Your search keyword '"Hiratsuka, J."' showing total 81 results

1. Characterization and Phylogenetic Analyses of the Complete Chloroplast Genome Sequence in Arachis Species.

Author

Yu, Xiaona, Liang, Tianzhu, Guo, Yi, Liang, Yan, Zou, Xiaoxia, Si, Tong, Ni, Yu, and Zhang, Xiaojun

Subjects

CHLOROPLAST DNA, WHOLE genome sequencing, ARACHIS, MICROSATELLITE repeats, SPECIES, GERMPLASM

Abstract

Peanut is an important oilseed and a widely cultivated crop worldwide. Knowledge of the phylogenetic relationships and information on the chloroplast genomes of wild and cultivated peanuts is crucial for the evolution of peanuts. In this study, we sequenced and assembled 14 complete chloroplast genomes of Arachis. The total lengths varied from 156,287 bp to 156, 402 bp, and the average guanine–cytosine content was 36.4% in 14 Arachis species. A total of 85 simple sequence repeats (SSRs) loci were detected, including 3 dinucleotide and 82 polynucleotide SSRs. Based on 110 complete chloroplast genomes of Arachis, a phylogenetic tree was constructed, which was divided into two groups (I and II). A total of 79 different genes were identified, of which six double-copy genes (ndhB, rpl2, rpl23, rps7, ycf1, and ycf2) and one triple-copy gene (rps12) are present in all 14 Arachis species, implying that these genes may be critical for photosynthesis. The dN/dS ratios for four genes (rps18, accD, clpP, ycf1) were larger than 1, indicating that these genes are subject to positive selection. These results not only provided rich genetic resources for molecular breeding but also candidate genes for further functional gene research. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparative chloroplast genomes of Dactylicapnos species: insights into phylogenetic relationships.

Author

Yang, Shunquan, Chen, Juntong, Li, Zhimin, Huang, Xianhan, Zhang, Xu, Liu, Qun, Tojibaev, Komiljon, Sun, Hang, and Deng, Tao

Subjects

CHLOROPLAST DNA, CHLOROPLASTS, GENOMICS, SPECIES, GENETIC code

Abstract

Background: Dactylicapnos is a climbing herbaceous vine, distributed from the Himalayas to southwestern China, and some of the species have important medicinal values. However, the chloroplast genomes of Dactylicapnos have never been investigated. In this study, chloroplast genomes of seven Dactylicapnos species covering all three sections and one informal group of Dactylicapnos were sequenced and assembled, and the detailed comparative analyses of the chloroplast genome structure were provided for the first time. Results: The results showed that the chloroplast genomes of Dactylicapnos have a typical quadripartite structure with lengths from 172,344 bp to 176,370 bp, encoding a total of 133–140 genes, containing 88–94 protein-coding genes, 8 rRNAs and 37–39 tRNAs. 31 codons were identified as relative synonymous codon usage values greater than one in the chloroplast genome of Dactylicapnos genus based on 80 protein-coding genes. The results of the phylogenetic analysis showed that seven Dactylicapnos species can be divided into three main categories. Phylogenetic analysis revealed that seven species form three major clades which should be treated as three sections. Conclusions: This study provides the initial report of the chloroplast genomes of Dactylicapnos, their structural variation, comparative genomic and phylogenetic analysis for the first time. The results provide important genetic information for development of medical resources, species identification, infrageneric classification and diversification of Dactylicapnos. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparative Analysis of Chloroplast Pan-Genomes and Transcriptomics Reveals Cold Adaptation in Medicago sativa.

Author

Zhang, Tianxiang, Chen, Xiuhua, Yan, Wei, Li, Manman, Huang, Wangqi, Liu, Qian, Li, Yanan, Guo, Changhong, and Shu, Yongjun

Subjects

CHLOROPLAST DNA, PHYSIOLOGICAL effects of cold temperatures, COLD adaptation, ALFALFA, COMPARATIVE genomics, TRANSCRIPTOMES, PAN-genome, GENETIC variation

Abstract

Alfalfa (Medicago sativa) is a perennial forage legume that is widely distributed all over the world; therefore, it has an extremely complex genetic background. Though population structure and phylogenetic studies have been conducted on a large group of alfalfa nuclear genomes, information about the chloroplast genomes is still lacking. Chloroplast genomes are generally considered to be conservative and play an important role in population diversity analysis and species adaptation in plants. Here, 231 complete alfalfa chloroplast genomes were successfully assembled from 359 alfalfa resequencing data, on the basis of which the alfalfa chloroplast pan-genome was constructed. We investigated the genetic variations of the alfalfa chloroplast genome through comparative genomic, genetic diversity, phylogenetic, population genetic structure, and haplotype analysis. Meanwhile, the expression of alfalfa chloroplast genes under cold stress was explored through transcriptome analysis. As a result, chloroplast genomes of 231 alfalfa lack an IR region, and the size of the chloroplast genome ranges from 125,192 bp to 126,105 bp. Using population structure, haplotypes, and construction of a phylogenetic tree, it was found that alfalfa populations could be divided into four groups, and multiple highly variable regions were found in the alfalfa chloroplast genome. Transcriptome analysis showed that tRNA genes were significantly up-regulated in the cold-sensitive varieties, while rps7, rpl32, and ndhB were down-regulated, and the editing efficiency of ycf1, ycf2, and ndhF was decreased in the cold-tolerant varieties, which may be due to the fact that chloroplasts store nutrients through photosynthesis to resist cold. The huge number of genetic variants in this study provide powerful resources for molecular markers. [ABSTRACT FROM AUTHOR]

Published

2024

4. Comparative Chloroplast Genomics Reveals a Unique Gene Inversion in Two Cordia Trees (Cordiaceae).

Author

Alawfi, Mohammad S. and Albokhari, Enas J.

Subjects

CHLOROPLAST DNA, COMPARATIVE genomics, MICROSATELLITE repeats, TRANSFER RNA, GENES, GERMPLASM, RIBOSOMAL RNA

Abstract

Cordiaceae is a family comprising more than 400 species in the order Boraginales. The classification of this family has undergone changes over time, transitioning between family and subfamily status. In the present study, the complete chloroplast (cp) genomes of Cordia monoica and Cordia sinensis were sequenced, and their cp genomes were then characterized, analyzed, and compared to those of closely related taxa. The lengths of the cp genomes of C. monoica and C. sinensis were 151,813 bp and 152,050 bp, respectively. Both genomes consisted of 114 genes, divided into 4 ribosomal RNA genes, 30 transfer RNA genes, and 80 protein-coding genes. We observed a unique gene inversion in the trnM-rbcL region of both Cordia species. The long repeats analysis revealed that both species' chloroplast genomes contained forward and palindromic repeats. The simple sequence repeats (SSRs) analysis detected 155 microsatellites in each genome, with the majority being mononucleotide repeats (A/T). Phylogenetic analysis based on maximum likelihood and Bayesian analyses confirmed two major clades in the order Boraginales: clade I comprised Boraginaceae, while clade II included Cordiaceae, Ehretiaceae, and Heliotropiaceae. This study expands our knowledge of the evolutionary relationships across the order Boraginales and offers useful genetic resources. [ABSTRACT FROM AUTHOR]

Published

2023

5. Complete chloroplast genomes of five Cuscuta species and their evolutionary significance in the Cuscuta genus.

Author

Pan, Hangkai, Zagorchev, Lyuben, Chen, Luxi, Tao, Yutian, Cai, Chaonan, Jiang, Ming, Sun, Zhongshuai, and Li, Junmin

Subjects

CHLOROPLAST DNA, DODDER, WHOLE genome sequencing, SPECIES, PARASITIC plants, CONVOLVULACEAE

Abstract

Background: Cuscuta, a parasitic plant species in the Convolvulaceae family, grows in many countries and regions. However, the relationship between some species is still unclear. Therefore, more studies are needed to assess the variation of the chloroplast (cp) genome in Cuscuta species and their relationship with subgenera or sections, thus, providing important information on the evolution of Cuscuta species. Results: In the present study, we identified the whole cp genomes of C. epithymum, C. europaea, C. gronovii, C. chinensis and C. japonica, and then constructed a phylogenetic tree of 23 Cuscuta species based on the complete genome sequences and protein-coding genes. The complete cp genome sequences of C. epithymum and C. europaea were 96,292 and 97,661 bp long, respectively, and lacked an inverted repeat region. Most cp genomes of Cuscuta spp. have tetragonal and circular structures except for C. epithymum, C. europaea, C. pedicellata and C. approximata. Based on the number of genes and the structure of cp genome and the patterns of gene reduction, we found that C. epithymum and C. europaea belonged to subgenus Cuscuta. Most of the cp genomes of the 23 Cuscuta species had single nucleotide repeats of A and T. The inverted repeat region boundaries among species were similar in the same subgenera. Several cp genes were lost. In addition, the numbers and types of the lost genes in the same subgenus were similar. Most of the lost genes were related to photosynthesis (ndh, rpo, psa, psb, pet, and rbcL), which could have gradually caused the plants to lose the ability to photosynthesize. Conclusion: Our results enrich the data on cp. genomes of genus Cuscuta. This study provides new insights into understanding the phylogenetic relationships and variations in the cp genome of Cuscuta species. [ABSTRACT FROM AUTHOR]

Published

2023

6. A DNA barcode reference library for the native woody seed plants of Japan.

Author

Setsuko, Suzuki, Yoshimura, Kensuke, Ueno, Saneyoshi, Worth, James Raymond Peter, Ujino‐Ihara, Tokuko, Katsuki, Toshio, Noshiro, Shuichi, Fujii, Tomoyuki, Arai, Takahisa, and Yoshimaru, Hiroshi

Subjects

DNA data banks, PHANEROGAMS, CHLOROPLAST DNA, GENETIC barcoding, BOTANICAL specimens, DNA

Abstract

DNA barcode databases are increasingly available for a range of organisms, facilitating the wide application of DNA barcode‐based studies. Here we announce the development of a comprehensive DNA barcode reference library of Japanese native woody seed plants representing 43 orders, 99 families, 303 genera and 834 species, and comprising 77.3% of the genera and 72.2% of the species of native woody seed plants in Japan. A total of 6216 plant specimens were collected from 223 sites across the subtropical, temperate, boreal and alpine biomes in Japan with most species represented by multiple accessions. This reference library utilized three chloroplast DNA regions (rbcL, trnH‐psbA and matK) and consists of 14,403 barcode sequences. Individual regions varied in their identification rates, with species‐level and genus‐level rates for rbcL, trnH‐psbA and matK based on blast being 57.4%/96.2%, 78.5%/99.1% and 67.8%/98.1%, respectively. Identification rates were higher using region combinations, with total species‐level rates for two region combinations (rbcL & trnH‐psbA, rbcL & matK and trnH‐psbA & matK) ranging between 90.6% and 95.8%, and for all three regions being equal to 98.6%. Genus‐level identification rates were even higher, ranging between 99.7% and 100% for two region combinations and being 100% for the three regions. These results indicate that this DNA barcode reference library is an effective resource for investigations of native woody seed plants in Japan using DNA barcodes and provides a useful template for the development of libraries for other components of the Japanese flora. [ABSTRACT FROM AUTHOR]

Published

2023

7. Assembly and Annotation of Red Spruce (Picea rubens) Chloroplast Genome, Identification of Simple Sequence Repeats, and Phylogenetic Analysis in Picea.

Author

Parmar, Rajni, Cattonaro, Federica, Phillips, Carrie, Vassiliev, Serguei, Morgante, Michele, and Rajora, Om P.

