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106. Exploiting EST databases for the development and characterization of EST-SSR markers in castor bean (Ricinus communis L.)

Author

Yang Jun-Bo, Tian Bo, Yang Chun, Qiu Lijun, and Liu Aizhong

Subjects
Botany, QK1-989
Abstract

Abstract Background The castor bean (Ricinus communis L.), a monotypic species in the spurge family (Euphorbiaceae, 2n = 20), is an important non-edible oilseed crop widely cultivated in tropical, sub-tropical and temperate countries for its high economic value. Because of the high level of ricinoleic acid (over 85%) in its seed oil, the castor bean seed derivatives are often used in aviation oil, lubricants, nylon, dyes, inks, soaps, adhesive and biodiesel. Due to lack of efficient molecular markers, little is known about the population genetic diversity and the genetic relationships among castor bean germplasm. Efficient and robust molecular markers are increasingly needed for breeding and improving varieties in castor bean. The advent of modern genomics has produced large amounts of publicly available DNA sequence data. In particular, expressed sequence tags (ESTs) provide valuable resources to develop gene-associated SSR markers. Results In total, 18,928 publicly available non-redundant castor bean EST sequences, representing approximately 17.03 Mb, were evaluated and 7732 SSR sites in 5,122 ESTs were identified by data mining. Castor bean exhibited considerably high frequency of EST-SSRs. We developed and characterized 118 polymorphic EST-SSR markers from 379 primer pairs flanking repeats by screening 24 castor bean samples collected from different countries. A total of 350 alleles were identified from 118 polymorphic SSR loci, ranging from 2-6 per locus (A) with an average of 2.97. The EST-SSR markers developed displayed moderate gene diversity (He) with an average of 0.41. Genetic relationships among 24 germplasms were investigated using the genotypes of 350 alleles, showing geographic pattern of genotypes across genetic diversity centers of castor bean. Conclusion Castor bean EST sequences exhibited considerably high frequency of SSR sites, and were rich resources for developing EST-SSR markers. These EST-SSR markers would be particularly useful for both genetic mapping and population structure analysis, facilitating breeding and crop improvement of castor bean.

Published
2010
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107. Phylogeny and biogeography of the hollies (Ilex L., Aquifoliaceae).

Author

Yao, Xin, Song, Yu, Yang, Jun‐Bo, Tan, Yun‐Hong, and Corlett, Richard T.

Subjects
PHYLOGENY, BIOGEOGRAPHY, GLOBAL cooling, POLLEN
Abstract

The holly genus, Ilex L., in the monogeneric Aquifoliaceae, is the largest woody dioecious genus (>664 spp.), with a near‐cosmopolitan distribution in mesic environments. We constructed a phylogeny based on two nuclear genes, representing 177 species spread across the geographical range, and dated using macrofossil records. The five main clades had a common ancestor in the early Eocene, much earlier than previously suggested. Ilex originated in subtropical Asia and extant clades colonized South America by 30 Ma, North America by 23 Ma, Australia by 8 Ma, Europe by 6 Ma, and Africa by 4 Ma. South and North America were colonized multiple times. Ilex also reached Hawaii (10 Ma) and other oceanic islands. Macrofossil and pollen records show the genus has tracked mesic climates through time and space, and had a wider distribution before late Miocene global cooling. Our phylogeny provides a framework for studies in comparative ecology and evolution. [ABSTRACT FROM AUTHOR]

Published
2021
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108. Plastid phylogenomics improve phylogenetic resolution in the Lauraceae.

Author

Song, Yu, Yu, Wen‐Bin, Tan, Yun‐Hong, Jin, Jian‐Jun, Wang, Bo, Yang, Jun‐Bo, Liu, Bing, and Corlett, Richard T.

Subjects
LAURACEAE, ANTHER, CHLOROPLAST DNA, TROPICAL forests, TREE height, MEDICINAL plants, INFLORESCENCES, TREE planting
Abstract

