A new set of universal de novo sequencing primers for extensive coverage of noncoding chloroplast DNA: new opportunities for phylogenetic studies and cpSSR discovery

We present a new set of universal de novo sequencing primers targeting noncoding chloroplast DNA. The set of 107 polymerase chain reaction (PCR) primers span approximately 86% of the noncoding nucleotides in the large single copy region of Nicotiana tabacum, Oryza sativa and the orchid Phalaenopsis aphrodite. PCR tests confirmed the primers are effective in a wide range of monocots and dicots. More than 19.5 kb of cpDNA sequence was obtained across representative orchid genera with up to 82 chloroplast simple sequence repeats (cpSSRs) detected per genus. This primer set will facilitate both phylogenetic studies and rapid discovery of cpSSRs for plants, such as orchids, where there are limited genomic resources.     

Chloroplast simple sequence repeat markers for evolutionary studies in the sexually deceptive orchid genus Chiloglottis

The orchids in the genus Chiloglottis are pollinated exclusively by sexual deception. Extensive sequencing (> 19.5 kb) of noncoding chloroplast DNA revealed that simple sequence repeats (cpSSRs) were abundant, enabling a set of 41 cpSSR markers to be developed. All markers were polymorphic across the genus. Polymorphism reflected variation at both mononucleotide repeats and indels. For a subset of four taxa with 40 samples each, locus polymorphism varied from 46 to 81%, while the number of haplotypes ranged from seven to 21 per taxon. Extensive differentiation among the taxa was detected. These cpSSRs markers will enable novel insights into the evolution of this unique genus.     

Characterization of chloroplast DNA microsatellites from Saccharum spp and related species

Microsatellites, or simple sequence repeats (SSRs), and their flanking regions in chloroplast genomes (plastomes) of some species of the family Poaceae were analyzed in silico to look for DNA sequence variations. Comparison of the complete chloroplast DNA sequences (cpDNAs) of sugarcane (Saccharum hybrid cv. SP-80-3280 and S. officinarum cv. NCo310) and related species, Agrostis stolonifera, Brachypodium distachyon, Hordeum vulgare subsp vulgare, Lolium perenne, Oryza nivara, O. sativa subsp indica, O. sativa subsp japonica, Sorghum bicolor, Triticum aestivum, Zea mays, and Z. mays cv. B73, allowed us to examine the organization of chloroplast SSRs (cpSSRs) in genic and intergenic regions. We identified 204 cpSSRs in the sugarcane cpDNA; 22.5% were in genic regions. The ndh, rps, trn, and rpl gene clusters of the chloroplasts had the most repeats. Mononucleotide repeats were the most abundant cpSSRs in these species; however, di-, tri-, tetra-, penta-, and hexanucleotide repeats were also identified. Many base substitutions and deletions/insertions were identified in the cpSSR loci and their flanking regions. Multiple alignments of all cpSSR sequences of Poaceae species made identification of nucleotide variability possible; repeat motifs are not uniformly distributed across the Poaceae plastomes, but are mostly confined to intergenic regions. Phylogeny was determined by maximum parsimony and neighbor-joining inference methods. The cpSSRs of these species were found to be polymorphic. It appears that individual cpSSRs in the Poaceae are stable, at least over short periods of evolutionary time. We conclude that the plastome database can be exploited for phylogenetic analysis and biotechnological development.     

A low mutation rate for chloroplast microsatellites.

We used chloroplast simple sequence repeats (cpSSRs) to examine whether there is any variation present in the chloroplast genome of Pinus torreyana (Parry ex Carrière) that may previously not have been detected using RFLPs. Analysis of 17 cpSSR loci showed no variation, which is consistent with previous cpRFLP work and confirms that the species is descended from an original, highly monomorphic population following a bottleneck. This lack of biological variation in the chloroplast genome of P. torreyana allowed us to estimate the mutation rates at cpSSR loci as between 3. 2 x 10(-5) and 7.9 x 10(-5). This estimate is lower than published mutation rates at nuclear SSR loci but higher than substitution rates elsewhere in the chloroplast genome.     

