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1. Geological and ecological factors drive cryptic speciation of yews.. [3839]
2. Untangling the hybrid origin of the Chinese tea roses: evidence fr.. [3832]
3. De Novo Sequencing and Characterization of the Floral Transcriptom.. [3434]
4. The science and economics of ex situ plant conservation [1895]
5. Multi-gene analysis provides a well-supported phylogeny of Rosales [1743]
6. Plant DNA barcoding in China [1552]
7. Genetic diversity within and among populations of the endangered s.. [1412]
8. DNA barcoding for the discrimination of Eurasian yews (Taxus L., T.. [1380]
9. Reticulate evolution, cryptic species, and character convergence i.. [1242]
10. Carbon monoxide enhances the chilling tolerance of recalcitrant Ba.. [1141]
11. Phylogenomic Analyses of Nuclear Genes Reveal the Evolutionary Rel.. [1015]
12. Delimitation of Taxus fuana Nan Li & R.R. Mill (Taxaceae) based on.. [1010]
13. Morphometric analysis of the Taxus wallichiana complex (Taxaceae) .. [948]
14. Yews (Taxus) along the Hindu Kush-Himalayan region: Exploring the .. [922]
15. Rapid Sequencing of the Bamboo Mitochondrial Genome Using Illumina.. [915]
16. Testing Darwin's transoceanic dispersal hypothesis for the inland .. [909]
17. Complete chloroplast genome of the genus Cymbidium: lights into th.. [906]
18. Negative correlation between rates of molecular evolution and flow.. [904]
19. 一种水角的组培方法及其在种质保存中的应用 [901]
20. Identification of SNP markers for inferring phylogeny in temperate.. [895]
21. Molecular phylogenetics and character evolution of Cannabaceae [889]
22. 一种三色凤尾蕨组培方法及其在种质保存中的应用 [874]
23. 世界种子植物科的分布区类型系统 [864]
24. Large multi-locus plastid phylogeny of the tribe Arundinarieae (Po.. [860]
25. Phylogenetic relationships in the Pterygiella complex (Orobanchace.. [859]
26. Comparative transcriptomics identifies patterns of selection in ro.. [850]
27. Efficiency of DNA barcodes for species delimitation: A case in Pte.. [848]
28. Molecular systematics of Dendrobium (Orchidaceae, Dendrobieae) fro.. [842]
29. Pollen morphology of Gaultheria L. and related genera of subfamily.. [838]
30. Pollen morphology of the tribe Rhinantheae (Orobanchaceae) and its.. [837]
31. Genetic Diversity and Population Structure: Implications for Conse.. [837]
32. DNA barcoding of Pedicularis L. (Orobanchaceae): Evaluating four u.. [835]
33. Integrating a comprehensive DNA barcode reference library with a g.. [826]
34. A molecular phylogenetic and fruit evolutionary analysis of the ma.. [817]
35. Incongruence between Nuclear and Chloroplast DNA Phylogenies in Pe.. [812]
36. Pollination biology of four Pedicularis species (Scrophulariaceae).. [787]
37. Domestication Origin and Breeding History of the Tea Plant (Camel.. [785]
38. Highly effective sequencing whole chloroplast genomes of angiosper.. [778]
39. Valid publication of the name Sarcococca longipetiolata (Buxaceae).. [771]
40. DNA barcoding herbaceous and woody plant species at a subalpine fo.. [768]
41. Origin of angiosperms and the puzzle of the Jurassic gap [767]
42. 一种基于大数据的直缘乌头DNA条形码及直缘乌头的鉴定方法 [751]
43. Molecular phylogenetic reconstruction of Osmanthus Lour. (Oleaceae.. [732]
44. Molecular phylogeny of the nettle family (Urticaceae) inferred fro.. [730]
45. Phylogeographic insights on the evolutionary breakdown of heterost.. [729]
46. DEVELOPMENT OF 29 MICROSATELLITE MARKERS FOR OSMANTHUS FRAGRANS (O.. [727]
47. Comparative Chloroplast Genomes of Camellia Species [721]
48. 一种基于大数据的黄花乌头DNA条形码及黄花乌头的鉴定方法 [715]
49. EVOLUTION OF ANGIOSPERM POLLEN: 4. BASAL EUDICOTS [710]
50. Chloroplast Phylogenomic Analyses Resolve Deep-Level Relationships.. [704]
51. Highly efficient pollination by bumblebees ensures seed production.. [689]