Subjects

CHLOROPLAST DNA, MICROSATELLITE repeats, SPRUCE, WHOLE genome sequencing, MOLECULAR phylogeny, BLACK spruce

Abstract

We have sequenced the chloroplast genome of red spruce (Picea rubens) for the first time using the single-end, short-reads (44 bp) Illumina sequences, assembled and functionally annotated it, and identified simple sequence repeats (SSRs). The contigs were assembled using SOAPdenovo2 following the retrieval of chloroplast genome sequences using the black spruce (Picea mariana) chloroplast genome as the reference. The assembled genome length was 122,115 bp (gaps included). Comparatively, the P. rubens chloroplast genome reported here may be considered a near-complete draft. Global genome alignment and phylogenetic analysis based on the whole chloroplast genome sequences of Picea rubens and 10 other Picea species revealed high sequence synteny and conservation among 11 Picea species and phylogenetic relationships consistent with their known classical interrelationships and published molecular phylogeny. The P. rubens chloroplast genome sequence showed the highest similarity with that of P. mariana and the lowest with that of P. sitchensis. We have annotated 107 genes including 69 protein-coding genes, 28 tRNAs, 4 rRNAs, few pseudogenes, identified 42 SSRs, and successfully designed primers for 26 SSRs. Mononucleotide A/T repeats were the most common followed by dinucleotide AT repeats. A similar pattern of microsatellite repeats occurrence was found in the chloroplast genomes of 11 Picea species. [ABSTRACT FROM AUTHOR]

Published

2022

8. Complete Chloroplast Genome of Gladiolus gandavensis (Gladiolus) and Genetic Evolutionary Analysis.

Author

Qian, Renjuan, Ye, Youju, Hu, Qingdi, Ma, Xiaohua, and Zheng, Jian

Subjects

CHLOROPLAST DNA, GLADIOLUS, MICROSATELLITE repeats, CIRCULAR DNA, ORNAMENTAL plants, SAFFRON crocus

Abstract

Gladiolus is an important ornamental plant that is one of the world's four most-grown cut flowers. Gladiolus gandavensis has only been found in the Cangnan County (Zhejiang Province) of China, which is recorded in the "Botanical". To explore the origin of G. gandavensis, chloroplast genome sequencing was conducted. The results indicated that a total of 151,654 bp of circular DNA was obtained. The chloroplast genome of G. gandavensis has a quadripartite structure (contains a large single-copy (LSC) region (81,547 bp), a small single-copy region (SSC) (17,895 bp), and two inverted repeats (IRs) (IRa and IRb, 52,212 bp)), similar to that of other species. In addition, a total of 84 protein-coding genes, 8 rRNA-encoding genes, and 38 tRNA-encoding genes were present in the chloroplast genome. To further study the structural characteristics of the chloroplast genome in G. gandavensis, a comparative analysis of eight species of the Iridaceae family was conducted, and the results revealed higher similarity in the IR regions than in the LSC and SSC regions. In addition, 265 simple sequence repeats (SSRs) were detected in this study. The results of the phylogenetic analysis indicated that the chloroplast genome of G. gandavensis has high homology with the Crocus cartwrightianus and Crocus sativus chloroplast genomes. Genetic analysis based on the rbcl sequence among 49 Gladiolus species showed that samples 42, 49, 50, and 54 had high homology with the three samples from China (64, 65, and 66), which might be caused by chance similarity in genotypes. These results suggest that G. gandavensis may have originated from South Africa. [ABSTRACT FROM AUTHOR]

Published

2022

9. Genome skimming approach reveals the gene arrangements in the chloroplast genomes of the highly endangered Crocus L. species: Crocus istanbulensis (B.Mathew) Rukšāns.

Author

Cay, Selahattin Baris, Cinar, Yusuf Ulas, Kuralay, Selim Can, Inal, Behcet, Zararsiz, Gokmen, Ciftci, Almila, Mollman, Rachel, Obut, Onur, Eldem, Vahap, Bakir, Yakup, and Erol, Osman

Subjects

CHLOROPLAST DNA, CHLOROPLASTS, GENOMES, MOLECULAR evolution, GENES, BASE pairs, SPECIES

Abstract

Crocus istanbulensis (B.Mathew) Rukšāns is one of the most endangered Crocus species in the world and has an extremely limited distribution range in Istanbul. Our recent field work indicates that no more than one hundred individuals remain in the wild. In the present study, we used genome skimming to determine the complete chloroplast (cp) genome sequences of six C. istanbulensis individuals collected from the locus classicus. The cp genome of C. istanbulensis has 151,199 base pairs (bp), with a large single-copy (LSC) (81,197 bp), small single copy (SSC) (17,524 bp) and two inverted repeat (IR) regions of 26,236 bp each. The cp genome contains 132 genes, of which 86 are protein-coding (PCGs), 8 are rRNA and 38 are tRNA genes. Most of the repeats are found in intergenic spacers of Crocus species. Mononucleotide repeats were most abundant, accounting for over 80% of total repeats. The cp genome contained four palindrome repeats and one forward repeat. Comparative analyses among other Iridaceae species identified one inversion in the terminal positions of LSC region and three different gene (psbA, rps3 and rpl22) arrangements in C. istanbulensis that were not reported previously. To measure selective pressure in the exons of chloroplast coding sequences, we performed a sequence analysis of plastome-encoded genes. A total of seven genes (accD, rpoC2, psbK, rps12, ccsA, clpP and ycf2) were detected under positive selection in the cp genome. Alignment-free sequence comparison showed an extremely low sequence diversity across naturally occurring C. istanbulensis specimens. All six sequenced individuals shared the same cp haplotype. In summary, this study will aid further research on the molecular evolution and development of ex situ conservation strategies of C. istanbulensis. [ABSTRACT FROM AUTHOR]

Published

2022

10. Comparative Analysis of Chloroplast Genomes of Dalbergia Species for Identification and Phylogenetic Analysis.

Author

Wu, Hoi-Yan, Wong, Kwan-Ho, Kong, Bobby Lim-Ho, Siu, Tin-Yan, But, Grace Wing-Chiu, Tsang, Stacey Shun-Kei, Lau, David Tai-Wai, and Shaw, Pang-Chui

Subjects

CHLOROPLAST DNA, ILLEGAL logging, SPECIES, COMPARATIVE studies, GENETIC markers, LEGUMES

Abstract

Dalbergia L.f. is a pantropical genus consisting of 269 species of trees, shrubs, and woody lianas. This genus is listed in CITES Appendices because of illegal logging and trafficking driven by the high economic value of its heartwood. Some species are also used medicinally. Species identification of Dalbergia timber and herbs is challenging but essential for CITES implementation. Molecular methods had been developed for some timber species, mostly from Madagascar and Southeast Asia, but medicinal species in south China were usually not included in those studies. Here, we sequenced and assembled the chloroplast genomes of five Dalbergia species native to Hong Kong, four of which are medicinal plants. Our aim is to find potential genetic markers for the identification of medicinal Dalbergia species based on divergence hotspots detected in chloroplast genomes after comparative and phylogenetic analysis. Dalbergia chloroplast genomes displayed the typical quadripartite structure, with the 50 kb inversion found in most Papilionoideae lineages. Their sizes and gene content are well conserved. Phylogenetic tree of Dalbergia chloroplast genomes showed an overall topology similar to that of ITS sequences. Four divergence hotspots (trnL(UAA)-trnT(UGU), ndhG-ndhI, ycf1a and ycf1b) were identified and candidate markers for identification of several Dalbergia species were suggested. [ABSTRACT FROM AUTHOR]

Published

2022

11. The complete chloroplast genome sequencing analysis revealed an unusual IRs reduction in three species of subfamily Zygophylloideae.

Author

Wang, Xiaoyang, Dorjee, Tashi, Chen, Yiru, Gao, Fei, and Zhou, Yijun

Subjects

CHLOROPLAST DNA, CHLOROPLASTS, WHOLE genome sequencing, SEQUENCE analysis, NADH dehydrogenase, GENOMICS, MOLECULAR biology

Abstract

Tetraena mongolica, Zygophyllum xanthoxylon, and Z. fabago are three typical dryland plants with important ecological values in subfamily Zygophylloideae of Zygophyllaceae. Studies on the chloroplast genomes of them are favorable for understanding the diversity and phylogeny of Zygophyllaceae. Here, we sequenced and assembled the whole chloroplast genomes of T. mongolica, Z. xanthoxylon, and Z. fabago, and performed comparative genomic and phylogenetic analysis. The total size, structure, gene content and orders of these three chloroplast genomes were similar, and the three chloroplast genomes exhibited a typical quadripartite structure with a large single-copy region (LSC; 79,696–80,291 bp), a small single-copy region (SSC; 16,462–17,162 bp), and two inverted repeats (IRs; 4,288–4,413 bp). A total of 107 unique genes were identified from the three chloroplast genomes, including 70 protein-coding genes, 33 tRNAs, and 4 rRNAs. Compared with other angiosperms, the three chloroplast genomes were significantly reduced in overall length due to an unusual 16–24 kb shrinkage of IR regions and loss of the 11 genes which encoded subunits of NADH dehydrogenase. Genome-wide comparisons revealed similarities and variations between the three species and others. Phylogenetic analysis based on the three chloroplast genomes supported the opinion that Zygophyllaceae belonged to Zygophyllales in Fabids, and Z. xanthoxylon and Z. fabago belonged to Zygophyllum. The genome-wide comparisons revealed the similarity and variations between the chloroplast genomes of the three Zygophylloideae species and other plant species. This study provides a valuable molecular biology evidence for further studies of phylogenetic status of Zygophyllaceae. [ABSTRACT FROM AUTHOR]

Published

2022

12. Structure and Phylogeny of the Curly Birch Chloroplast Genome.

Author

Shestibratov, Konstantin A., Baranov, Oleg Yu., Mescherova, Eugenia N., Kiryanov, Pavel S., Panteleev, Stanislav V., Mozharovskaya, Ludmila V., Krutovsky, Konstantin V., and Padutov, Vladimir E.

Subjects

CHLOROPLAST DNA, EUROPEAN white birch, NUCLEOTIDE sequence, MICROSATELLITE repeats, BIRCH, PHYLOGENY

Abstract

Curly birch [ Betula pendula var. carelica (Merckl.) Hämet-Ahti] is a relatively rare variety of silver birch (B. pendula Roth) that occurs mainly in Northern Europe and northwest part of Russia (Karelia). It is famous for the beautiful decorative texture of wood. Abnormal xylogenesis underlying this trait is heritable, but its genetic mechanism has not yet been fully understood. The high number of potentially informative genetic markers can be identified through sequencing nuclear and organelle genomes. Here, the de novo assembly, complete nucleotide sequence, and annotation of the chloroplast genome (plastome) of curly birch are presented for the first time. The complete plastome length is 160,523 bp. It contains 82 genes encoding structural and enzymatic proteins, 37 transfer RNAs (tRNAs), and eight ribosomal RNAs (rRNAs). The chloroplast DNA (cpDNA) is AT-rich containing 31.5% of A and 32.5% of T nucleotides. The GC-rich regions represent inverted repeats IR1 and IR2 containing genes of rRNAs (5S , 4.5S , 23S , and 16S) and tRNAs (trn V, trn I, and trn A). A high content of GC was found in rRNA (55.2%) and tRNA (53.2%) genes, but only 37.0% in protein-coding genes. In total, 384 microsatellite or simple sequence repeat (SSR) loci were found, mostly with mononucleotide motifs (92% of all loci) and predominantly A or T motifs (94% of all mononucleotide motifs). Comparative analysis of cpDNA in different plant species revealed high structural and functional conservatism in organization of the angiosperm plastomes, while the level of differences depends on the phylogenetic relationship. The structural and functional organization of plastome in curly birch was similar to cpDNA in other species of woody plants. Finally, the identified cpDNA sequence variation will allow to develop useful genetic markers. [ABSTRACT FROM AUTHOR]

Published

2021

13. Gene Loss, Pseudogenization in Plastomes of Genus Allium (Amaryllidaceae), and Putative Selection for Adaptation to Environmental Conditions.

