457 bp. Altogether 131 genes were hosted, including 37 transfer RNAs, 8 ribosomal RNAs, and 86 protein-coding genes. 284 simple sequence repeats (SSRs) were also marked out. A comparative analysis of the genome structure and the sequence data of closely related species unveiled the conserved gene order in the IR and LSC/SSC regions, a quite constructive finding for future phylogenetic research. Overall, this study providing C. rigidus R.Br. genomic resources could positively contribute to the evolutionary study and the phylogenetic reconstruction of Myrtaceae.