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中国科学院昆明植物研究所知识管理系统
Knowledge Management System of Kunming Institute of Botany,CAS
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0.05) between wild (AR = 4.651), semi-cultivated (AR = 5.091) and cultivated (AR = 5.132) populations of C. taliensis, which suggested that the genetic background of long-lived woody plant was not easy to be changed, and there were moderate high gene flow between populations. However, there was a significant difference (P < 0.05) between wild (AR = 5.9) and cultivated (AR = 7.1) populations distributed in the same place in Yun county, Yunnan province, which may result from the hybridization and introgression of species in the tea garden and anthropogenic damages to the wild population. The hypothesis of hybrid origin of C. grandibracteata was tested by morphological and microsatellites analyses. Compared with other species, the locules in ovary of C. grandibracteata are variable, which showed a morphological intermediate and mosaic. Except one private allele, Ninety-nine percent alleles of C. grandibracteata were shared with these of C. taliensis and C. sinensis var. assamica. And C. grandibracteata was nested in the cluster of C. taliensis in the UPGMA tree. Conclusively, our results supported the hypothesis of hybrid origin of C. grandibracteata partly. The speciation of C. grandibracteata was derived from hybridization and asymmetrical introgression potentially. It is possible that C. taliensis was one of its parents, but it still needs more evidences to prove that C. sinensis var. assamica was another parent.","jscount":"1","jsurl":"/simple-search?field1=all&rpp=10&accurate=false&advanced=false&sort_by=2&isNonaffiliated=false&search_type=-1&query1=flowering%2Bsequence&order=desc&&fq=dc.project.title_filter%3ACamellia%5C+taliensis%5C+%5C%28W.%5C+W.%5C+Smith%5C%29%5C+Melchior%2C%5C+a%5C+member%5C+of%5C+Camellia%5C+sect.%5C+Thea%2C%5C+is%5C+an%5C+indigenous%5C+species%5C+in%5C+local%5C+natural%5C+forest%5C+and%5C+has%5C+a%5C+long%5C+cultivative%5C+history%5C+in%5C+western%5C+Yunnan%5C+and%5C+its%5C+neighborhood%2C%5C+where%5C+the%5C+domestications%5C+of%5C+this%5C+species%5C+in%5C+different%5C+historical%5C+periods%5C+and%5C+in%5C+different%5C+ways%5C+can%5C+be%5C+found.%5C+C.%5C+taliensis%5C+is%5C+an%5C+important%5C+contributor%5C+to%5C+the%5C+formations%5C+of%5C+tea%5C+landraces%5C+by%5C+hybridization%5C+and%5C+introgression.%5C+In%5C+the%5C+present%5C+study%2C%5C+14%5C+microsatellite%5C+loci%5C+screened%5C+from%5C+37%5C+loci%5C+were%5C+used%5C+to%5C+explore%5C+the%5C+genetic%5C+diversity%5C+about%5C+this%5C+species%5C+with%5C+579%5C+samples%5C+from%5C+25%5C+populations%5C+%5C%2816%5C+wild%5C+populations%2C%5C+4%5C+semi%5C-cultivated%5C+populations%5C+and%5C+5%5C+cultivated%5C+populations%5C%29.%5C+At%5C+the%5C+same%5C+time%2C%5C+the%5C+potential%5C+hybrid%5C+speciation%5C+of%5C+C.%5C+grandibracteata%2C%5C+was%5C+investigated%5C+using%5C+39%5C+individuals%5C+from%5C+2%5C+populations%2C%5C+along%5C+with%5C+C.%5C+taliensis%5C+and%5C+C.%5C+sinensis%5C+var.