Chloroplast DNA markers (cpSSRs,SNPs) for <Emphasis Type="Italic">Miscanthus,Saccharum</Emphasis> and related grasses (Panicoideae,Poaceae)

Miscanthus and Saccharum are closely related perennial C₄ grasses. Miscanthus has recently attracted interest as a non-food crop for energy and fibre production. However, molecular genetic tools for the selection of new Miscanthus genotypes and study of its genetic resources are limited. We have identified six chloroplast (plastid) marker loci,containing both microsatellites (cpSSRs) and single nucleotide polymorphisms (SNPs) and developed primers to amplify and sequence these regions. The primers were designed using the complete chloroplast genome sequence of sugarcane and were tested on a collection of 164 Miscanthus genotypes and 14 related species of the subfamily Panicoideae. The cpSSR markers were highly polymorphic, with the number of alleles ranging from 10 to 16 per locus. Within the six cpSSR marker loci, the hybrid M. ×giganteus exhibits virtually no cpDNA variation compared with its putative parents M. sinensis and M. sacchariflorus. These SNP markers enable the differentiation of most Miscanthus species and detect infraspecific variation suitable for defining cytoplasmic genepools of Miscanthus for breeding purposes.     

Development of novel chloroplast microsatellite markers for Miscanthus species (Poaceae)

? Premise of the study: A set of novel chloroplast microsatellite markers (cpSSRs) was developed for the bioenergy crop Miscanthus, and their utility in cross-species amplification was evaluated. ? Methods and Results: Twenty-eight novel primers flanking cpSSR loci were designed from a complete chloroplast genome sequence of Saccharum officinarum, a species closely related to Miscanthus. These primers were then tested on eight Miscanthus species, among which 16 cpSSR loci were found to be polymorphic. The number of alleles per polymorphic locus ranged from two to seven, with an average 3.94 alleles. ? Conclusions: These cpSSR markers can be applied to all Miscanthus species and will be useful for studying Miscanthus population structure, diversity, and phylogeography.     

Development and use of chloroplast microsatellites in Phaseolus spp. and other legumes

Chloroplast microsatellites (cpSSRs) provide a powerful tool to study the genetic variation and evolution of plants. We have investigated the usefulness of 39 primer pairs tagging cpSSR loci on a set of eight different genera of Leguminosae (Papilionoideae subfamily) and five species belonging to the genus Phaseolus . Thirty-six 'universal' primer pairs were retrieved from the literature, one was re-designed and a further two were designed de novo . The cpSSR loci analysed were highly polymorphic across the individuals examined. Twenty-seven primer pairs were polymorphic in the overall sample, 18 within Phaseolus , and 16 in both P. vulgaris and P. coccineus . Analysis of the plastome sequences of four Leguminosae species (obtained from GenBank) showed that in the loci targeted by universal primer pairs: (i) the originally tagged cpSSRs can be lost; (ii) other cpSSRs can be present; and (iii) polymorphism arises not only from differences in the numbers of cpSSR repeats, but often from other insertion/deletion events. Multilocus linkage disequilibrium analysis suggests that homoplasy is not a major problem in our dataset, and principal component analysis indicates intelligible relationships among the species considered. Our study demonstrates that this set of chloroplast markers provides a useful tool to study the diversity and the evolution of several legumes, and particularly P. vulgaris and P. coccineus .     