Author

Scobeyeva, Victoria A., Artyushin, Ilya V., Krinitsina, Anastasiya A., Nikitin, Pavel A., Antipin, Maxim I., Kuptsov, Sergei V., Belenikin, Maxim S., Omelchenko, Denis O., Logacheva, Maria D., Konorov, Evgenii A., Samoilov, Andrey E., and Speranskaya, Anna S.

Subjects

ALLIUM, AMARYLLIDACEAE, NUMBERS of species, NADH dehydrogenase, PLANT genes, CHLOROPLASTS, PLANT physiology, CHLOROPLAST DNA

Abstract

Amaryllidaceae is a large family with more than 1,600 species, belonging to 75 genera. The largest genus— Allium —is vast, comprising about a thousand species. Allium species (as well as other members of the Amaryllidaceae) are widespread and diversified, they are adapted to a wide range of habitats from shady forests to open habitats like meadows, steppes, and deserts. The genes present in chloroplast genomes (plastomes) play fundamental roles for the photosynthetic plants. Plastome traits could thus be associated with geophysical abiotic characteristics of habitats. Most chloroplast genes are highly conserved and are used as phylogenetic markers for many families of vascular plants. Nevertheless, some studies revealed signatures of positive selection in chloroplast genes of many plant families including Amaryllidaceae. We have sequenced plastomes of the following nine Allium (tribe Allieae of Allioideae) species: A. zebdanense , A. moly , A. victorialis , A. macleanii , A. nutans , A. obliquum , A. schoenoprasum , A. pskemense , A. platyspathum , A. fistulosum , A. semenovii , and Nothoscordum bivalve (tribe Leucocoryneae of Allioideae). We compared our data with previously published plastomes and provided our interpretation of Allium plastome genes' annotations because we found some noteworthy inconsistencies with annotations previously reported. For Allium species we estimated the integral evolutionary rate, counted SNPs and indels per nucleotide position as well as compared pseudogenization events in species of three main phylogenetic lines of genus Allium to estimate whether they are potentially important for plant physiology or just follow the phylogenetic pattern. During examination of the 38 species of Allium and the 11 of other Amaryllidaceae species we found that rps16 , rps2 , infA , ccsA genes have lost their functionality multiple times in different species (regularly evolutionary events), while the pseudogenization of other genes was stochastic events. We found that the "normal" or "pseudo" state of rps16 , rps2 , infA , ccsA genes correlates well with the evolutionary line of genus the species belongs to. The positive selection in various NADH dehydrogenase (ndh) genes as well as in matK , accD , and some others were found. Taking into account known mechanisms of coping with excessive light by cyclic electron transport, we can hypothesize that adaptive evolution in genes, coding subunits of NADH-plastoquinone oxidoreductase could be driven by abiotic factors of alpine habitats, especially by intensive light and UV radiation. [ABSTRACT FROM AUTHOR]

Published

2021

14. Complete chloroplast genomes of wild and cultivated Cryptomeria japonica var. sinensis.

Author

Yan, Yadan, Wu, Xingtong, Wang, Minqiu, Li, Zeqing, Yuan, Meiling, Dai, Minjun, and Wen, Yafeng

Subjects

CRYPTOMERIA japonica, CHLOROPLAST DNA, MICROSATELLITE repeats, WOOD

Abstract

The tree Cryptomeria japonica var. sinensis is native to China and is an important forest species widely used for wood production. Here, we sequenced the complete chloroplast (cp) genomes of six wild and six cultivated accessions of this tree. The 12 cp genomes ranged from 131,379 to 131,528 bp. The GC content was 35.4%, similar to other gymnosperm species. The cp genomes lacked typical inverted repeat (IR) regions and encoded 118 genes. Most genes appeared in one copy and 17 genes contained introns. Two multi-copy genes (trnM-CAU × 3, trnQ-UUG × 2) were identified. And 59–61 simple sequence repeats (SSRs) were identified in the whole cp genomes, and most SSR loci consisted of A or T bases. Phylogenetic analysis indicated that wild and cultivated accessions were not clearly differentiated. Our results will provide useful information for the conservation and utilization of this variety. Supplemental data for this article is available online at https://doi.org/10.1080/13102818.2021.1932592. [ABSTRACT FROM AUTHOR]

Published

2021

15. Determination of the evolutionary pressure on Camellia oleifera on Hainan Island using the complete chloroplast genome sequence.

Author

Wan Zhang, Yunlin Zhao, Guiyan Yang, Jiao Peng, Shuwen Chen, and Zhenggang Xu

Subjects

CHLOROPLAST DNA, CHLOROPLASTS, CAMELLIA oleifera, NUCLEOTIDE sequencing, MICROSATELLITE repeats, POPULATION genetics, MOLECULAR biology

Abstract

Camellia oleifera is one of the four largest woody edible oil plants in the world with high ecological and medicinal values. Due to frequent interspecific hybridization, it was difficult to study its genetics and evolutionary history. This study used C. oleifera that was collected on Hainan Island to conduct our research. The unique island environment makes the quality of tea oil higher than that of other species grown in the mainland. Moreover, a long-term geographic isolation might affect gene structure. In order to better understand the molecular biology of this species, protect excellent germplasm resources, and promote the population genetics and phylogenetic studies of Camellia plants, high-throughput sequencing technology was used to obtain the chloroplast genome sequence of Hainan C. oleifera. The results showed that the whole chloroplast genome of C. oleifera in Hainan was 156,995 bp in length, with a typical quadripartite structure of a large single copy (LSC) region of 86,648 bp, a small single copy (SSC) region of 18,297 bp, and a pair of inverted repeats (IRs) of 26,025 bp. The whole genome encoded a total of 141 genes (115 different genes), including 88 protein-coding genes, 45 tRNA genes, and eight rRNA genes. Among these genes, nine genes contained one intron, two genes contained two introns, and four overlapping genes were also detected. The total GC content of Hainan C. oleifera’s chloroplast genome was 37.29%. The chloroplast genome structure characteristics of Hainan C. oleifera were compared with mainland C. oleifera and those of the other eight closely related Theaceae species; it was found that the contractions and expansions of the IR/LSC and IR/SSC regions affected the length of chloroplast genome. The chloroplast genome sequences of these Theaceae species were highly similar. A comparative analysis indicated that the Theaceae species were conserved in structure and evolution. A total of 51 simple sequence repeat (SSR) loci were detected in the chloroplast genome of Hainan C. oleifera, and all Camellia plants did not have pentanucleotide repeats, which could be used as a good marker in phylogenetic studies. We also detected seven long repeats, the base composition of all repeats was biased toward A/T, which was consistent with the codon bias. It was found that Hainan C. oleifera had a similar evolutionary relationship with C. crapnelliana, through the use of codons and phylogenetic analysis. This study can provide an effective genomic resource for the evolutionary history of Theaceae family. [ABSTRACT FROM AUTHOR]

Published

2019

16. Complete chloroplast genome sequence and comparative analysis of loblolly pine (Pinus taeda L.) with related species.

Author

Asaf, Sajjad, Khan, Abdul Latif, Khan, Muhammad Aaqil, Shahzad, Raheem, Lubna, null, Kang, Sang Mo, Al-Harrasi, Ahmed, Al-Rawahi, Ahmed, and Lee, In-Jung

Subjects

LOBLOLLY pine, CHLOROPLAST DNA, INVERTED repeats (Genetics), SINGLE nucleotide polymorphisms, GYMNOSPERMS

Abstract

Pinaceae, the largest family of conifers, has a diversified organization of chloroplast (cp) genomes with two typical highly reduced inverted repeats (IRs). In the current study, we determined the complete sequence of the cp genome of an economically and ecologically important conifer tree, the loblolly pine (Pinus taeda L.), using Illumina paired-end sequencing and compared the sequence with those of other pine species. The results revealed a genome size of 121,531 base pairs (bp) containing a pair of 830-bp IR regions, distinguished by a small single copy (42,258 bp) and large single copy (77,614 bp) region. The chloroplast genome of P. taeda encodes 120 genes, comprising 81 protein-coding genes, four ribosomal RNA genes, and 35 tRNA genes, with 151 randomly distributed microsatellites. Approximately 6 palindromic, 34 forward, and 22 tandem repeats were found in the P. taeda cp genome. Whole cp genome comparison with those of other Pinus species exhibited an overall high degree of sequence similarity, with some divergence in intergenic spacers. Higher and lower numbers of indels and single-nucleotide polymorphism substitutions were observed relative to P. contorta and P. monophylla, respectively. Phylogenomic analyses based on the complete genome sequence revealed that 60 shared genes generated trees with the same topologies, and P. taeda was closely related to P. contorta in the subgenus Pinus. Thus, the complete P. taeda genome provided valuable resources for population and evolutionary studies of gymnosperms and can be used to identify related species. [ABSTRACT FROM AUTHOR]

Published

2018

17. Optimized Method of Extracting Rice Chloroplast DNA for High-Quality Plastome Resequencing and de Novo Assembly.

Author

Takamatsu, Takeshi, Baslam, Marouane, Inomata, Takuya, Oikawa, Kazusato, Itoh, Kimiko, Ohnishi, Takayuki, Kinoshita, Tetsu, and Mitsui, Toshiaki

Subjects

PLANT organelles, CHLOROPLAST DNA, PHOTOSYNTHESIS

Abstract

Chloroplasts, which perform photosynthesis, are one of the most important organelles in green plants and algae. Chloroplasts maintain an independent genome that includes important genes encoding their photosynthetic machinery and various housekeeping functions. Owing to its non-recombinant nature, low mutation rates, and uniparental inheritance, the chloroplast genome (plastome) can give insights into plant evolution and ecology and in the development of biotechnological and breeding applications. However, efficient methods to obtain high-quality chloroplast DNA (cpDNA) are currently not available, impeding powerful sequencing and further functional genomics research. To investigate effects on rice chloroplast genome quality, we compared cpDNA extraction by three extraction protocols: liquid nitrogen coupled with sucrose density gradient centrifugation, high-salt buffer, and Percoll gradient centrifugation. The liquid nitrogen-sucrose gradient method gave a high yield of high-quality cpDNA with reliable purity. The cpDNA isolated by this technique was evaluated, resequenced, and assembled de novo to build a robust framework for genomic and genetic studies. Comparison of this high-purity cpDNA with total DNAs revealed the read coverage of the sequenced regions; next-generation sequencing data showed that the high-quality cpDNA eliminated noise derived from contamination by nuclear and mitochondrial DNA, which frequently occurs in total DNA. The assembly process produced highly accurate, long contigs. We summarize the extent to which this improved method of isolating cpDNA from rice can provide practical progress in overcoming challenges related to chloroplast genomes and in further exploring the development of new sequencing technologies. [ABSTRACT FROM AUTHOR]

Published

2018

18. Chloroplast Genome Sequence of Pigeonpea (Cajanus cajan (L.) Millspaugh) and Cajanus scarabaeoides (L.) Thouars: Genome Organization and Comparison with Other Legumes.