52. Comparative phylogeography of two sympatric beeches in subtropical.. [679]
53. Genetic diversity of the traditional Chinese medicinal plant Ypsil.. [671]
54. EVOLUTION OF ANGIOSPERM POLLEN. 2. THE BASAL ANGIOSPERMS [666]
55. Prevalence of isomeric plastomes and effectiveness of plastome sup.. [665]
56. Comparative chloroplast genomes of eleven Schima (Theaceae) specie.. [659]
57. Phylogenetics of the Thamnocalamus group and its allies (Gramineae.. [656]
58. DNA barcoding of Rhododendron (Ericaceae), the largest Chinese pla.. [651]
59. Diversification of Rosaceae since the Late Cretaceous based on pla.. [651]
60. High-Throughput Sequencing of Six Bamboo Chloroplast Genomes: Phyl.. [650]
61. PHYLOGENY OF GAULTHERIEAE (ERICACEAE: VACCINIOIDEAE) BASED ON DNA .. [642]
62. Insect pollination of Musella (Musaceae), a monotypic genus endemi.. [638]
63. Phylogeny of aceraceae based on ITS and trnL-F data sets [635]
64. BIOGEOGRAPHIC DISJUNCTION BETWEEN EASTERN ASIA AND NORTH AMERICA I.. [629]
65. Phylogeny of Saururaceae based on mitochondrial matR gene sequence.. [625]
66. 一种构建竹类植物遗传图谱的方法 [623]
67. Development and characterization of microsatellite loci for Rosa o.. [621]
68. 一种蕨类孢子灭菌及接种方法 [615]
69. Transcriptome analysis reveals crucial genes involved in the biosy.. [613]
70. Names of Chinese seed plants validly published in A Catalogue of T.. [611]
71. Expressed sequence tags (ESTs) and phylogenetic analysis of floral.. [611]
72. Molecular authentication of the traditional Tibetan medicinal plan.. [610]
73. Comparative analyses of plastid genomes from fourteen Cornales spe.. [609]
74. Genetic innovations: Transposable element recruitment and de novo .. [609]
75. Sampling Strategy and Potential Utility of Indels for DNA Barcodin.. [604]
76. Molecular phylogeography of Fagus engleriana (Fagaceae) in subtrop.. [601]
77. Molecular evidence for fragmentation among populations of Taxus wa.. [600]
78. Systematic position of Gomphogyne (Cucurbitaceae) inferred from IT.. [599]
79. Phylogenetic Analysis of the Wintergreen Group (Ericaceae) based o.. [596]
80. CROSS-SPECIES AMPLIFICATION AND DEVELOPMENT OF NEW MICROSATELLITE .. [596]
81. A molecular phylogenetic study of Hemsleya (Cucurbitaceae) based o.. [595]
82. Genome Sequences Provide Insights into the Reticulate Origin and U.. [595]
83. The monophyly of Chimonocalamus and conflicting gene trees in Arun.. [590]
84. Evidence for horizontal transfer of mitochondrial DNA to the plast.. [590]
85. Plastid phylogenomics and adaptive evolution of Gaultheria series .. [589]
86. Cloning and characterization of a bamboo LEAFY HULL STERILE1 homol.. [586]
87. Phylogenetic approaches resolve taxonomical confusion in Pedicular.. [586]
88. Phylogeny and taxonomy of the Pyrenaria complex (Theaceae) based o.. [583]
89. Dark purple nectar as a foraging signal in a bird-pollinated Himal.. [581]
90. Developmental Genetics of the Perianthless Flowers and Bracts of a.. [581]
91. Seed morphological diversity of Pedicularis (Orobanchaceae) and it.. [580]
92. Multitrophic diversity and biotic associations influence subalpine.. [580]
93. Phylogenetic relationships of Chinese Adiantum based on five plast.. [577]
94. Molecular composition and evolution of the chalcone synthase (CHS).. [576]
95. PGA: a software package for rapid, accurate, and flexible batch an.. [575]
96. Flowers of Cypripedium fargesii (Orchidaceae) fool flat-footed fli.. [574]
97. Flower heliotropism of Anemone rivularis (Ranunculaceae) in the Hi.. [573]
98. Genetic diversity of Paris polyphylla var. yunnanensis, a traditio.. [573]
99. EVOLUTION OF ANGIOSPERM POLLEN. 3. MONOCOTS [573]