Analysis of SSR dynamics in chloroplast genomes of Brassicaceae family

Simple sequence repeats (SSRs) are present abundantly in most eukaryotic genomes. They affect several cellular processes like chromatin organization, regulation of gene activity, DNA repair, DNA recombination, etc. Though considerable data exists on using nuclear SSRs to infer phylogenetic relationships, the potential of chloroplast microsatellites (cpSSR), in this regard, remains largely unexplored. In the present study we probe various nucleotide repeat motifs (NRMs) / types of SSRs present in chloroplast genomes (cpDNA) of 12 species belonging to Brassicaceae family. NRMs show a non-random distribution in coding and non-coding compartments of cpDNA. As expected, trinucleotide repeats are more common in coding regions while other repeat motifs are prominent in non-coding DNA. Total numbers of SSRs in coding region show little variation between species while considerable variation is exhibited by SSRs in non-coding regions. Finally, we have designed universal primers that yield polymorphic amplicons from all 12 species. Our analysis also suggests that amplicon length polymorphism shows no significant relationship with sequence based phylogeny of SSRs in cpDNA of Brassicaceae family.     

Diversity of chloroplast DNA SSRs in wild and cultivated soybeans: evidence for multiple origins of cultivated soybean

Soybean [ Glycine max (L.) Merr.] is one of the major crops in the world and was domesticated from a wild progenitor, Glycine soja Sieb. & Zucc., in East Asia. In order to address the questions concerning the evolution and maternal lineage of soybean, we surveyed the variation in chloroplast DNA simple sequence repeats (cpSSR) of 326 wild and cultivated soybean accessions that were collected from various Asian countries. Twenty-three variants were detected at six cpSSRs in the accessions tested. All of the variants were found in wild soybean, whereas only 14 variants existed in the cultigen. Combining the variants at the six cpSSRs gave 52 haplotypes in the former and eight haplotypes in the latter. Both analyses indicated a considerably higher genetic diversity in the wild soybean. Around 75% of the cultivated accessions tested possessed a common haplotype (no. 49), which was detected in only seven wild accessions, six from southern Japan and one from southern China. The predominant haplotype in the cultigen may therefore have originated from a rare haplotype of the wild soybean that is presently distributed in the southern areas of Japan and China. The remaining seven haplotypes in the cultigen were distributed regionally, and except for three rare haplotypes, largely overlapped with the distributions of wild accessions with the same respective haplotypes. Our results strongly suggest that the cultivated soybeans with different cpDNA haplotypes originated independently in different regions from different wild gene pools and/or hybrid swarms between cultivated and wild forms.     

Chloroplast microsatellite markers for the mangrove tree species Bruguiera gymnorrhiza, Kandelia candel, and Rhizophora stylosa, and cross-amplification in other mangrove species

Chloroplast microsatellite (cpSSR) markers were developed for three ecologically and economically important tree species in the mangrove family, Rhizophoraceae: Bruguiera gymnorrhiza, Kandelia candel, and Rhizophora stylosa. Noncoding regions of chloroplast DNA (cpDNA) from each species were separately amplified using universal chloroplast primers. Six, two, and three polymorphic cpSSR loci in B. gymnorrhiza, K. candel, and R. stylosa, respectively, were developed from amplified noncoding cpDNA regions. Characterization of 216, 156, and 253 individuals of B. gymnorrhiza, K. candel, and R. stylosa, respectively, collected from different natural mangrove populations (B. gymnorrhiza, 9; K. candel, 7; R. stylosa, 9) on Iriomote Island in Japan showed that these loci provide cpSSR markers with polymorphisms ranging from two to four alleles per locus and gene diversity between 0.027 and 0.480. These cpSSR markers will be useful for analyzing the maternal lineage distributions and population genetic structures of the three species. Several of these markers may also be useful in similar studies of other mangrove species.     