Abstract The family Lauraceae is a major component of tropical and subtropical forests worldwide, and includes some commercially important timber trees and medicinal plants. However, phylogenetic relationships within Lauraceae have long been problematic due to low sequence divergence in commonly used markers, even between morphologically distinct taxa within the family. Here we present phylogenetic analyses of 43 newly generated Lauraceae plastomes together with 77 plastomes obtained from GenBank, representing 24 genera of Lauraceae and 17 related families of angiosperms, plus nine barcodes from 19 additional species in 18 genera of Lauraceae, in order to reconstruct highly supported relationships for the Lauraceae. Our phylogeny supports the relationships: sisterhood of the Lauraceae and a clade containing Hernandiaceae and Monimiaceae, with Atherospermataceae and Gomortegaceae being the next sister groups, followed by Calycanthaceae. Our results highlight a monophyletic Lauraceae, with nine well‐supported clades as follows: Hypodaphnis clade, Beilschmiedia–Cryptocarya clade, Cassytha clade, Neocinnamomum clade, Caryodaphnopsis clade, Chlorocardium–Mezilaurus clade, Machilus–Persea clade, Cinnamomum–Ocotea clade, and Laurus–Neolitsea clade. The topology recovered here is consistent with the patterns of plastome structural evolution and morphological synapomorphies reported previously. More specifically, flower sex, living type, inflorescence type, ovary position, anther locus number, leaf arrangement, leaf venation, lateral vein number, tree height, and inflorescence location all represent morphological synapomorphies of different lineages. Our findings have taxonomic implications and two new tribes, Caryodaphnopsideae and Neocinnamomeae, are described, and the composition of four other tribes is updated. The phylogeny recovered here provides a robust phylogenetic framework through which to address the evolutionary history of the Magnoliids, the third‐largest group of Mesangiospermae. [ABSTRACT FROM AUTHOR]

Published
2020
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109. Chloroplast phylogenomics of liverworts: a reappraisal of the backbone phylogeny of liverworts with emphasis on Ptilidiales.

Author

Yu, Ying, Yang, Jun‐Bo, Ma, Wen‐Zhang, Pressel, Silvia, Liu, Hong‐Mei, Wu, Yu‐Huan, and Schneider, Harald

Subjects
*CHLOROPLAST DNA, *CHLOROPLASTS, *LIVERWORTS, *PHYLOGENY, *SPINE, *NUCLEOTIDE sequencing, *PLANT genomes
Abstract

As one of the four main lineages diverging from the early diversification of land plants, the phylogeny of liverworts holds the information about nearly 500 Myr of independent adaptation to changing environments. Thus, resolving the phylogenetic history of liverworts will provide unique insights into the successful diversification of early land plants in terrestrial ecosystems. However, the deep diverging events of this group remain incompletely resolved, such as the definite position of Ptilidiales. Here, we aimed to reconstruct the backbone relationships of liverworts using 84 protein‐coding chloroplast genes, a dataset comprising 35 representatives from all major lineages of liverworts, and three phylogenetic analyses, namely maximum parsimony, maximum likelihood and Bayesian inference. To test the impact of composition biases, the phylogenetic analyses were carried out using three alignments representing the same dataset either as: (i) nucleotides, (ii) amino acids, or (iii) recoded nucleotides applying ambiguity base code. Chloroplast genome data consistently supported the monophyletic origin of three major lineages in liverworts, as well as the majority of backbone relationships. Ptilidiales were found to be sister to Jungermanniales. The rapid accumulation of G/C tracks as a consequence of increased GC content is an important cause for the long branches inferred in this group. Our study not only provides empirical evidence to support the significance of plastid genome sequencing to reconstruct the phylogeny of this important plant lineage, but also suggests that the GC content has played a critical role in the evolutionary dynamics of plastid genomes in land plants. [ABSTRACT FROM AUTHOR]

Published
2020
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112. Figure 15 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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113. Figure 2 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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114. Figure 3 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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115. Figure 4 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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116. Figure 7 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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117. Figure 5 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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118. Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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119. Figure 9 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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120. Figure 8 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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121. Figure 6 from: Tibpromma S, Hyde K, Bhat J, Mortimer P, Xu J, Promputtha I, Doilom M, Yang J, Tang A, Karunarathna S (2018) Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand. MycoKeys 33: 25-67. https://doi.org/10.3897/mycokeys.33.23670

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Bhat, Jayarama D., additional, Mortimer, Peter E., additional, Xu, Jianchu, additional, Promputtha, Itthayakorn, additional, Doilom, Mingkwan, additional, Yang, Jun-Bo, additional, Tang, Alvin M. C., additional, and Karunarathna, Samantha C., additional

Published
2018
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125. Domestication Origin and Breeding History of the Tea Plant (Camellia sinensis) in China and India Based on Nuclear Microsatellites and cpDNA Sequence Data

Author

Meegahakumbura, Muditha K., primary, Wambulwa, Moses C., additional, Li, Miao-Miao, additional, Thapa, Kishore K., additional, Sun, Yong-Shuai, additional, Möller, Michael, additional, Xu, Jian-Chu, additional, Yang, Jun-Bo, additional, Liu, Jie, additional, Liu, Ben-Ying, additional, Li, De-Zhu, additional, and Gao, Lian-Ming, additional