Author

Kaila, Tanvi, Chaduvla, Pavan K., Saxena, Swati, Bahadur, Kaushlendra, Gahukar, Santosh J., Chaudhury, Ashok, Sharma, T. R., Singh, N. K., and Gaikwad, Kishor

Subjects

NUCLEOTIDE sequencing, PIGEON pea, CHLOROPLAST DNA

Abstract

Pigeonpea (Cajanus cajan (L.) Millspaugh), a diploid (2n=22) legume crop with a genome size of 852 Mbp, serves as an important source of human dietary protein especially in South East Asian and African regions. In this study, the draft chloroplast genomes of Cajanus cajan and Cajanus scarabaeoides (L.) Thouars were generated. Cajanus scarabaeoides is an important species of the Cajanus gene pool and has also been used for developing promising CMS system by different groups. A male sterile genotype harboring the C. scarabaeoides cytoplasm was used for sequencing the plastid genome. The cp genome of C. cajan is 152,242bp long, having a quadripartite structure with LSC of 83,455 bp and SSC of 17,871 bp separated by IRs of 25,398 bp. Similarly, the cp genome of C. scarabaeoides is 152,201bp long, having a quadripartite structure in which IRs of 25,402 bp length separates 83,423 bp of LSC and 17,854 bp of SSC. The pigeonpea cp genome contains 116 unique genes, including 30 tRNA, 4 rRNA, 78 predicted protein coding genes and 5 pseudogenes. A 50 kb inversion was observed in the LSC region of pigeonpea cp genome, consistent with other legumes. Comparison of cp genome with other legumes revealed the contraction of IR boundaries due to the absence of rps19 gene in the IR region. Chloroplast SSRs were mined and a total of 280 and 292 cpSSRs were identified in C. scarabaeoides and C. cajan respectively. RNA editing was observed at 37 sites in both C. scarabaeoides and C. cajan, with maximum occurrence in the ndh genes. The pigeonpea cp genome sequence would be beneficial in providing informative molecular markers which can be utilized for genetic diversity analysis and aid in understanding the plant systematics studies among major grain legumes. [ABSTRACT FROM AUTHOR]

Published

2016

19. The Complete Chloroplast Genome Sequence of a Relict Conifer Glyptostrobus pensilis: Comparative Analysis and Insights into Dynamics of Chloroplast Genome Rearrangement in Cupressophytes and Pinaceae.

Author

Hao, Zhaodong, Cheng, Tielong, Zheng, Renhua, Xu, Haibin, Zhou, Yanwei, Li, Meiping, Lu, Fengjuan, Dong, Yini, Liu, Xin, Chen, Jinhui, and Shi, Jisen

Subjects

CHLOROPLAST DNA, CONIFERS, NUCLEOTIDE sequence, GENE rearrangement, PHYTOGEOGRAPHY

Abstract

Glyptostrobus pensilis, belonging to the monotypic genus Glyptostrobus (Family: Cupressaceae), is an ancient conifer that is naturally distributed in low-lying wet areas. Here, we report the complete chloroplast (cp) genome sequence (132,239 bp) of G. pensilis. The G. pensilis cp genome is similar in gene content, organization and genome structure to the sequenced cp genomes from other cupressophytes, especially with respect to the loss of the inverted repeat region A (IRA). Through phylogenetic analysis, we demonstrated that the genus Glyptostrobus is closely related to the genus Cryptomeria, supporting previous findings based on physiological characteristics. Since IRs play an important role in stabilize cp genome and conifer cp genomes lost different IR regions after splitting in two clades (cupressophytes and Pinaceae), we performed cp genome rearrangement analysis and found more extensive cp genome rearrangements among the species of cupressophytes relative to Pinaceae. Additional repeat analysis indicated that cupressophytes cp genomes contained less potential functional repeats, especially in Cupressaceae, compared with Pinaceae. These results suggested that dynamics of cp genome rearrangement in conifers differed since the two clades, Pinaceae and cupressophytes, lost IR copies independently and developed different repeats to complement the residual IRs. In addition, we identified 170 perfect simple sequence repeats that will be useful in future research focusing on the evolution of genetic diversity and conservation of genetic variation for this endangered species in the wild. [ABSTRACT FROM AUTHOR]

Published

2016

20. Complete chloroplast genome sequences of Eucommia ulmoides: genome structure and evolution.

Author

Wang, Lin, Wuyun, Ta-na, Du, Hongyan, Wang, Depeng, and Cao, Deming

Subjects

WHOLE genome sequencing, EUCOMMIA ulmoides, CHLOROPLAST DNA, GENOMES, MICROSATELLITE repeats, TRANSFER RNA

Abstract

Eucommia ulmoides is an important traditional medicinal plant that is used for the production of locative Eucommia rubber. In this study, the complete chloroplast (cp) genome sequence of E. ulmoides was obtained by total DNA sequencing; this is the first cp genome sequence of the order Garryales. The cp genome of E. ulmoides was 163,341 bp long and included a pair of inverted repeat (IR) regions (31,300 bp), one large single copy (LSC) region (86,592 bp), and one small single copy (SSC) region (14,149 bp). The genome structure and GC content were similar to those of typical angiosperm cp genomes and contained 115 unique genes, including 80 protein-coding genes, 31 transfer RNA (tRNAs), and four ribosomal RNA (rRNAs). Compared with the entire cp genome sequence, three unique genome rearrangements were observed in the LSC region. Moreover, compared with the Sesamum and Nicotiana cp genomes, E. ulmoides contained no indels in the IR regions, and variable regions were identified in noncoding regions. The E. ulmoides cp genome showed extreme expansion at the IR/SSC boundary owing to the integration of an additional complete gene, ycf1. Twenty-nine simple sequence repeats (SSRs) were identified in the E. ulmoides cp genome. In addition, 36 protein-coding genes were used for phylogenetic inference, supporting a sister relationship between E. ulmoides and Aucuba, which belongs to Euasterids I. In summary, we described the complete cp genome sequence of E. ulmoides; this information will be useful for phylogenetic and evolutionary studies. [ABSTRACT FROM AUTHOR]

Published

2016

21. The plastome sequence of the endemic Amazonian conifer, Retrophyllum piresii (Silba) C.N.Page, reveals different recombination events and plastome isoforms.

Author

do Nascimento Vieira, Leila, Rogalski, Marcelo, Faoro, Helisson, Pacheco de Freitas Fraga, Hugo, Goulart dos Anjos, Karina, Assine Picchi, Gisele Fernanda, Onofre Nodari, Rubens, de Oliveira Pedrosa, Fábio, Maltempi de Souza, Emanuel, and Pedro Guerra, Miguel

Subjects

ENDEMIC species, HOMOLOGOUS recombination, PLANT evolution, TRANSFER RNA, CHLOROPLAST DNA, GYMNOSPERMS

Abstract

Retrophyllum piresii (Podocarpaceae) is an endemic conifer species from the Brazilian Amazonian Region, and very few data related to ecological and genetic characteristics of this species are available. Plastome sequencing is an efficient tool to understand enigmatic and basal phylogenetic relationships at different taxonomic levels, as well as to probe the structural and functional evolution of plants. Usually, the plastome of photosynthetic land plants is quadripartite, with two copies of the inverted repeats (IRs) separating the small and large single-copy regions. However, in gymnosperms, IR can vary from large in size to completely absent, being constituted principally by transfer RNA (tRNA) genes, or a part of sequence of other genes. Here, we sequenced and characterized the complete plastome of R. piresii. This plastome was determined to be 133,291 bp (~480-fold coverage), presenting a total of 120 identified genes, of which 118 were single copy and two genes, trnN-GUU and trnD-GUC, were found to be duplicated and occurring as inverted and directed repeat (DR) sequences, respectively. These repeated regions presented recombinationally active sites, resulting in an IR-mediated inversion and a DR-mediated deletion. However, the isoform resulted from DR-mediated deletion may result in unviable plastome, with deletion of photosynthetic and expression machinery-related genes. [ABSTRACT FROM AUTHOR]

Published

2016

22. Development of polymorphic chloroplast DNA markers for the endangered tree Eusideroxylon zwageri through chloroplast isolation and next-generation sequencing.

Author

Kurokochi, Hiroyuki, Nurtjahjaningsih, I., Sukartiningsih, Tan, Engkong, Asakawa, Shuichi, Saito, Yoko, and Ide, Yuji

Abstract

Borneo ironwood ( Eusideroxylon zwageri) is a tall tropical tree that is threatened by illegal logging and exploitation due to its economic value. In the present study, approximately 10,618 bp of E. zwageri chloroplast DNA were sequenced genome-wide and 16 polymorphic markers of chloroplast DNA were developed, using next-generation sequencing technology. In total, 26 nucleotide substitutions, 3 indels, 1 sequence inversion, and 1 mononucleotide repeat variation were detected in samples of 10 trees collected from 5 populations in Kalimantan, Indonesia. These markers are a powerful tool that may be used to describe the phylogeographical genetic structure of E. zwageri and will be essential for the conservation and management of this endangered tree. [ABSTRACT FROM AUTHOR]

Published

2015

23. Analysis of the Complete Chloroplast Genome of a Medicinal Plant, Dianthus superbus var. longicalyncinus, from a Comparative Genomics Perspective.

Author

Raman, Gurusamy and Park, SeonJoo

Subjects

CHLOROPLAST DNA, MEDICINAL plants, COMPARATIVE genomics, PINKS (Plants), ORNAMENTAL plants

Abstract

Dianthus superbus var. longicalycinus is an economically important traditional Chinese medicinal plant that is also used for ornamental purposes. In this study, D. superbus was compared to its closely related family of Caryophyllaceae chloroplast (cp) genomes such as Lychnis chalcedonica and Spinacia oleracea. D. superbus had the longest large single copy (LSC) region (82,805 bp), with some variations in the inverted repeat region A (IRA)/LSC regions. The IRs underwent both expansion and constriction during evolution of the Caryophyllaceae family; however, intense variations were not identified. The pseudogene ribosomal protein subunit S19 (rps19) was identified at the IRA/LSC junction, but was not present in the cp genome of other Caryophyllaceae family members. The translation initiation factor IF-1 (infA) and ribosomal protein subunit L23 (rpl23) genes were absent from the Dianthus cp genome. When the cp genome of Dianthus was compared with 31 other angiosperm lineages, the infA gene was found to have been lost in most members of rosids, solanales of asterids and Lychnis of Caryophyllales, whereas rpl23 gene loss or pseudogization had occurred exclusively in Caryophyllales. Nevertheless, the cp genome of Dianthus and Spinacia has two introns in the proteolytic subunit of ATP-dependent protease (clpP) gene, but Lychnis has lost introns from the clpP gene. Furthermore, phylogenetic analysis of individual protein-coding genes infA and rpl23 revealed that gene loss or pseudogenization occurred independently in the cp genome of Dianthus. Molecular phylogenetic analysis also demonstrated a sister relationship between Dianthus and Lychnis based on 78 protein-coding sequences. The results presented herein will contribute to studies of the evolution, molecular biology and genetic engineering of the medicinal and ornamental plant, D. superbus var. longicalycinus. [ABSTRACT FROM AUTHOR]

Published

2015

24. Chloroplast phylogenomics resolves key relationships in ferns.

Author

Lu, Jin‐Mei, Zhang, Ning, Du, Xin‐Yu, Wen, Jun, and Li, De‐Zhu

Subjects

CHLOROPLAST DNA, FERNS, LYCOPHYTES, PLANT phylogeny, PLANT genomes

Abstract

Studies on chloroplast genomes of ferns and lycophytes are relatively few in comparison with those on seed plants. Although a basic phylogenetic framework of extant ferns is available, relationships among a few key nodes remain unresolved or poorly supported. The primary objective of this study is to explore the phylogenetic utility of large chloroplast gene data in resolving difficult deep nodes in ferns. We sequenced the chloroplast genomes from Cyrtomium devexiscapulae (Koidz.) Ching (eupolypod I) and Woodwardia unigemmata (Makino) Nakai (eupolypod II), and constructed the phylogeny of ferns based on both 48 genes and 64 genes. The trees based on 48 genes and 64 genes are identical in topology, differing only in support values for four nodes, three of which showed higher support values for the 48-gene dataset. Equisetum L. was resolved as the sister to the Psilotales-Ophioglossales clade, and Equisetales-Psilotales-Ophioglossales clade was sister to the clade of the leptosporangiate and marattioid ferns. The sister relationship between the tree fern clade and polypods was supported by 82% and 100% bootstrap values in the 64-gene and 48-gene trees, respectively. Within polypod ferns, Pteridaceae was sister to the clade of Dennstaedtiaceae and eupolypods with a high support value, and the relationship of Dennstaedtiaceae-eupolypods was strongly supported. With recent parallel advances in the phylogenetics of ferns using nuclear data, chloroplast phylogenomics shows great potential in providing a framework for testing the impact of reticulate evolution in the early evolution of ferns. [ABSTRACT FROM AUTHOR]

Published

2015

25. Plastid genome sequences of legumes reveal parallel inversions and multiple losses of rps16 in papilionoids.

Author

Schwarz, Erika N., Ruhlman, Tracey A., Sabir, Jamal S. M., Hajrah, Nahid H., Alharbi, Njud S., Al‐Malki, Abdulrahman L., Bailey, C. Donovan, and Jansen, Robert K.