100. Phylogenetic relationships of Rhododendron section Azaleastrum (Er.. [572]

Downloads

1. Multi-gene analysis provides a well-supported phylogeny of Rosales [526]
2. The science and economics of ex situ plant conservation [512]
3. Geological and ecological factors drive cryptic speciation of yews.. [474]
4. Plant DNA barcoding in China [412]
5. Genetic diversity within and among populations of the endangered s.. [403]
6. 叶绿体系统发育基因组学的研究进展 [383]
7. De Novo Sequencing and Characterization of the Floral Transcriptom.. [373]
8. 世界种子植物科的分布区类型系统 [346]
9. DNA barcoding for the discrimination of Eurasian yews (Taxus L., T.. [344]
10. Untangling the hybrid origin of the Chinese tea roses: evidence fr.. [318]
11. Highly effective sequencing whole chloroplast genomes of angiosper.. [316]
12. Reticulate evolution, cryptic species, and character convergence i.. [310]
13. Phylogenomic Analyses of Nuclear Genes Reveal the Evolutionary Rel.. [298]
14. Large multi-locus plastid phylogeny of the tribe Arundinarieae (Po.. [280]
15. Morphometric analysis of the Taxus wallichiana complex (Taxaceae) .. [272]
16. Negative correlation between rates of molecular evolution and flow.. [269]
17. Phylogeny of Saururaceae based on mitochondrial matR gene sequence.. [251]
18. PHYLOGENY OF GAULTHERIEAE (ERICACEAE: VACCINIOIDEAE) BASED ON DNA .. [245]
19. Insect pollination of Musella (Musaceae), a monotypic genus endemi.. [245]
20. Phylogenetic relationships in the Pterygiella complex (Orobanchace.. [244]
21. Carbon monoxide enhances the chilling tolerance of recalcitrant Ba.. [238]
22. DNA barcoding of Rhododendron (Ericaceae), the largest Chinese pla.. [233]
23. Efficiency of DNA barcodes for species delimitation: A case in Pte.. [230]
24. Testing Darwin's transoceanic dispersal hypothesis for the inland .. [221]
25. Molecular phylogeny of the nettle family (Urticaceae) inferred fro.. [219]
26. Molecular phylogenetics and character evolution of Cannabaceae [214]
27. Phylogenetics of the Thamnocalamus group and its allies (Gramineae.. [211]
28. Chromosome variation in the genus Pinellia (Araceae) in China and .. [209]
29. High universality of matK primers for barcoding gymnosperms [209]
30. Chloroplast Phylogenomic Analyses Resolve Deep-Level Relationships.. [209]
31. BIOGEOGRAPHIC DISJUNCTION BETWEEN EASTERN ASIA AND NORTH AMERICA I.. [208]
32. Delimitation of Taxus fuana Nan Li & R.R. Mill (Taxaceae) based on.. [206]
33. DEVELOPMENT OF 29 MICROSATELLITE MARKERS FOR OSMANTHUS FRAGRANS (O.. [206]
34. Identification of SNP markers for inferring phylogeny in temperate.. [204]
35. A New Species of Paris (Melanthiaceae) from Northeastern Yunnan, C.. [203]
36. Phylogeny of aceraceae based on ITS and trnL-F data sets [203]
37. Phylogenetic relationships of Chinese Adiantum based on five plast.. [201]
38. Molecular evidence for fragmentation among populations of Taxus wa.. [201]
39. Paraphyly of Cyrtomium (Dryopteridaceae): evidence from rbcL and t.. [199]
40. Expressed sequence tags (ESTs) and phylogenetic analysis of floral.. [193]
41. Phylogeographic insights on the evolutionary breakdown of heterost.. [193]
42. Phylogenetic Analysis of the Wintergreen Group (Ericaceae) based o.. [189]
43. A molecular phylogenetic and fruit evolutionary analysis of the ma.. [188]
44. Yews (Taxus) along the Hindu Kush-Himalayan region: Exploring the .. [186]
45. Pollen morphology of the tribe Rhinantheae (Orobanchaceae) and its.. [184]
46. Detection of low genetic variation in a critically endangered Chin.. [183]
47. Phylogenetic relationships of Rhododendron section Azaleastrum (Er.. [182]
48. 《云南植物研究》和《植物分类与资源学报》三十七年之一瞥 [181]
49. Isolation and ectopic expression of a bamboo MADS-box gene [180]