鲁桑叶绿体基因组序列及特征分析

鲁桑(Morus multicaulis)是亚洲地区栽培的重要经济作物。以鲁桑品种日本胡橙为实验材料, 利用高通量测序技术对鲁桑叶绿体基因组进行测序, 获得NCBI登录号(KU355297), 并研究鲁桑的叶绿体基因组结构。结合前人对蒙桑(M. mongolica)、印度桑(M. indica)和川桑(M. notabilis)的研究结果, 对鲁桑的系统进化关系进行了探讨。研究结果表明: 鲁桑叶绿体基因组是一个典型的四部分结构, 全长159 154 bp, 共注释130个基因, 包含85个蛋白质编码基因(18个基因在反向重复区重复)、37个转运RNA (tRNA)基因和8个核糖体RNA (rRNA)基因。生物信息学分析表明, 在鲁桑中共搜索到82个SSR位点, 单核苷酸、二核苷酸、三核苷酸、四核苷酸和五核苷酸重复基序个数分别为63、7、2、9和1个, 并没有发现六核苷酸; 其中单核苷酸重复在鲁桑的叶绿体基因组SSR中占76.8%。采用MEGA 6.0软件, 通过最大似然法和近邻结合法对包括4个桑属物种在内的15个物种的叶绿体基因组序列进行聚类分析, 2种方法得到的聚类结果均为鲁桑和蒙桑聚在一起。研究结果对叶绿体基因组工程研究及桑属种间的分子标记开发和优良品种培育具有一定的参考价值。     

藻类植物叶绿体基因组研究进展

藻类植物的cpDNA结构复杂,普遍缺失反向重复序列IR,且存在IR的藻类植物种类的cpDNA也有IR变短退化迹象.藻类植物的cpDNA包含的基因一般比高等植物要多,编码能力更强.藻类植物cpDNA全序列的测定方法主要是Fosmid文库构建,配合使用Long-PCR技术.该文对国内外有关藻类植物叶绿体基因组结构、叶绿体编码基因、叶绿体基因组在藻类系统发育中的应用以及藻类植物叶绿体基因组的提取和序列测定方法等进行综述,为藻类植物的系统发育和叶绿体起源以及功能基因组学的研究提供理论依据.     

Diversity and genetic structure in populations of Pseudotsuga menziesii (Pinaceae) at chloroplast microsatellite loci.

Genetic variation was compared between uniparentally-inherited (chloroplast simple sequence repeats, cpSSRs) vs. biparentally-inherited (isozyme and random amplified polymorphic DNA, RAPD) genetic markers in Douglas-fir (Pseudotsuga mensiezii) from British Columbia. Three-hundred twenty-three individuals from 11 populations were assayed. In Douglas-fir, the cpSSR primer sites were well-conserved relative to Pinus thunbergii (11 of 17 loci clearly amplified), but only 3 loci were appreciably polymorphic. At these cpSSR loci, we found an unexpectedly low level of polymorphism within populations, and no genetic differentiation among populations. By contrast, the nuclear markers showed variation typical of conifers, with significant among-population differentiation. This difference is likely the outcome of both historical factors and high pollen dispersal.     

Genetic structure of gall oak (<Emphasis Type="Italic">Quercus infectoria</Emphasis>) characterized by nuclear and chloroplast SSR markers

Quercus infectoria, commonly known as gall oak, is a small shrub found in Iran. Unfortunately, it is subjected to genetic erosion, and so, its conservation and evaluation are desirable. Thus, in the current research, 16 microsatellite primer pairs (seven nuclear simple sequence repeats (nSSRs) and nine chloroplast simple sequence repeats (cpSSRs)) were used in an attempt to assess the genetic diversity of 121 individuals of Q. infectoria belonging to 11 populations from three provinces in northern Zagros forests of Iran. In total, 69 alleles of nSSR and 18 alleles of cpSSR were detected among the individuals. The results of the overall analysis of molecular variance based on nSSRs indicated that 89.00% of the variation was due to differences within populations and 11.00% occurred among populations, while according to cpSSRs, 94.00% of the variation resided among populations, and only 6.00% could be attributed to variation within populations. A higher genetic differentiation of Q. infectoria populations was found according to cpSSR data in comparison to nSSR data. Cophenetic correlation coefficient values were statistically insignificant between nSSR and cpSSR data. The unweighted pair group method with arithmetic mean and Bayesian cluster analyses grouped the studied individuals into two main clusters based on both nSSR and cpSSR data. nSSR data could not completely clustered individuals next each other according to their geographical collection area. Information detailed by nSSR loci revealed that north-Zagros gall oak preserves average levels of genetic diversity at the species level, high level of within-population genetic diversity, and moderate level of genetic variation among populations. The present results provide valuable data for in situ or ex situ conservation and utilization of the studied germplasm.     