Published
2018
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134. Fungal diversity notes 491–602: taxonomic and phylogenetic contributions to fungal taxa

Author

Tibpromma, Saowaluck, primary, Hyde, Kevin D., additional, Jeewon, Rajesh, additional, Maharachchikumbura, Sajeewa S. N., additional, Liu, Jian-Kui, additional, Bhat, D. Jayarama, additional, Jones, E. B. Gareth, additional, McKenzie, Eric H. C., additional, Camporesi, Erio, additional, Bulgakov, Timur S., additional, Doilom, Mingkwan, additional, de Azevedo Santiago, André Luiz Cabral Monteiro, additional, Das, Kanad, additional, Manimohan, Patinjareveettil, additional, Gibertoni, Tatiana B., additional, Lim, Young Woon, additional, Ekanayaka, Anusha Hasini, additional, Thongbai, Benjarong, additional, Lee, Hyang Burm, additional, Yang, Jun-Bo, additional, Kirk, Paul M., additional, Sysouphanthong, Phongeun, additional, Singh, Sanjay K., additional, Boonmee, Saranyaphat, additional, Dong, Wei, additional, Raj, K. N. Anil, additional, Latha, K. P. Deepna, additional, Phookamsak, Rungtiwa, additional, Phukhamsakda, Chayanard, additional, Konta, Sirinapa, additional, Jayasiri, Subashini C., additional, Norphanphoun, Chada, additional, Tennakoon, Danushka S., additional, Li, Junfu, additional, Dayarathne, Monika C., additional, Perera, Rekhani H., additional, Xiao, Yuanpin, additional, Wanasinghe, Dhanushka N., additional, Senanayake, Indunil C., additional, Goonasekara, Ishani D., additional, de Silva, N. I., additional, Mapook, Ausana, additional, Jayawardena, Ruvishika S., additional, Dissanayake, Asha J., additional, Manawasinghe, Ishara S., additional, Chethana, K. W. Thilini, additional, Luo, Zong-Long, additional, Hapuarachchi, Kalani Kanchana, additional, Baghela, Abhishek, additional, Soares, Adriene Mayra, additional, Vizzini, Alfredo, additional, Meiras-Ottoni, Angelina, additional, Mešić, Armin, additional, Dutta, Arun Kumar, additional, de Souza, Carlos Alberto Fragoso, additional, Richter, Christian, additional, Lin, Chuan-Gen, additional, Chakrabarty, Debasis, additional, Daranagama, Dinushani A., additional, Lima, Diogo Xavier, additional, Chakraborty, Dyutiparna, additional, Ercole, Enrico, additional, Wu, Fang, additional, Simonini, Giampaolo, additional, Vasquez, Gianrico, additional, da Silva, Gladstone Alves, additional, Plautz, Helio Longoni, additional, Ariyawansa, Hiran A., additional, Lee, Hyun, additional, Kušan, Ivana, additional, Song, Jie, additional, Sun, Jingzu, additional, Karmakar, Joydeep, additional, Hu, Kaifeng, additional, Semwal, Kamal C., additional, Thambugala, Kasun M., additional, Voigt, Kerstin, additional, Acharya, Krishnendu, additional, Rajeshkumar, Kunhiraman C., additional, Ryvarden, Leif, additional, Jadan, Margita, additional, Hosen, Md. Iqbal, additional, Mikšík, Michal, additional, Samarakoon, Milan C., additional, Wijayawardene, Nalin N., additional, Kim, Nam Kyu, additional, Matočec, Neven, additional, Singh, Paras Nath, additional, Tian, Qing, additional, Bhatt, R. P., additional, de Oliveira, Rafael José Vilela, additional, Tulloss, Rodham E., additional, Aamir, S., additional, Kaewchai, Saithong, additional, Marathe, Sayali D., additional, Khan, Sehroon, additional, Hongsanan, Sinang, additional, Adhikari, Sinchan, additional, Mehmood, Tahir, additional, Bandyopadhyay, Tapas Kumar, additional, Svetasheva, Tatyana Yu., additional, Nguyen, Thi Thuong Thuong, additional, Antonín, Vladimír, additional, Li, Wen-Jing, additional, Wang, Yong, additional, Indoliya, Yuvraj, additional, Tkalčec, Zdenko, additional, Elgorban, Abdallah M., additional, Bahkali, Ali H., additional, Tang, Alvin M. C., additional, Su, Hong-Yan, additional, Zhang, Huang, additional, Promputtha, Itthayakorn, additional, Luangsa-ard, Jennifer, additional, Xu, Jianchu, additional, Yan, Jiye, additional, Ji-Chuan, Kang, additional, Stadler, Marc, additional, Mortimer, Peter E., additional, Chomnunti, Putarak, additional, Zhao, Qi, additional, Phillips, Alan J. L., additional, Nontachaiyapoom, Sureeporn, additional, Wen, Ting-Chi, additional, and Karunarathna, Samantha C., additional