Subjects

PLASTIDS, CHLOROPLAST DNA, GENETIC research, LEGUMES, PLANT genomes, GENETICS, BIOLOGICAL evolution

Abstract

To date, publicly available plastid genomes of legumes have for the most part been limited to the subfamily Papilionoideae. Here we report 13 new plastid genomes of legumes spanning all three subfamilies. The genomes representing Caesalpinioideae and Mimosoideae are highly conserved in gene content and gene order, similar to the ancestral angiosperm genome organization. Genomes within the Papilionoideae, however, have reduced sizes due to deletions in nine intergenic spacers primarily in the large single copy region. Our study also indicates that rps16 has been independently lost at least five times in legumes, with additional gene and intron losses scattered among the papilionoids. Additionally, genera from two distinct lineages within the papilionoids, Lupinus and Robinia, have a parallel inversion of 36 and 39 kb, respectively. This parallel inversion is novel as it appears to be caused by a 29 bp repeat within two trnS genes. This repeat is present in all available legume plastid genomes indicating that there is the potential for this inversion to be present in more species. This case of a homoplasious inversion is also evidence that some inversion events may not be reliable phylogenetic markers. [ABSTRACT FROM AUTHOR]

Published

2015

26. Mutation of the rice ASL2 gene encoding plastid ribosomal protein L21 causes chloroplast developmental defects and seedling death.

Author

Lin, D., Jiang, Q., Zheng, K., Chen, S., Zhou, H., Gong, X., Xu, J., Teng, S., Dong, Y., and Sugita, M.

Subjects

GENETIC mutation, RICE genetics, GENETIC code, RIBOSOMAL proteins, CHLOROPLAST DNA, SEEDLINGS

Abstract

The plastid ribosome proteins ( PRPs) play important roles in plastid protein biosynthesis, chloroplast differentiation and early chloroplast development. However, the specialised functions of individual protein components of the chloroplast ribosome in rice ( Oryza sativa) remain unresolved. In this paper, we identified a novel rice PRP mutant named asl2 ( Albino seedling lethality 2) exhibiting an albino, seedling death phenotype. In asl2 mutants, the alteration of leaf colour was associated with chlorophyll (Chl) content and abnormal chloroplast development. Through map-based cloning and complementation, the mutated ASL2 gene was isolated and found to encode the chloroplast 50S ribosome protein L21 ( RPL21c), a component of the chloroplast ribosome large subunit, which was localised in chloroplasts. ASL2 was expressed at a higher level in the plumule and leaves, implying its tissue-specific expression. Additionally, the expression of ASL2 was regulated by light. The transcript levels of the majority of genes for Chl biosynthesis, photosynthesis and chloroplast development were strongly affected in asl2 mutants. Collectively, the absence of functional ASL2 caused chloroplast developmental defects and seedling death. This report establishes the important role of RPL21c in chloroplast development in rice. [ABSTRACT FROM AUTHOR]

Published

2015

27. Chloroplast genome of Aconitum barbatum var. puberulum (Ranunculaceae) derived from CCS reads using the PacBio RS platform.

Author

Xiaochen Chen, Qiushi Li, Ying Li, Jun Qian, and Jianping Han

Subjects

CHLOROPLAST DNA, MONKSHOODS, PLANT genomes, PLANT genes, RIBOSOMAL RNA, BASE pairs

Abstract

The chloroplast genome (cp genome) of Aconitum barbatum var. puberulum was sequenced using the third-generation sequencing platform based on the single-molecule real-time (SMRT) sequencing approach. To our knowledge, this is the first reported complete cp genome of Aconitum, and we anticipate that it will have great value for phylogenetic studies of the Ranunculaceae family. In total, 23,498 CCS reads and 20,685,462 base pairs were generated, the mean read length was 880 bp, and the longest read was 2,261 bp. Genome coverage of 100% was achieved with a mean coverage of 132× and no gaps. The accuracy of the assembled genome is 99.973%; the assembly was validated using Sanger sequencing of six selected genes from the cp genome. The complete cp genome of A. barbatum var. puberulum is 156,749 bp in length, including a large single-copy region of 87,630 bp and a small single-copy region of 16,941 bp separated by two inverted repeats of 26,089 bp. The cp genome contains 130 genes, including 84 protein-coding genes, 34 tRNA genes and eight rRNA genes. Four forward, five inverted and eight tandem repeats were identified. According to the SSR analysis, the longest poly structure is a 20-T repeat. Our results presented in this paper will facilitate the phylogenetic studies and molecular authentication on Aconitum. [ABSTRACT FROM AUTHOR]

Published

2015

28. PCR-RFLP analysis of cpDNA and mtDNA in Oryza.

Author

Chen, L. J., Lee, D. S., and Suh, H. S.

Subjects

RESTRICTION fragment length polymorphisms, POLYMERASE chain reaction, CHLOROPLAST DNA, MITOCHONDRIAL DNA, ORYZA

Published

2008

29. COMPARATIVE ANALYSIS OF COMPLETE CHLOROPLAST GENOME SEQUENCE AND INVERSION VARIATION IN LASTHENIA BURKEI (MADIEAE, ASTERACEAE).

Author

Walker, Joseph F., Zanis, Michael J., and Emery, Nancy C.

Subjects

COMPARATIVE studies, CHLOROPLASTS, CHLOROPLAST DNA, SOLANACEAE, NON-coding DNA, TRANSFER RNA

Abstract

Premise of the study: Complete chloroplast genome studies can help resolve relationships among large, complex plant lineages such as Asteraceae. We present the first whole plastome from the Madieae tribe and compare its sequence variation to other chloroplast genomes in Asteraceae. Methods: We used high throughput sequencing to obtain the Lasthenia burkei chloroplast genome. We compared sequence structure and rates of molecular evolution in the small single copy (SSC), large single copy (LSC), and inverted repeat (IR) regions to those for eight Asteraceae accessions and one Solanaceae accession. Key results: The chloroplast sequence of L burkei is 150746 bp and contains 81 unique protein coding genes and 4 coding ribosomal RNA sequences. We identified three major inversions in the L. burkei chloroplast, all of which have been found in other Asteraceae lineages, and a previously unreported inversion in Lactuca sativa. Regions flanking inversions contained tRNA sequences, but did not have particularly high G + C content. Substitution rates varied among the SSC, LSC, and IR regions, and rates of evolution within each region varied among species. Some observed differences in rates of molecular evolution may be explained by the relative proportion of coding to noncoding sequence within regions. Conclusions: Rates of molecular evolution vary substantially within and among chloroplast genomes, and major inversion events may be promoted by the presence of tRNAs. Collectively, these results provide insight into different mechanisms that may promote intramolecular recombination and the inversion of large genomic regions in the plastome. [ABSTRACT FROM AUTHOR]

Published

2014

30. Loss of the Acetyl-CoA Carboxylase ( accD) Gene in Poales.

Author

Harris, Mark, Meyer, Gabriele, Vandergon, Thomas, and Vandergon, Virginia

Subjects

ACETYL-CoA carboxylase, GRASSES, ANGIOSPERMS, PLANT phylogeny, GENE rearrangement, MONOCOTYLEDONS, CHLOROPLAST DNA, PLANT species

Abstract

The loss of a gene is a rare genome-shaping event and as such, contributes important information to our understanding of phylogenetic relationships between genes and between species. Deletion of a gene can help to define a lineage. Here, we utilize the deletion of the chloroplast gene encoding the acetyl-CoA carboxylase subunit D ( accD) to help us define lineages based on its presence or absence in monocot plants specifically in Poales. Southern blots were constructed and probed for the presence of the accD gene. The existence of the portion of the accD gene represented by the probe was also verified by PCR and sequencing. Sequences were utilized for assembly of gene trees to link the absence or partial loss of the gene with a particular lineage. Here, we report new information adding accD gene presence in the Xyridaceae, pseudogene presence in the Flagellariaceae, and the absence of accD in Restionaceae and Joinvilleaceae. Based on our findings and the available data for accD sequences in Poales, we propose a model for accD loss beginning with a single event creating a pseudogene in the common ancestor to the restiid and graminid clades within Poales. This model also suggests that this pseudogene is carried as the ancestral state throughout most of the divergence of the Poales, a condition that would explain the highly varied pattern of accD pseudogene presence or gene absence in members of the restiid and graminid clades. [ABSTRACT FROM AUTHOR]

Published

2013

31. Phylogenetic utility of structural alterations found in the chloroplast genome of pear: hypervariable regions in a highly conserved genome.

Author

Katayama, Hironori, Tachibana, Miho, Iketani, Hiroyuki, Zhang, Shao-Ling, and Uematsu, Chiyomi

Subjects

PHYLOGENY, CHLOROPLAST DNA, PEARS, PLANT genomes, ANGIOSPERMS, GENETIC markers

Abstract

The genome structure of pear chloroplast DNA (cpDNA) is extremely highly conserved in comparison with that of other angiosperms, and therefore, relatively few phylogenetic analyses for pear ( Pyrus spp.) have been carried out using cpDNA as a marker. In this study, we identified two hypervariable regions in intergenic spacers of cpDNA from 21 species in Pyrus. One of these regions is 857 bp in length and lies between the accD- psaI genes, and the other is a 904-bp region between the rps16- trnQ genes. The mutation rate of gaps for the two regions was 10 and 26 times higher, respectively, than the base change rate. Twenty-five haplotypes were revealed among 21 species in Pyrus by 36 mutations found in the two regions. These included 27 gaps and 9 base changes but excluded cpSSRs. Phylogenetic relationships between the 25 haplotypes were generated by haplotype network analysis. The 25 haplotypes represented three groups (types A-C) with two large deletions, one 228 bp in length between the accD- psaI genes and the other 141 bp between the rps16- trnQ genes. Types A and B consisted mostly of pears native to East and South Asia. Type C contained mainly Pyrus communis and wild relatives native to Europe, West and Central Asia, Russia, and Africa. Type B might have diverged from primitives such as pea pears in type A. Phylogenetic utility of structural alterations (gaps) occurring in the hypervariable regions of Pyrus cpDNA is discussed. [ABSTRACT FROM AUTHOR]

Published

2012

32. Chloroplast Genome Variation in Upland and Lowland Switchgrass.

Author

Young, Hugh A., Lanzatella, Christina L., Sarath, Gautam, and Tobias, Christian M.

Subjects

CHLOROPLAST DNA, SWITCHGRASS, GENETIC polymorphisms, SINGLE nucleotide polymorphisms, UPLANDS, GENES, RICE, SUBSPECIES, PLASTIDS, BREEDING

Abstract

Switchgrass (Panicum virgatum L.) exists at multiple ploidies and two phenotypically distinct ecotypes. To facilitate interploidal comparisons and to understand the extent of sequence variation within existing breeding pools, two complete switchgrass chloroplast genomes were sequenced from individuals representative of the upland and lowland ecotypes. The results demonstrated a very high degree of conservation in gene content and order with other sequenced plastid genomes. The lowland ecotype reference sequence (Kanlow Lin1) was 139,677 base pairs while the upland sequence (Summer Lin2) was 139,619 base pairs. Alignments between the lowland reference sequence and short-read sequence data from existing sequence datasets identified as either upland or lowland confirmed known polymorphisms and indicated the presence of other differences. Insertions and deletions principally occurred near stretches of homopolymer simple sequence repeats in intergenic regions while most Single Nucleotide Polymorphisms (SNPs) occurred in intergenic regions and introns within the single copy portions of the genome. The polymorphism rate between upland and lowland switchgrass ecotypes was found to be similar to rates reported between chloroplast genomes of indica and japonica subspecies of rice which were believed to have diverged 0.2-0.4 million years ago. [ABSTRACT FROM AUTHOR]

Published

2011

33. High-Throughput Sequencing of Six Bamboo Chloroplast Genomes: Phylogenetic Implications for Temperate Woody Bamboos (Poaceae: Bambusoideae).