%5C+assamica%5C+%5C%2883%5C+individuals%5C+from%5C+4%5C+populations%5C%29%5C+by%5C+the%5C+same%5C+microsatellite%5C+markers.%5C+C.%5C+taliensis%5C+had%5C+a%5C+moderate%5C+high%5C+level%5C+of%5C+genetic%5C+diversity%5C+%5C%28A%5C+%3D%5C+14.3%2C%5C+Ne%3D%5C+5.7%2C%5C+HE%5C+%3D%5C+0.666%2C%5C+I%5C+%3D%5C+1.753%2C%5C+AR%5C+%3D%5C+7.2%2C%5C+PPB%5C+%3D%5C+100%25%5C%29.%5C+This%5C+may%5C+result%5C+from%5C+several%5C+factors%5C+including%5C+K%5C-strategy%2C%5C+genetic%5C+background%2C%5C+gene%5C+flow%5C+between%5C+populations%2C%5C+hybridization%5C+and%5C+introgression%5C+among%5C+species.%5C+Between%5C+wild%5C+populations%5C+of%5C+C.%5C+taliensis%2C%5C+the%5C+gene%5C+flow%5C+was%5C+moderate%5C+high%5C+%5C%28Nm%5C+%3D%5C+1.197%5C%29%2C%5C+and%5C+genetic%5C+variation%5C+was%5C+less%5C+than%5C+20%25%5C+%5C%28GST%5C+%3D%5C+0.147%2C%5C+FST%5C+%3D%5C+0.173%5C%29%2C%5C+which%5C+was%5C+similar%5C+to%5C+other%5C+research%5C+results%5C+of%5C+long%5C-lived%5C+woody%5C+plants%2C%5C+and%5C+reflected%5C+the%5C+genetic%5C+structure%5C+of%5C+its%5C+ancestry%5C+to%5C+same%5C+extent.%5C+There%5C+was%5C+a%5C+high%5C+significant%5C+correlation%5C+between%5C+geographic%5C+distance%5C+and%5C+Nei%E2%80%99s%5C+genetic%5C+distance%5C+%5C%28r%5C+%3D%5C+0.372%2C%5C+P%5C+%3D%5C+0.001%5C%29%5C+of%5C+populations%2C%5C+which%5C+accorded%5C+with%5C+isolation%5C+by%5C+distance%5C+model.%5C+Inferring%5C+from%5C+Bayesian%5C+clustering%5C+of%5C+genotypes%2C%5C+all%5C+individuals%5C+of%5C+C.%5C+taliensis%5C+were%5C+divided%5C+into%5C+two%5C+groups%2C%5C+conflicting%5C+with%5C+the%5C+result%5C+based%5C+on%5C+Nei%E2%80%99s%5C+genetic%5C+distance%5C+and%5C+real%5C+geographic%5C+distribution%2C%5C+which%5C+suggested%5C+there%5C+were%5C+heavy%5C+and%5C+non%5C-random%5C+influences%5C+by%5C+human%5C+practices.%5C+According%5C+to%5C+allelic%5C+richness%2C%5C+there%5C+were%5C+no%5C+significant%5C+differences%5C+%5C%28P%5C+%3E%5C+0.05%5C%29%5C+between%5C+wild%5C+%5C%28AR%5C+%3D%5C+4.651%5C%29%2C%5C+semi%5C-cultivated%5C+%5C%28AR%5C+%3D%5C+5.091%5C%29%5C+and%5C+cultivated%5C+%5C%28AR%5C+%3D%5C+5.132%5C%29%5C+populations%5C+of%5C+C.%5C+taliensis%2C%5C+which%5C+suggested%5C+that%5C+the%5C+genetic%5C+background%5C+of%5C+long%5C-lived%5C+woody%5C+plant%5C+was%5C+not%5C+easy%5C+to%5C+be%5C+changed%2C%5C+and%5C+there%5C+were%5C+moderate%5C+high%5C+gene%5C+flow%5C+between%5C+populations.%5C+However%2C%5C+there%5C+was%5C+a%5C+significant%5C+difference%5C+%5C%28P%5C+%3C%5C+0.05%5C%29%5C+between%5C+wild%5C+%5C%28AR%5C+%3D%5C+5.9%5C%29%5C+and%5C+cultivated%5C+%5C%28AR%5C+%3D%5C+7.1%5C%29%5C+populations%5C+distributed%5C+in%5C+the%5C+same%5C+place%5C+in%5C+Yun%5C+county%2C%5C+Yunnan%5C+province%2C%5C+which%5C+may%5C+result%5C+from%5C+the%5C+hybridization%5C+and%5C+introgression%5C+of%5C+species%5C+in%5C+the%5C+tea%5C+garden%5C+and%5C+anthropogenic%5C+damages%5C+to%5C+the%5C+wild%5C+population.%5C+The%5C+hypothesis%5C+of%5C+hybrid%5C+origin%5C+of%5C+C.%5C+grandibracteata%5C+was%5C+tested%5C+by%5C+morphological%5C+and%5C+microsatellites%5C+analyses.%5C+Compared%5C+with%5C+other%5C+species%2C%5C+the%5C+locules%5C+in%5C+ovary%5C+of%5C+C.