Published
2017
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135. Gene duplications and phylogenomic conflict underlie major pulses of phenotypic evolution in gymnosperms

Author

Stull, Gregory W., Qu, Xiao-Jian, Parins-Fukuchi, Caroline, Yang, Ying-Ying, Yang, Jun-Bo, Yang, Zhi-Yun, Hu, Yi, Ma, Hong, Soltis, Pamela S., Soltis, Douglas E., Li, De-Zhu, Smith, Stephen A., and Yi, Ting-Shuang

Abstract

Inferring the intrinsic and extrinsic drivers of species diversification and phenotypic disparity across the tree of life is a major challenge in evolutionary biology. In green plants, polyploidy (or whole-genome duplication, WGD) is known to play a major role in microevolution and speciation, but the extent to which WGD has shaped macroevolutionary patterns of diversification and phenotypic innovation across plant phylogeny remains an open question. Here, we examine the relationship of various facets of genomic evolution—including gene and genome duplication, genome size, and chromosome number—with macroevolutionary patterns of phenotypic innovation, species diversification, and climatic occupancy in gymnosperms. We show that genomic changes, such as WGD and genome-size shifts, underlie the origins of most major extant gymnosperm clades, and notably, our results support an ancestral WGD in the gymnosperm lineage. Spikes of gene duplication typically coincide with major spikes of phenotypic innovation, while increased rates of phenotypic evolution are typically found at nodes with high gene-tree conflict, representing historic population-level dynamics during speciation. Most shifts in gymnosperm diversification since the rise of angiosperms are decoupled from putative WGDs and instead are associated with increased rates of climatic occupancy evolution, particularly in cooler and/or more arid climatic conditions, suggesting that ecological opportunity, especially in the later Cenozoic, and environmental heterogeneity have driven a resurgence of gymnosperm diversification. Our study provides critical insight on the processes underlying diversification and phenotypic evolution in gymnosperms, with important broader implications for the major drivers of both micro- and macroevolution in plants.

Published
2021
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137. Origin of angiosperms and the puzzle of the Jurassic gap.

Author

Li, Hong-Tao, Yi, Ting-Shuang, Gao, Lian-Ming, Ma, Peng-Fei, Zhang, Ting, Yang, Jun-Bo, Gitzendanner, Matthew A., Fritsch, Peter W., Cai, Jie, Luo, Yang, Wang, Hong, van der Bank, Michelle, Zhang, Shu-Dong, Wang, Qing-Feng, Wang, Jian, Zhang, Zhi-Rong, Fu, Chao-Nan, Yang, Jing, Hollingsworth, Peter M., and Chase, Mark W.

Published
2019
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144. Complete chloroplast genome of Anemoclema glaucifolium (Ranunculaceae), a vulnerable and threatened species endemic to the Hengduan Mountains.

Author

Jiang, Nan, Zhou, Zhuang, Yang, Jun-Bo, and Yu, Wen-Bin

Abstract

Anemoclema glaucifolium is a vulnerable and threatened species endemic to the Hengduan Mountains. In this study, we reported a complete plastome of A. glaucifolium, which was de novo assembled using Next-generation Sequencing data. The plastome of A. glaucifolium was quadripartite and 160,400 bp in size, including two inverted repeats (31,256 bp for each) that separate one large single copy (80,251 bp) and one small single copy (17,637 bp) regions. The plastome contained 113 unique genes (with 80 protein-coding, 4 ribosomal RNA and 29 tRNA genes), and 24 entire genes, and partial rps12 (799 bp), rps36 (3 bp) and ycf1 (1097 bp) duplicated in the IR regions. The trnT-UGU tRNA was lost in A. glaucifolium. A maximum likelihood tree using the plastome data recovered A. glaucifolium sister to Clematis spp. [ABSTRACT FROM AUTHOR]

Published
2018
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145. Genetic structure and differentiation in Dendrocalamus sinicus (Poaceae: Bambusoideae) populations provide insight into evolutionary history and speciation of woody bamboos.