Author

Yun-Jie Zhang, Peng-Fei Ma, and De-Zhu Li

Subjects

BAMBOO, CHLOROPLAST DNA, PHYLOGENY, GRASSES, GENOMES

Abstract

Background: Bambusoideae is the only subfamily that contains woody members in the grass family, Poaceae. In phylogenetic analyses, Bambusoideae, Pooideae and Ehrhartoideae formed the BEP clade, yet the internal relationships of this clade are controversial. The distinctive life history (infrequent flowering and predominance of asexual reproduction) of woody bamboos makes them an interesting but taxonomically difficult group. Phylogenetic analyses based on large DNA fragments could only provide a moderate resolution of woody bamboo relationships, although a robust phylogenetic tree is needed to elucidate their evolutionary history. Phylogenomics is an alternative choice for resolving difficult phylogenies. Methodology/Principal Findings: Here we present the complete nucleotide sequences of six woody bamboo chloroplast (cp) genomes using Illumina sequencing. These genomes are similar to those of other grasses and rather conservative in evolution. We constructed a phylogeny of Poaceae from 24 complete cp genomes including 21 grass species. Within the BEP clade, we found strong support for a sister relationship between Bambusoideae and Pooideae. In a substantial improvement over prior studies, all six nodes within Bambusoideae were supported with ≥0.95 posterior probability from Bayesian inference and 5/6 nodes resolved with 100% bootstrap support in maximum parsimony and maximum likelihood analyses. We found that repeats in the cp genome could provide phylogenetic information, while caution is needed when using indels in phylogenetic analyses based on few selected genes. We also identified relatively rapidly evolving cp genome regions that have the potential to be used for further phylogenetic study in Bambusoideae. Conclusions/Significance: The cp genome of Bambusoideae evolved slowly, and phylogenomics based on whole cp genome could be used to resolve major relationships within the subfamily. The difficulty in resolving the diversification among three clades of temperate woody bamboos, even with complete cp genome sequences, suggests that these lineages may have diverged very rapidly. [ABSTRACT FROM AUTHOR]

Published

2011

34. Phylogeography of Cycas revoluta Thunb. (Cycadaceae) on the Ryukyu Islands: very low genetic diversity and geographical structure.

Author

Kyoda, S. and Setoguchi, Hiroaki

Subjects

CYCAS, PHYLOGEOGRAPHY, CHLOROPLAST DNA, MITOCHONDRIAL DNA

Abstract

Variations in the chloroplast and mitochondrial DNA of Cycas revoluta Thunb. (Cycadaceae) were examined in 22 populations distributed across the Ryukyu Islands and southern Kyushu. Among the 14,130 bp of sequence examined, only one site mutation and one indel were polymorphic. The identified polymorphisms were located in the spacers between trnS (UGA) and trnfM (CAU) of the chloroplast DNA and between nad1 exon B and exon C of the mitochondrial DNA, respectively. Three haplotypes were identified from the Ryukyu Islands and southern Kyushu. The areas of distribution of the three haplotypes were highly geographically structured. The boundaries of two of the three haplotypes were demarcated by Okinoerabujima Island in the middle Ryukyus. The northern type and southern types lay north and south of the island, respectively. The third haplotype was almost sympatrically distributed with the southern type. The genetic variation within C. revoluta was estimated to be very low ( h = 0.641, π = 0.00071) in comparison to its relative in Taiwan, C. taitungensis, which possesses 97 cpDNA haplotypes and 55 mtDNA haplotypes from two relic populations. A reasonable explanation for the low genetic diversity of the cycad on the Ryukyu Islands could be severe bottleneck effects, resulting from the submersion of low islands and the diminished landmass of islands in the interglacial age in the Quaternary period. The geographically restricted nature of the haplotypes could be attributed to vicariance resulting from the land configuration of the Ryukyu Islands, including changes in geography during the interglacial age in the Quaternary. [ABSTRACT FROM AUTHOR]

Published

2010

35. Using Chloroplast trnF Pseudogenes for Phylogeography in Arabidopsis Lyrata.

Author

Tedder, Andrew, Hoebe, Peter N., Ansell, Stephen W., and Mable, Barbara K.

Subjects

PLANT diversity, PLANT variation, PLANT population genetics, PLANT populations, CHLOROPLASTS, PHYLOGEOGRAPHY, CHLOROPLAST DNA

Abstract

The chloroplast trnL-F region has been extensively utilized for evolutionary analysis in plants. In the Brassicaceae this fragment contains 1-12 tandemly repeated trnF pseudogene copies in addition to the functional trnF gene. Here we assessed the potential of these highly variable, but complexly evolving duplications, to resolve the population history of the model plant Arabidopsis lyrata. While the region 5' of the duplications had negligible sequence diversity, extensive variation in pseudogene copy number and nucleotide composition revealed otherwise cryptic population structure in eastern North America. Thus structural changes can be phylogeographically informative when pseudogene evolutionary relationships can be resolved. [ABSTRACT FROM AUTHOR]

Published

2010

36. THE COMPLETE CHLOROPLAST GENOME OF TALL FESCUE (LOLIUM ARUNDINACEUM; POACEAE) AND COMPARISON OF WHOLE PLASTOMES FROM THE FAMILY POACEAE.

Author

Bruve Cahoon, A., Sharpe, Richard M., Mysayphonh, Chansamone, Thompson, Elizabeth J., Ward, Andrea D., and Lin, Anhua

Subjects

TALL fescue, CHLOROPLAST DNA, GRASS genetics, PLANT phylogeny

Abstract

In this paper, we describe the complete chioroplast genome of Lolium arundinaceum. This sequence is the culmination of a long-term project completed by >400 undergraduates who took general genetics at Middle Tennessee State University from 2004-2007. It was undertaken in an attempt to introduce these students to an open-ended experiential/exploratory lesson to produce and analyze novel data. The data they produced should provide the necessary information for both phylogenetic comparisons and plastome engineering of tall fescue. The fescue plastome (GenBank FJ466687) is 136048 bp with a typical quadripartite structure and a gene order similar to other grasses; 56% of the plastome is coding region comprised of 75 protein-coding genes, 29 tRNAs, four rRNAs, and one hypothetical coding region (ycf). Comparisons of Poaceae plastomes reveal size differences between the PACC (subfamilies Panicoideae, Arundinoideae, Centothecoideae, and Chloridoideae) and BOP (subfamilies Bambusoideae, Oryzoideae, and Pooideae) clades. Alignment analysis suggests that several potentially conserved large deletions in previously identified intergenic length polymorphic regions are responsible for the majority of the size discrepancy. Phylogenetic analysis using whole plastome data suggests that fescue closely aligns with Lolium perenne. Some unique features as well as phylogenetic branch length calculations, however, suggest that a number of changes have occurred since these species diverged. [ABSTRACT FROM AUTHOR]

Published

2010

37. Evolution of trnF(GAA) pseudogenes in cruciferous plants.

Author

Schmickl, Roswitha, Kiefer, Christiane, Dobeš, Christoph, and Koch, Marcus A.

Subjects

GENES, ARABIDOPSIS, CHLOROPLAST DNA, PHYLOGENY, NUCLEIC acids, GENOMES

Abstract

In several studies we used the 5′- trnL(UAA)– trnF(GAA) region of the chloroplast DNA for phylogeographic reconstructions, gene diversity calculations and phylogenetic analyses among the genera Arabidopsis and Boechera. Despite the fact that extensive gene duplications are rare within the chloroplast genome of higher plants, within several genera of the Brassicaceae the anticodon domain of the trnF(GAA) gene exhibit extensive gene duplications with 1–12 tandemly repeated copies in close 5′-proximity of the functional gene. A recent re-examination and additional analysis of trnL(UAA)– trnF(GAA) regions from numerous cruciferous taxa not only reveal extensive trnF gene duplications, but also favour the hypothesis that in cruciferous taxa at least four independent phylogenetic lineages are characterized by these pseudogenes. Among these lineages there is one major clade of taxa carrying pseudogenes indicating an ancient split in crucifer evolution. In two case studies, Boechera and Arabidopsis, intra- and inter-molecular recombinations have been shown to be the reason for the reciprocal exchange of several similar motifs. However, functional constraints might favour two to three or five to six copies as shown for Arabidopsis and Boechera. Herein, we compare the occurrence and distribution of pseudogene copy number in the framework of a comprehensive survey of cpDNA haplotype variation in Boechera, the former genus Cardaminopsis and Arabidopsis thaliana and comment on the value of such kind of mutations in phylogenetic and evolutionary reconstructions. [ABSTRACT FROM AUTHOR]

Published

2009

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

Author

EBERT, DANIEL and PEAKALL, ROD

Subjects

CHLOROPLAST DNA, POLYMERASE chain reaction, DNA primers, NUCLEOTIDES, TOBACCO, PHYLOGENY

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2009

39. Removal of Noisy Characters from Chloroplast Genome-Scale Data Suggests Revision of Phylogenetic Placements of Amborella and Ceratophyllum.

Author

Goremykin, Vadim V., Viola, Roberto, and Hellwig, Frank H.

Subjects

PHYLOGENY, CHLOROPLAST DNA, MOLECULAR evolution, ANGIOSPERMS, AMBORELLACEAE, AMBORELLA trichopoda, GENOMICS, CERATOPHYLLUM

Abstract

It is widely appreciated that noisy, highly variable data can impede phylogeney reconstruction. Researchers have for a long time omitted problematic data from phylogenetic analyses, such as the third-codon positions and variable regions. In the analyses of the phylogenetic relations of the angiosperms; however, inclusion of complete gene sequences into genomic-scale alignments has become a common practice. Here we demonstrate that this practice can be misleading. We show that support of the basal-most position of Amborella trichopoda among the angiosperms in the chloroplast genomic data is based only on a tiny subset (< 1% of the total alignment length) of the most variable positions in alignment, exhibiting mean maximum likelihood (ML) distance among the angiosperm operational taxonomic units (OTUs) approximately 36 substitutions/site. Exclusion of these positions leads to disappearance of the basal Amborella branch. Likewise, the recently reported sister-group relationship of Ceratophyllum to the eudicots is based on the presence of 2% of the most variable positions in the genomic alignment, exhibiting, on average, 20 substitutions/site in comparison among the angiosperm OTUs. These observations highlight a need for excluding a certain proportion of saturated positions in alignment from phylogenomic analyses. [ABSTRACT FROM AUTHOR]

Published

2009

40. Complete Sequence of the Duckweed ( Lemna minor) Chloroplast Genome: Structural Organization and Phylogenetic Relationships to Other Angiosperms.

Author

Mardanov, Andrey V., Ravin, Nikolai V., Kuznetsov, Boris B., Samigullin, Tahir H., Antonov, Andrey S., Kolganova, Tatiana V., and Skyabin, Konstantin G.