%5C+grandibracteata%5C+are%5C+variable%2C%5C+which%5C+showed%5C+a%5C+morphological%5C+intermediate%5C+and%5C+mosaic.%5C+Except%5C+one%5C+private%5C+allele%2C%5C+Ninety%5C-nine%5C+percent%5C+alleles%5C+of%5C+C.%5C+grandibracteata%5C+were%5C+shared%5C+with%5C+these%5C+of%5C+C.%5C+taliensis%5C+and%5C+C.%5C+sinensis%5C+var.%5C+assamica.%5C+And%5C+C.%5C+grandibracteata%5C+was%5C+nested%5C+in%5C+the%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Systematics and Biogeography of Aralia L. (Araliaceae):Revision of Aralia Sects. Aralia, Humiles, Nanae, andSciadodendron
期刊论文
出版物, 3111, 卷号: 57, 期号: 0, 页码: 1-172
作者:
Jun Wen
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提交时间:2017/07/24
Aralia
Aralia Sect. Aralia
Aralia Sect. Dimorphanthus
Aralia Sect. Humiles
Aralia Sect. Nanae
Aralia Sect. pentapanax
Aralia Sect. Sciadodendron
Biogeography
Araliaceae
Systematics
Evolutionary ecology of plant-plant interactions
期刊论文
出版物, 3111, 页码: 1-144
作者:
Zuo Z(作者)
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提交时间:2017/07/19
Parallel evolution of two AIM24 protein subfamilies and their conserved functions in ER stress tolerance in land plants
期刊论文
PLANT COMMUNICATIONS, 2023, 卷号: 4, 期号: 3, 页码: 100513
作者:
Guan,Yanlong
;
Chang,Guanxiao
;
Zhao,Jinjie
;
Wang,Qia
;
Qin,Jiali
;
Tang,Mengmeng
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Wang,Shuanghua
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Ma,Lan
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Ma,Jianchao
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Sun,Guiling
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Zhou,Yun
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Huang,Jinling
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提交时间:2024/07/17
Physcomitrium
Marchantia
unfolded protein response
lncRNA
AGROBACTERIUM-MEDIATED TRANSFORMATION
RETICULUM-ASSOCIATED DEGRADATION
ENDOPLASMIC-RETICULUM
TRANSCRIPTION FACTOR
VEGETATIVE GROWTH
ARABIDOPSIS
MUTAGENESIS
EXPRESSION
RESPONSES
GENES
A comparative full-length transcriptomic resource provides insight into the perennial monocarpic mass flowering
期刊论文
PLANT JOURNAL, 2023, 卷号: 116, 期号: 6, 页码: 1842-1855
作者:
Zhao,Jiu-Xia
;
Wang,Shu
;
Liu,Jiazhi
;
Jiang,Xiao-Dong
;
Wen,Jing
;
Suo,Zhi-Quan
;
Liu,Jie
;
Zhong,Mi-Cai
;
Wang,Qin
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Gu,Zhirong
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Liu,Changning
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Deng,Yunfei
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Hu,Jin-Yong
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Li,De-Zhu
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perennial monocarpic mass flowering
Strobilanthes
ISO-seq
RNA-seq
BlueOmics
PSEUDO-RESPONSE REGULATORS
STROBILANTHES ACANTHACEAE
EXPRESSION ANALYSIS
GENE
TIME
PROTEIN
LONG
FKF1
PRR5
CLASSIFICATION
Climatic drivers and ecological implications of variation in the time interval between leaf-out and flowering
期刊论文
CURRENT BIOLOGY, 2023, 卷号: 33, 期号: 16, 页码: 3338-+
作者:
Guo,Liang
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Liu,Xiaowei
;
Alatalo,Juha M.