Author

Yang, Jun Bo, Dong, Yu Ran, Wong, Khoon Meng, Gu, Zhi Jia, Yang, Han Qi, and Li, De Zhu

Abstract

Evolutionary processes, speciation in woody bamboos are presently little understood. Here we used Dendrocalamus sinicus Chia & J.L. Sun as a model species to investigate dispersal or vicariance speciation in woody bamboos. Variation in three chloroplast DNA (cpDNA) fragments and eight simple sequence repeat markers (SSR) among 232 individuals sampled from 18 populations across the known geographic range of D. sinicus was surveyed. D. sinicus populations exhibited a high level of genetic differentiation which divided them into two groups that are consistent with different culm types. Eleven haplotypes and two lineages (Straight-culm and Sinuous-culm lineages) were identified from phylogenetic analyses, and a strong phylogeographic structure across the distribution range was found. The demographic and spatial expansion times of the Straight-culm lineage were calculated as 11.3 Kya and 20.8 Kya, respectively. The populations of D. sinicus had experienced dispersal and long-term isolation, although this trace was diluted by contemporary gene flow revealed by SSR data. Our results provide an phylogeographic insight to better understand the speciation processes of woody bamboos. [ABSTRACT FROM AUTHOR]

Published
2018
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146. Integrating a comprehensive DNA barcode reference library with a global map of yews (Taxus L.) for forensic identification.

Author

Luo, Ya‐Huang, Gao, Lian‐Ming, Liu, Jie, Zhu, Guang‐Fu, Ye, Lin‐Jiang, Yang, Jun‐Bo, Li, De‐Zhu, Milne, Richard I., Möller, Michael, Wambulwa, Moses C., and Wang, Chun‐Neng

Subjects
IDENTIFICATION, TAXUS, ANTHROPOGENIC effects on nature, DNA, GYMNOSPERMS
Abstract

Abstract: Rapid and accurate identification of endangered species is a critical component of biosurveillance and conservation management, and potentially policing illegal trades. However, this is often not possible using traditional taxonomy, especially where only small or preprocessed parts of plants are available. Reliable identification can be achieved via a comprehensive DNA barcode reference library, accompanied by precise distribution data. However, these require extensive sampling at spatial and taxonomic scales, which has rarely been achieved for cosmopolitan taxa. Here, we construct a comprehensive DNA barcode reference library and generate distribution maps using species distribution modelling (SDM), for all 15 Taxus species worldwide. We find that trnL‐trnF is the ideal barcode for Taxus: It can distinguish all Taxus species and in combination with ITS identify hybrids. Among five analysis methods tested, NJ was the most effective. Among 4,151 individuals screened for trnL‐trnF, 73 haplotypes were detected, all species‐specific and some population private. Taxonomical, geographical and genetic dimensions of sampling strategy were all found to affect the comprehensiveness of the resulting DNA barcode library. Maps from SDM showed that most species had allopatric distributions, except T. mairei in the Sino‐Himalayan region. Using the barcode library and distribution map data, two unknown forensic samples were identified to species (and in one case, population) level and another was determined as a putative interspecific hybrid. This integrated species identification system for Taxus can be used for biosurveillance, conservation management and to monitor and prosecute illegal trade. Similar identification systems are recommended for other IUCN‐ and CITES‐listed taxa. [ABSTRACT FROM AUTHOR]

Published
2018
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147. Robust stability analysis for T-S fuzzy singular systems with constraints

Author

Xiao Mei-e, Lv Qing-tao, Shi Hongyan, Yang Jun-bo, and Su Xiao-ming

Subjects
Lyapunov stability, Computer Science::Systems and Control, Control theory, Robustness (computer science), Linear matrix inequality, Stability (learning theory), Fuzzy control system, Robust control, Fuzzy logic, Ellipsoid, Mathematics
Abstract

In this note, the problem of robust stability for uncertain Takagi-Sugeno (T-S) fuzzy singular systems with constraints is considered. Firstly, based on the generalized Lyapunov stability theory and linear matrix inequality LMI technique, a sufficient condition for unconstrained T-S fuzzy singular systems robust stability is got. And then give an ellipse constraint where the initial state to change the time-domain constraints into a group of LMI binding by using elliptic invariant domain and S-Procesure methods, a sufficient condition for system robust stable and satisfying the time-domain constraints has been obtained.

Published
2011
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