Subjects

DUCKWEEDS, CHLOROPLAST DNA, ANGIOSPERMS, LEMNA, NUCLEOTIDE sequence, GENES

Abstract

The complete nucleotide sequence of the duckweed ( Lemna minor) chloroplast genome (cpDNA) was determined. The cpDNA is a circular molecule of 165,955 bp containing a pair of 31,223-bp inverted repeat regions (IRs), which are separated by small and large single-copy regions of 89,906 and 13,603 bp, respectively. The entire gene pool and relative positions of 112 genes (78 protein-encoding genes, 30 tRNA genes, and 4 rRNA genes) are almost identical to those of Amborella trichopoda cpDNA; the minor difference is the absence of infA and ycf15 genes in the duckweed cpDNA. The inverted repeat is expanded to include ycf1 and rps15 genes; this pattern is unique and does not occur in any other sequenced cpDNA of land plants. As in basal angiosperms and eudicots, but not in other monocots, the borders between IRs and a large single-copy region are located upstream of rps19 and downstream of trnH, so that trnH is not included in IRs. The model of rearrangements of the chloroplast genome during the evolution of monocots is proposed as the result of the comparison of cpDNA structures in duckweed and other monocots. The phylogenetic analyses of 61 protein-coding genes from 38 plastid genome sequences provided strong support for the monophyly of monocots and position of Lemna as the next diverging lineage of monocots after Acorales. Our analyses also provided support for Amborella as a sister to all other angiosperms, but in the bayesian phylogeny inference based on the first two codon positions Amborella united with Nymphaeales. [ABSTRACT FROM AUTHOR]

Published

2008

41. Complete nucleotide sequence of the Cryptomeria japonica D. Don. chloroplast genome and comparative chloroplast genomics: diversified genomic structure of coniferous species.

Author

Hirao, Tomonori, Watanabe, Atsushi, Kurita, Manabu, Kondo, Teiji, and Takata, Katsuhiko

Subjects

NUCLEOTIDE sequence, CRYPTOMERIA japonica, CHLOROPLAST DNA, ANGIOSPERMS, GYMNOSPERMS, JAPANESE black pine, PINUS koraiensis

Abstract

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. Results: The C. japonica cp genome is 131,810 bp in length, with 112 single copy genes and two duplicated (trnI-CAU, trnQ-UUG) genes that give a total of 116 genes. Compared to other land plant cp genomes, the C. japonica cp has lost one of the relevant large inverted repeats (IRs) found in angiosperms, fern, liverwort, and gymnosperms, such as Cycas and Gingko, and additionally has completely lost its trnR-CCG, partially lost its trnT-GGU, and shows diversification of accD. The genomic structure of the C. japonica cp genome also differs significantly from those of other plant species. For example, we estimate that a minimum of 15 inversions would be required to transform the gene organization of the Pinus thunbergii cp genome into that of C. japonica. In the C. japonica cp genome, direct repeat and inverted repeat sequences are observed at the inversion and translocation endpoints, and these sequences may be associated with the genomic rearrangements. Conclusion: The observed differences in genomic structure between C. japonica and other land plants, including pines, strongly support the theory that the large IRs stabilize the cp genome. Furthermore, the deleted large IR and the numerous genomic rearrangements that have occurred in the C. japonica cp genome provide new insights into both the evolutionary lineage of coniferous species in gymnosperm and the evolution of the cp genome. [ABSTRACT FROM AUTHOR]

Published

2008

42. Comparative chloroplast genomics and phylogenetics of Fagopyrum esculentum ssp. ancestrale -- A wild ancestor of cultivated buckwheat.

Author

Logacheva, Maria D., Samigullin, Tahir H., Dhingra, Amit, and Penin, Aleksey A.

Subjects

CHLOROPLAST DNA, PHYLOGENY, BUCKWHEAT, NUCLEOTIDE sequence, POLYGONACEAE, PLANT genetics, DICOTYLEDONS

Abstract

Background: Chloroplast genome sequences are extremely informative about species-interrelationships owing to its non-meiotic and often uniparental inheritance over generations. The subject of our study, Fagopyrum esculentum, is a member of the family Polygonaceae belonging to the order Caryophyllales. An uncertainty remains regarding the affinity of Caryophyllales and the asterids that could be due to undersampling of the taxa. With that background, having access to the complete chloroplast genome sequence for Fagopyrum becomes quite pertinent. Results: We report the complete chloroplast genome sequence of a wild ancestor of cultivated buckwheat, Fagopyrum esculentum ssp. ancestrale. The sequence was rapidly determined using a previously described approach that utilized a PCR-based method and employed universal primers, designed on the scaffold of multiple sequence alignment of chloroplast genomes. The gene content and order in buckwheat chloroplast genome is similar to Spinacia oleracea. However, some unique structural differences exist: the presence of an intron in the rpl2 gene, a frameshift mutation in the rpl23 gene and extension of the inverted repeat region to include the ycf1 gene. Phylogenetic analysis of 61 protein-coding gene sequences from 44 complete plastid genomes provided strong support for the sister relationships of Caryophyllales (including Polygonaceae) to asterids. Further, our analysis also provided support for Amborella as sister to all other angiosperms, but interestingly, in the bayesian phylogeny inference based on first two codon positions Amborella united with Nymphaeales. Conclusion: Comparative genomics analyses revealed that the Fagopyrum chloroplast genome harbors the characteristic gene content and organization as has been described for several other chloroplast genomes. However, it has some unique structural features distinct from previously reported complete chloroplast genome sequences. Phylogenetic analysis of the dataset, including this new sequence from non-core Caryophyllales supports the sister relationship between Caryophyllales and asterids. [ABSTRACT FROM AUTHOR]

Published

2008

43. Chloroplast DNA sequence of the green alga Oedogonium cardiacum (Chlorophyceae): Unique genome architecture, derived characters shared with the Chaetophorales and novel genes acquired through horizontal transfer.

Author

Brouard, Jean-Simon, Otis, Christian, Lemieux, Claude, and Turmel, Monique

Subjects

CHLOROPLAST DNA, NUCLEOTIDE sequence, GREEN algae, OEDOGONIUM, GENETIC transformation, GENOMICS

Abstract

Background: To gain insight into the branching order of the five main lineages currently recognized in the green algal class Chlorophyceae and to expand our understanding of chloroplast genome evolution, we have undertaken the sequencing of chloroplast DNA (cpDNA) from representative taxa. The complete cpDNA sequences previously reported for Chlamydomonas (Chlamydomonadales), Scenedesmus (Sphaeropleales), and Stigeoclonium (Chaetophorales) revealed tremendous variability in their architecture, the retention of only few ancestral gene clusters, and derived clusters shared by Chlamydomonas and Scenedesmus. Unexpectedly, our recent phylogenies inferred from these cpDNAs and the partial sequences of three other chlorophycean cpDNAs disclosed two major clades, one uniting the Chlamydomonadales and Sphaeropleales (CS clade) and the other uniting the Oedogoniales, Chaetophorales and Chaetopeltidales (OCC clade). Although molecular signatures provided strong support for this dichotomy and for the branching of the Oedogoniales as the earliest-diverging lineage of the OCC clade, more data are required to validate these phylogenies. We describe here the complete cpDNA sequence of Oedogonium cardiacum (Oedogoniales). Results: Like its three chlorophycean homologues, the 196,547-bp Oedogonium chloroplast genome displays a distinctive architecture. This genome is one of the most compact among photosynthetic chlorophytes. It has an atypical quadripartite structure, is intron-rich (17 group I and 4 group II introns), and displays 99 different conserved genes and four long open reading frames (ORFs), three of which are clustered in the spacious inverted repeat of 35,493 bp. Intriguingly, two of these ORFs (int and dpoB) revealed high similarities to genes not usually found in cpDNA. At the gene content and gene order levels, the Oedogonium genome most closely resembles its Stigeoclonium counterpart. Characters shared by these chlorophyceans but missing in members of the CS clade include the retention of psaM, rpl32 and trnL(caa), the loss of petA, the disruption of three ancestral clusters and the presence of five derived gene clusters. Conclusion: The Oedogonium chloroplast genome disclosed additional characters that bolster the evidence for a close alliance between the Oedogoniales and Chaetophorales. Our unprecedented finding of int and dpoB in this cpDNA provides a clear example that novel genes were acquired by the chloroplast genome through horizontal transfers, possibly from a mitochondrial genome donor. [ABSTRACT FROM AUTHOR]

Published

2008

44. PCR-RFLP analysis of the whole chloroplast DNA from three cultivated species of cotton ( Gossypium L.).

Author

Ibrahim, Rashid Ismael Hag, Azuma, Jun-Ichi, and Sakamoto, Masahiro

Subjects

PLANTS, CHLOROPLAST DNA, COTTON, PLANT fibers, SPECIES hybridization, AGRICULTURE

Abstract

Variations of the chloroplast DNA (cpDNA) from three of the four cultivated species of cotton (Malvaceae); Gossypium barbadense L., Gossypium hirsutum L., Gossypium arboreum L. and its synonym Gossypium nanking Meyen., were analyzed. Using specific set of primers, the whole circular cpDNAs from the four test species were amplified. These were subsequently digested with the use of seven restriction enzymes. The amplified fragments of the whole cpDNAs of the diploid cultivated cotton G. arboreum and its synonym G. nanking did not show any differences. However, the allotetraploid cultivated cottons G. barbadense and G. hirsutum, showed some fragment length differences directly visible after amplification and two types of restriction fragment length polymorphism (RFLP), the first appeared as slightly lengthened bands and the other as gain or loss of a restriction site. The results also showed that the chloroplast genomes of the allotetraploid cultivated cottons are highly similar to the diploid cultivated cottons tested in terms of length and digestion patterns. The detected amplified length differences, RFLPs and the restriction sites can be considered as species specific markers for the allotetraploid cultivated cottons, which could be a useful tool for future studies of the cpDNA of the genus Gossypium L. [ABSTRACT FROM AUTHOR]

Published

2007

45. Structural analysis of chloroplast DNA in Prunus (Rosaceae): evolution, genetic diversity and unequal mutations.

Author

Katayama, H. and Uematsu, C.

Subjects

GENETIC mutation, ANGIOSPERMS, PLANT diversity, CHLOROPLASTS, CHLOROPLAST DNA, GENOMES, GENETICS

Abstract

In order to understand the evolutionary aspects of the chloroplast DNA (cpDNA) structures in Rosaceous plants, a physical map of peach ( Prunus persica cv. Hakuhou) cpDNA was constructed. Fourteen lambda phage clones which covered the entire sequence of the peach cpDNA were digested by restriction enzymes ( SalI, XhoI, BamHI, SacI, and PstI) used singly or in combination. The molecular size of peach cpDNA was estimated to be about 152 kb. The gene order and contents were revealed to be equivalent to those of standard type of angiosperms by the localization of 31 genes on the physical map. Eighteen accessions from 14 Prunus species ( P. persica, P. mira, P. davidiana, P. cerasis, P. cerasifera, P. domestica, P. insititia, P. spinosa, P. salicina, P. maritima, P. armeniaca, P. mume, P. tomentosa, P. zippeliana, and P. salicifolia) and one interspecific hybrid were used for the structural analysis of cpDNAs. Seventeen mutations (16 recognition site changes and one length mutation) were found in the cpDNA of these 18 accessions by RFLP analysis allowing a classification into 11 genome types . Although the base substitution rate in the recognition site (100 p = 0.72) of cpDNA in Prunus was similar to that of other plants, i.e., Triticum– Aegilops, Brassica, and Pisum, it differed from Pyrus (100 p = 0.15) in Rosaceae. Seven mutations including one length mutation were densely located within a region of about 9.1 kb which includes psbA and atpA in the left border of a large single-copy region of Prunus cpDNAs. The length mutation was detected only in P. persica and consisted of a 277 bp deletion which occurred in a spacer region between the trnS and trnG genes within the 9.1 kb region. Additional fragment length mutations (insertion/deletion), which were not detected by RFLP analysis, were revealed by PCR and sequence analyses in P. zippeliana and P. salicifolia. All of these length mutations occurred within the 9.1 kb region between psbA and atpA. This region could be an intra-molecular recombinational hotspot in Prunus species. [ABSTRACT FROM AUTHOR]