50. CROSS-SPECIES AMPLIFICATION AND DEVELOPMENT OF NEW MICROSATELLITE .. [178]
51. Molecular phylogeny of the lardizabalaceae based on TrnL-F sequenc.. [173]
52. Calanthe yaoshanensis sp nov (Orchidaceae) from northeastern Yunna.. [172]
53. Phylogenetic analyses of the banana family (Musaceae) based on nuc.. [172]
54. 小叶龙竹高频植株再生系统的建立 [172]
55. 玉龙雪山寒温性云冷杉林动态监测样地的物种组成及群落结构 [172]
56. Names of Chinese seed plants validly published in A Catalogue of T.. [170]
57. Embryology of Megacodon stylophorus and Veratrilla baillonii (Gent.. [170]
58. Sampling Strategy and Potential Utility of Indels for DNA Barcodin.. [170]
59. Developmental Genetics of the Perianthless Flowers and Bracts of a.. [169]
60. Biogeographic history of Pistacia (Anacardiaceae), emphasizing the.. [169]
61. Functional conservation of the plant EMBRYONIC FLOWER2 gene betwee.. [168]
62. Genetic diversity of the traditional Chinese medicinal plant Ypsil.. [166]
63. Phylogeny and taxonomy of the Pyrenaria complex (Theaceae) based o.. [166]
64. Complete chloroplast genome of the genus Cymbidium: lights into th.. [166]
65. Prevalence of isomeric plastomes and effectiveness of plastome sup.. [166]
66. Karyotypes of thirteen species of Pedicularis (Orobanchaceae) from.. [165]
67. Flowers of Cypripedium fargesii (Orchidaceae) fool flat-footed fli.. [164]
68. Molecular phylogeography of Fagus engleriana (Fagaceae) in subtrop.. [163]
69. EVOLUTION OF ANGIOSPERM POLLEN. 2. THE BASAL ANGIOSPERMS [162]
70. Phylogenetic placement of the enigmatic orchid genera Thaia and Ta.. [161]
71. Flower heliotropism of Anemone rivularis (Ranunculaceae) in the Hi.. [159]
72. Molecular phylogeny of the polystichoid ferns in Asia based on rbc.. [159]
73. Extended expression of B-class MADS-box genes in the paleoherb Asa.. [155]
74. Development and characterization of microsatellite loci for Rosa o.. [155]
75. Pollen morphology of eight genera of the subtribe Mutisiinae Less... [153]
76. Molecular systematics of subtribe Orchidinae and Asian taxa of Hab.. [153]
77. EVOLUTION OF ANGIOSPERM POLLEN. I. INTRODUCTION [153]
78. Diversification of Rosaceae since the Late Cretaceous based on pla.. [153]
79. DNA barcoding herbaceous and woody plant species at a subalpine fo.. [153]
80. Floristics and plant biogeography in China [152]
81. Reassessing the relationships between Gordonia and Polyspora (Thea.. [151]
82. Plastid phylogenomics and adaptive evolution of Gaultheria series .. [151]
83. Pollen morphology of Gaultheria L. and related genera of subfamily.. [150]
84. 植物DNA条形码研究展望 [149]
85. High-Throughput Sequencing of Six Bamboo Chloroplast Genomes: Phyl.. [148]
86. EVOLUTION OF ANGIOSPERM POLLEN: 4. BASAL EUDICOTS [148]
87. Protect Third Pole's fragile ecosystem [147]
88. EVOLUTION OF ANGIOSPERM POLLEN. 7. NITROGEN-FIXING CLADE [147]
89. Photosynthetic performance along a light gradient as related to le.. [146]
90. Biogeographical diversification of mainland Asian Dendrobium (Orch.. [146]
91. Origin of angiosperms and the puzzle of the Jurassic gap [146]
92. Female gametophyte and seed development in Musella lasiocarpa (Mus.. [145]
93. Elatostema densistriolatum sp nov., E-latistipulum sp nov and E-cy.. [145]
94. Low genetic diversity and high genetic differentiation in the crit.. [144]
95. Rapid Sequencing of the Bamboo Mitochondrial Genome Using Illumina.. [144]
96. Fifteen novel universal primer pairs for sequencing whole chloropl.. [144]
97. Integrating a comprehensive DNA barcode reference library with a g.. [144]
98. Isolation and characterization of 13 microsatellite loci from Inca.. [143]
99. Phylogenetic studies on the Thamnocalamus group and its allies (Gr.. [143]
100. Differential expressions of anthocyanin synthesis genes underlie f.. [143]