An improved chloroplast DNA extraction procedure for whole plastid genome sequencing

Background

Chloroplast genomes supply valuable genetic information for evolutionary and functional studies in plants. The past five years have witnessed a dramatic increase in the number of completely sequenced chloroplast genomes with the application of second-generation sequencing technology in plastid genome sequencing projects. However, cost-effective high-throughput chloroplast DNA (cpDNA) extraction becomes a major bottleneck restricting the application, as conventional methods are difficult to make a balance between the quality and yield of cpDNAs.

Methodology/Principal Findings

We first tested two traditional methods to isolate cpDNA from the three species, Oryza brachyantha, Leersia japonica and Prinsepia utihis. Both of them failed to obtain properly defined cpDNA bands. However, we developed a simple but efficient method based on sucrose gradients and found that the modified protocol worked efficiently to isolate the cpDNA from the same three plant species. We sequenced the isolated DNA samples with Illumina (Solexa) sequencing technology to test cpDNA purity according to aligning sequence reads to the reference chloroplast genomes, showing that the reference genome was properly covered. We show that 40–50% cpDNA purity is achieved with our method.

Conclusion

Here we provide an improved method used to isolate cpDNA from angiosperms. The Illumina sequencing results suggest that the isolated cpDNA has reached enough yield and sufficient purity to perform subsequent genome assembly. The cpDNA isolation protocol thus will be widely applicable to the plant chloroplast genome sequencing projects.     

Highly effective sequencing whole chloroplast genomes of angiosperms by nine novel universal primer pairs

Chloroplast genomes supply indispensable information that helps improve the phylogenetic resolution and even as organelle‐scale barcodes. Next‐generation sequencing technologies have helped promote sequencing of complete chloroplast genomes, but compared with the number of angiosperms, relatively few chloroplast genomes have been sequenced. There are two major reasons for the paucity of completely sequenced chloroplast genomes: (i) massive amounts of fresh leaves are needed for chloroplast sequencing and (ii) there are considerable gaps in the sequenced chloroplast genomes of many plants because of the difficulty of isolating high‐quality chloroplast DNA, preventing complete chloroplast genomes from being assembled. To overcome these obstacles, all known angiosperm chloroplast genomes available to date were analysed, and then we designed nine universal primer pairs corresponding to the highly conserved regions. Using these primers, angiosperm whole chloroplast genomes can be amplified using long‐range PCR and sequenced using next‐generation sequencing methods. The primers showed high universality, which was tested using 24 species representing major clades of angiosperms. To validate the functionality of the primers, eight species representing major groups of angiosperms, that is, early‐diverging angiosperms, magnoliids, monocots, Saxifragales, fabids, malvids and asterids, were sequenced and assembled their complete chloroplast genomes. In our trials, only 100 mg of fresh leaves was used. The results show that the universal primer set provided an easy, effective and feasible approach for sequencing whole chloroplast genomes in angiosperms. The designed universal primer pairs provide a possibility to accelerate genome‐scale data acquisition and will therefore magnify the phylogenetic resolution and species identification in angiosperms.     