Published

2005

46. A set of primers for analyzing chloroplast DNA diversity in Citrus and related genera.

Author

Cheng, Yunjiang, De Vicente, M. Carmen, Meng, Haijun, Guo, Wenwu, Tao, Nengguo, and Deng, Xiuxin

Subjects

CHLOROPLAST DNA, DNA primers, CITRUS, PLANT diversity, REPEATED sequence (Genetics), GENETIC markers in plants

Abstract

Chloroplast simple sequence repeat (cpSSR) markers in Citrus were developed and used to analyze chloroplast diversity of Citrus and closely related genera. Fourteen cpSSR primer pairs from the chloroplast genomes of tobacco (Nicotiana tabacum L.) and Arabidopsis were found useful for analyzing the Citrus chloroplast genome (cpDNA) and recoded with the prefix SPCC (SSR Primers for Citrus Chloroplast). Eleven of the 14 primer pairs revealed some degree of polymorphism among 34 genotypes of Citrus, Fortunella, Poncirus and some of their hybrids, with polymorphism information content (PIC) values ranging from 0.057 to 0.732, and 18 haplotypes were identified. The cpSSR data were analyzed with NTSYS-pc software, and the genetic relationships suggested by the unweighted pair group method based on arithmetic means (UPGMA) dendrogram were congruent with previous taxonomic investigations: the results showed that all samples fell into seven major clusters, i.e., Citrus medica L., Poncirus, Fortunella, C. ichangensis Blanco, C. reticulata Swingle, C. aurantifolia (Christm.) Swingle and C. grandis (L.) Osbeck. The results of previous studies combined with our cpSSR analyses revealed that: (1) Calamondin (C. madurensis Swingle) is the result of hybridization between kumquat (Fortunella) and mandarin (C. reticulata), where kumquat acted as the female parent; (2) Ichang papeda (C. ichangensis) has a unique taxonomic status; and (3) although Bendiguangju mandarin (C. reticulata) and Satsuma mandarin (C. reticulata) are similar in fruit shape and leaf morphology, they have different maternal parents. Bendiguangju mandarin has the same cytoplasm as sweet orange (C. sinensis), whereas Satsuma mandarin has the cytoplasm of C. reticulata. Seventeen PCR products from SPCC1 and 21 from SPCC11 were cloned and sequenced. The results revealed that mononucleotide repeats as well as insertions and deletions of small segments of DNA were associated with SPCC1 polymorphism, whereas polymorphism generated by SPCC11 was essentially due to the variation in length of the mononucleotide repeats. [ABSTRACT FROM AUTHOR]

Published

2005

47. Molecular and morphological differentiation between the crop and weedy types in velvetleaf (Abutilon theophrasti Medik.) using a chloroplast DNA marker: seed source of the present invasive velvetleaf in Japan.

Author

Kurokawa, S., Shibaike, H., Akiyama, H., and Yoshimura, Y.

Subjects

CHONDRODENDRON tomentosum, DNA, CHLOROPLASTS, CHONDRODENDRON, PLASTIDS

Abstract

A comparison of chloroplast DNA (cpDNA) sequences was carried out between the crop and weed types of Abutilon theophrasti to clarify the seed source of the present weedy velvetleaf in Japan. A sequencing analysis of approx. 6%of the chloroplast genome (ca 10?kbp) detected three nucleotide substitutions, one six-base-pair insertion/deletion (indel) and one 30-base pair inversion, which distinguish two haplotypes of cpDNA. A PCR-based survey of the indel and the inversion revealed that the 93 accessions of velvetleaf collected from the world could be divided into two groups. A morphological marker (capsule color) could be used to discriminate the crop type and the weed type, and hence, along with cpDNA haplotype, to distinguish three genotypes (Type I, II, and III). All Japanese cultivars and crop accessions from other countries were Type I. Weed types were divided into Type II and III. All of the samples from the USA, and the samples taken from grain imports to Japan were Type III. Since most of the weedy types distributed in Japan were of Type III, it is argued that they were introduced as seeds in the imported grain. We also found that the Type II plants sporadically occurred in Japan. It is suggested that they originated as hybrids, with indigenous cultivars as the maternal ancestor. Such hybrids must have survived since the cessation of velvetleaf cultivation about a century ago.Heredity (2004) 93, 603-609. doi:10.1038/sj.hdy.6800569 Published online 8 September 2004 [ABSTRACT FROM AUTHOR]

Published

2004

48. Comparative analysis of chloroplast DNA in Pyrus species: physical map and gene localization.

Author

Katayama, H. and Uematsu, C.

Subjects

CHLOROPLASTS, PEARS, DNA, GENOMES, TOBACCO, PLANT genetics

Abstract

A physical map of chloroplast DNA (cpDNA) of pear [Pyrus ussuriensis var. hondoensis (Nakai et Kikuchi) Rehder] was constructed using five restriction enzymes, SalI, XhoI, BamHI, SacI and PstI. This information will make it possible to investigate the phylogenetic relationships between Pyrus species. Pear cpDNA was found to be a circular molecule with a total size of about 156 kb in which two inverted repeats of 24.8 kb divide the molecule into small (17 kb) and large (90 kb) single-copy regions. The endonuclease recognition sites in the physical map were determined by single and double digestion of 13 lambda phage clones which covered the entire sequence of the pear cpDNA. Twenty nine genes were localized on the physical map of the pear cpDNA. The structure of pear cpDNA was almost the same in terms of genome size and gene order as that of tobacco cpDNA. RFLP analysis was carried out on cpDNAs from five Pyrus species (Pyrus pyrifolia, Pyrus ussuriensis, Pyrus calleryana, Pyrus elaeagrifolia and Pyrus communis). Two mutations, a recognition-site mutation and a length mutation (deletion), were found only in the cpDNA of P. pyrifolia cultivars. These mutations were localized on the physical map of pear cpDNA. The number of mutations of cpDNA in Pyrus species are small in comparison with those of other angiosperms, suggesting a high degree of genome conservatism in Pyrus species. [ABSTRACT FROM AUTHOR]

Published

2003

49. Molecular phylogeny of the genus Hordeum using three chloroplast DNA sequences.

Author

Nishikawa, Tomotaro, Salomon, Björn, Komatsuda, Takao, von Bothmer, Roland, and Kadowaki, Koh-ichi

Subjects

HORDEUM, NUCLEOTIDE sequence, PLANT phylogeny, CHLOROPLAST DNA, POLYPLOIDY

Abstract

The genus Hordeum consists of three cytotypes (2x, 4x, and 6x). Its reproductive isolation has been incomplete between closely related species and hence the genetic relationship is reticulate and complex. We used 32 taxa of Hordeum and three chloroplast DNA sequences, matK, atpB–rbcL, and trnL–trnF, in the current study. Molecular phylogenetic analysis based on sequence data of the three chloroplast DNA regions clearly demonstrated genetic relationships among taxa and origin of polypoids. The formation of H. secalinum likely involved hybridization between Hordeum marinum subsp. marinum and a Eurasian diploid possessing the H genome. The formation of hexaploid Hordeum brachyantherum involved hybridization between tetraploid H. brachyantherum and diploid H. marinum subsp. gussoneanum. The formation of three tetraploids, H. brachyantherum, Hordeum jubatum, and Hordeum guatemalense, probably involved hybridization between H. brachyantherum subsp. californicum and an altered H genome diploid. The formation of Hordeum arizonicum involved the two taxa Hordeum pusillum and H. jubatum.Key words: chloroplast DNA, phylogeny, Hordeum, barley.Le genre Hordeum comprend trois cytotypes (2x, 4x et 6x) et l'isolement reproductif entre espèces très apparentées s'est avéré incomplet; ainsi, les relations génétiques sont entremêlées et complexes. Dans le présent travail, les auteurs ont examiné 32 taxons au sein du genre Hordeum à l'aide de trois séquences chloroplastiques : matK, atpB–rbcL et trnL–trnF. Une analyse phylogénétique moléculaire fondée sur la séquence de ces trois gènes a révélé clairement les relations génétiques entre les taxons et l'origine des polyploïdes. La formation du Hordeum secalinum est vraisemblablement le fruit d'une hybridation entre le Hordeum marinum subsp. marinum et une espèce diploïde eurasienne possédant le génome H. La formation de l'hexaploïde Hordeum brachyantherum résulte vraisemblablement d'une hybridation entre un H. brachyantherum tétraploïde et le H. marinum subsp. gussoneanum diploïde. La formation de trois espèces tétraploïdes (H. brachyantherum, Hordeum jubatum et Hordeum guatemalense) proviendrait d'une hybridation entre le H. brachyantherum subsp. californicum et une espèce diploïde à génome H altéré. La formation du Hordeumarizonicum impliquerait deux taxons, le Hordeum pusillum et le H. jubatum.Mots clés : ADN chloroplastique, phylogénie, Hordeum, orge.[Traduit par la Rédaction] [ABSTRACT FROM AUTHOR]

Published

2002

50. Molecular analysis of the complete set of length mutations found in the plastomes of Triticum–Aegilops species.

Author

Ogihara, Y and Ohsawa, T

Subjects

WHEAT, CHLOROPLAST DNA, EXTRACHROMOSOMAL DNA, GENETICS, BIOLOGY

Abstract

Precise location and nature of each of 14 length mutations detected among chloroplast DNAs of Triticum–Aegilops species by RFLP analysis were determined at the nucleotide sequence level. Each mutation was compared with at least three non-mutated wild-type plastomes as standards. These 14 length mutations were classified into 4 duplications and 10 deletions. One duplication occurred in the small single-copy region close to the border of the inverted repeat, and the remaining 13 length mutations took place in the large single-copy region. All length mutations occurred in the intergenic regions, suggesting that these length mutations do not affect plastid gene expression. Saltatory replication was the cause of all duplications, whereas intramolecular recombination mediated by short direct repeats played a substantial role in the deletions. Recurrent occurrences of certain deletion events were found in some AT-rich regions, which constituted hot spots for deletion. Out of four hypervariable regions detected among the grass plastomes, two (downstream of rbcL and a tRNA gene accumulated region) were still active after differentiation of Triticum and Aegilops complex.Key words: insertions–deletions, plastome, Triticum–Aegilops, deletion hot spots, molecular mechanism.La position et la nature précises de chacune des 14 mutations affectant la taille de l'ADN chloroplastique chez des hybrides Triticum-Aegilops, lesquelles sont détectables par analyse RFLP, ont été déterminées par examen de la séquence nucléotidique. Chaque mutation a été comparée à au moins trois témoins, tous des génomes plastidiques non-mutés de type sauvage. Ces 14 variants de taille du génome étaient dus à des duplications dans 4 cas et à des délétions dans 10 cas. Une duplication a été observée au sein de la petite région à simple copie à proximité de la région inversée répétée. Les 13 autres mutations étaient localisées dans la grande région à simple copie. Toutes les mutations ont eu lieu dans des régions intergéniques ce qui suggère que ces mutations sont sans effet sur l'expression des gènes plastidiques. Des erreurs de réplication étaient à l'origine de toutes les duplications tandis que des événements de recombinaison intramoléculaire, via de courtes séquences répétées, auraient joué un rôle important dans la genèse des délétions. Des cas d'occurrence multiple de certaines délétions ont été observés au sein de certaines régions riches en AT, lesquelles constituaient des points chauds pour les délétions. Des quatre régions hypervariables détectées au sein des génomes plastidiques chez les graminées, deux régions (en aval du gène rbcL et d'une région contenant des gènes codant pour des ARNt) étaient encore actives après la différentiation des complexes d'espèces appartenant aux genres Triticum et Aegilops.Mots clés: insertions–délétions, génome plastidique, Triticum–Aegilops, points chauds pour les délétions, mécanisme moléculaire.[Traduit par la Rédaction] [ABSTRACT FROM AUTHOR]

Published

2002