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Wang,Chuanyao
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Xu,Jianchu
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Yu,Haiying
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Chen,Ji
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Yu,Qiang
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Peng,Changhui
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Dai,Junhu
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Luedeling,Eike
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提交时间:2024/07/22
PLANT PHENOLOGY
TEMPERATURE SENSITIVITY
RESPONSES
TREES
FROST
BUDBURST
FITNESS
MODELS
CHINA
Architectural effects regulate resource allocation within the inflorescences with nonlinear blooming patterns
期刊论文
AMERICAN JOURNAL OF BOTANY, 2022, 页码: 12
作者:
Wang, Hao
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Zhang, Zhi-Qiang
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Zhang, Bo
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Wang, Li-Ping
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Guo, Wen
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Fang, Ye
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Li, Qing-Jun
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floral position
floral traits
flowering sequence
Lamiaceae
pollen
ovule ratio
reproductive success
A global phylogeny of Lycopodiaceae (Lycopodiales; lycophytes) with the description of a new genus, Brownseya, from Oceania
期刊论文
TAXON, 2022, 卷号: 71, 期号: 1, 页码: 25-51
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Chen,De-Kui
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Zhou,Xin-Mao
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Rothfels,Carl J.
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Shepherd,Lara D.
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Knapp,Ralf
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Zhang,Liang
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Lu,Ngan Thi
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Fan,Xue-Ping
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Zhang,Li-Bing
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Huperzia
Lycophyte Phylogeny
Lycopodiella Serpentina
Phlegmariurus
Phylloglossum
Vascular Plant Evolution
Complete Chloroplast Genome
Lycopodiopsida Lycopodiaceae
Generic Classification
Spore Morphology
Early Evolution
Land Plants
Rbcl Gene
Huperzia
Sequence
Likelihood
Comparative analyses of chloroplast genomes from Six Rhodiola species: variable DNA markers identification and phylogenetic relationships within the genus
期刊论文
BMC GENOMICS, 2022, 卷号: 23, 期号: 1, 页码: 577
作者:
Zhao, Kaihui
;
Li, Lianqiang
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Quan, Hong
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Yang, Junbo
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Zhang, Zhirong
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Liao, Zhihua
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Lan, Xiaozhong
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提交时间:2024/04/30
Rhodiola
Chloroplast genome
Divergent hotspots
Phylogenetic analysis
GROUP CLASSIFICATION
FLOWERING PLANTS
PLASTID GENOMES
TRNH-PSBA
SEQUENCE
EVOLUTION
FAMILIES
REPEATS
UPDATE
ORDERS
Genome Size Variation and Evolution Driven by Transposable Elements in the Genus Oryza
期刊论文
FRONTIERS IN PLANT SCIENCE, 2022, 卷号: 13, 页码: 921937
作者:
Dai, Shuang-feng
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Zhu, Xun-ge
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Hutang, Ge-rang
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Li, Jia-yue
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Tian, Jia-qi
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Jiang, Xian-hui
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Zhang, Dan
;
Gao, Li-zhi
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提交时间:2024/08/21
Oryza
genome size
flow cytometry
k-mer analysis
transposable elements
NUCLEAR-DNA CONTENT
RICE GENOME
GENETIC DIVERSITY
DRAFT SEQUENCE
FLOW-CYTOMETRY
C-VALUE
K-MER
WILD
ORIGIN
TOOL
Does IR-loss promote plastome structural variation and sequence evolution?
期刊论文
FRONTIERS IN PLANT SCIENCE, 2022, 卷号: 13, 页码: 888049
作者:
Wang, Zi-Xun
;
Wang, Ding-Jie
;
Yi, Ting-Shuang
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提交时间:2024/08/21
plastid genome evolution
structural variation
inverted repeat region loss
substitution rate
comparative genomics
CHLOROPLAST GENOME SEQUENCE
INVERTED REPEAT
NUCLEOTIDE SUBSTITUTION
PHYLOGENETIC ANALYSIS
MOLECULAR EVOLUTION
NONCODING RNAS
RATES
REARRANGEMENTS
ORGANIZATION
CUPRESSOPHYTES