Analysis of microsatellite loci of the chloroplast genome in the genus Capsicum (Pepper)

Six plastome microsatellites were examined in 43 accessions of the genus Capsicum. In total, 33 allelic variants were detected. A specific haplotype of chloroplast DNA was identified for each Capsicum species. Species-specific allelic variants were found for most wild Capsicum species. The highest intraspecific variation was observed for the C. baccatum plastome. Low cpDNA polymorphism was characteristic of C. annuum: the cpSSRs were either monomorphic or dimorphic. The vast majority of C. annuum accessions each had alleles of one type. Another allele type was rare and occurred only in wild accessions. The results testified again to genetic conservation of C. annuum and especially its cultivated forms. The phylogenetic relationships established for the Capsicum species on the basis of plastome analysis were similar to those inferred from the morphological traits, isozyme patterns, and molecular analysis of the nuclear genome.     

Population Structure of and Conservation Strategies for Wild Pyrus ussuriensis Maxim. in China

Pyrus ussriensis Maxim. is native to the northern part of China, but whose habitats are currently being destroyed by environmental changes and human deforestation. An investigation of population structure and genetic diversity of wild Ussurian pear is a priority in order to acquire fundamental knowledge for conservation. A total of 153 individuals of wild Ussurian pear from the main habitats, Heilongjiang, Jilin, and Inner Mongolia in China, possessed low genetic diversity as a result of habitat fragmentation. The genetic diversity of the populations in Inner Mongolia and north east of Heilongjiang was especially low and there was the possibility of inbreeding. Wild Ussurian pears were divided into 5 groups based on the Bayesian clustering method using 20 nuclear SSRs (nSSRs) and 5 groups by haplotype distributions using 16 chloroplast SSRs (cpSSRs), and the populations in Inner Mongolia and north east of Heilongjiang represented unique genotypes. AMOVA indicated there was a 20.05% variation in nSSRs and a 44.40% variation in cpSSRs among populations. These values are relatively high when compared to those of other tree species. Haplotype E, positioned in the center of the cpSSR analysis network and showed the largest number of connections with other haplotypes, represented the most important haplotype. Inner Mongolia and the north east of Heilongjiang are two areas that need urgent conservation because of their genetic vulnerability and peculiarity. We determined 4 conservation units based on the clustering by nSSRs and cpSSRs, and geographic factor. This information is helpful in deciding the conservation strategies for wild Ussurian pear in China.     

苎麻叶绿体SSR引物筛选及分析

叶绿体微卫星标记为单亲遗传(除部分裸子植物外),有独立的进化路线,它在植物遗传多样性、群体遗传结构、系统发育分析及杂种鉴定等研究上用途广泛,是研究谱系地理的有效手段。苎麻的主产地和主要分布区均在我国,但其谱系地理研究目前尚未见有报道。该研究选择来自全国不同地区的52个苎麻样本,利用聚丙烯酰胺凝胶电泳法,在23对已知通用叶绿体SSR引物中筛选出适用于苎麻谱系地理研究的SSR引物,并利用筛选到的多态引物对52个苎麻样本进行聚类分析和单倍型网络图分析。结果表明:从23对通用引物中共筛选出16对适用于苎麻的多态引物,其平均多态信息含量为0.1053,虽然以上引物多态性较低,但能够用于野生苎麻的遗传分析研究;这52个苎麻样本聚为10支,分为8个单倍型,初步分析表明叶绿体SSR遗传变异速率较慢,不适用于苎麻种内的系统发育研究,但以上引物能够检测苎麻种内单倍型变异,可用于苎麻的谱系地理研究。     

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星状中心辐射。(3)所有居群核苷酸多样性的变异均较低(P_i<0.005),JST居群和THS居群单倍型多样性较低(H_d为0.5～0.6),显示出天台鹅耳枥在历史上遇到瓶颈后曾发生局部扩张,居群间呈现较大的遗传分化,居群内具有较低的遗传变异与居群间较高的分化水平。通过对cpDNA SNP的研究,揭示天台鹅耳枥的遗传多样性和谱系分化,为濒危植物天台鹅耳枥种质资源保护和遗传拯救提供理论依据。