about
Miniature inverted-repeat transposable elements (MITEs) have been accumulated through amplification bursts and play important roles in gene expression and species diversity in Oryza sativaTransposition of a reconstructed Harbinger element in human cells and functional homology with two transposon-derived cellular genesNatural and artificial mutants as valuable resources for functional genomics and molecular breeding.Moving through the Stressed Genome: Emerging Regulatory Roles for Transposons in Plant Stress Response3D Finite Element Electrical Model of Larval Zebrafish ECG SignalsPlant MITEs: useful tools for plant genetics and genomicsTransposition of the Tourist-MITE mPing in yeast: an assay that retains key features of catalysis by the class 2 PIF/Harbinger superfamilyMiniature inverted-repeat transposable elements of Stowaway are active in potatoThe proteins encoded by the pogo-like Lemi1 element bind the TIRs and subterminal repeated motifs of the Arabidopsis Emigrant MITE: consequences for the transposition mechanism of MITEsMultiple homoplasious insertions and deletions of a Triticeae (Poaceae) DNA transposon: a phylogenetic perspective.Rice transposable elements are characterized by various methylation environments in the genomeMolecular characterization of a rice mutator-phenotype derived from an incompatible cross-pollination reveals transgenerational mobilization of multiple transposable elements and extensive epigenetic instability.Tissue culture-induced transpositional activity of mPing is correlated with cytosine methylation in rice.Early embryogenesis-specific expression of the rice transposon Ping enhances amplification of the MITE mPing.mPing: The bursting transposon.Domestication of transposable elements into MicroRNA genes in plantsWithin-genome evolution of REPINs: a new family of miniature mobile DNA in bacteria.Marker utility of miniature inverted-repeat transposable elements for wheat biodiversity and evolution.A Gaijin-like miniature inverted repeat transposable element is mobilized in rice during cell differentiation.Characterization of active miniature inverted-repeat transposable elements in the peanut genome.Transmissible and nontransmissible mutations induced by irradiating Arabidopsis thaliana pollen with gamma-rays and carbon ionsExtensive de Novo genomic variation in rice induced by introgression from wild rice (Zizania latifolia Griseb.).PIF- and Pong-like transposable elements: distribution, evolution and relationship with Tourist-like miniature inverted-repeat transposable elements.A rice Stowaway MITE for gene transfer in yeast.Dramatic amplification of a rice transposable element during recent domesticationComparative genomic analysis reveals species-dependent complexities that explain difficulties with microsatellite marker development in molluscs.Genome-wide comparison of Asian and African rice reveals high recent activity of DNA transposons.Immediate Genetic and Epigenetic Changes in F1 Hybrids Parented by Species with Divergent Genomes in the Rice Genus (Oryza).A genome-wide transcriptional activity survey of rice transposable element-related genes.Widespread and evolutionary analysis of a MITE family Monkey King in Brassicaceae.Transposition of the rice miniature inverted repeat transposable element mPing in Arabidopsis thaliana.Distorted genetic segregation of the transposon mPing at the long arm of chromosome 12 in rice.Novel miniature transposable elements in thermophilic Synechococcus strains and their impact on an environmental populationA movable feast: diverse retrotransposons and their contribution to barley genome dynamics.Quantitative Classification of Rice (Oryza sativa L.) Root Length and Diameter Using Image Analysis.Laser Irradiation-Induced DNA Methylation Changes Are Heritable and Accompanied with Transpositional Activation of mPing in Rice.A Tourist-like MITE insertion in the upstream region of the BnFLC.A10 gene is associated with vernalization requirement in rapeseed (Brassica napus L.).Genetic and Epigenetic Changes in Oilseed Rape (Brassica napus L.) Extracted from Intergeneric Allopolyploid and Additions with Orychophragmus.High potential of a transposon mPing as a marker system in japonica x japonica cross in rice.Utilization of transposable element mPing as a novel genetic tool for modification of the stress response in rice.
P2860
Q24632723-7960E6D3-10AE-49C9-833D-3CD82E6E6D72Q24657906-FC56835E-8EBB-4FD3-8113-DAF619AF1A27Q27690693-59E9C9C6-96BD-4A21-8A2E-B8B2CBF2C744Q28079618-458AD5BF-6D09-4D6A-9066-E99E1909D933Q28553260-46D8EF39-6A3C-4301-8183-59C14D595043Q28585716-985BC78A-FCED-499C-B92E-4244C731799AQ28748607-0EA45D5F-42E9-426D-B712-AB49BE0ACBEFQ28749274-0CF4BAB9-839B-4061-9D7D-7ACDD66CEB08Q30357062-05C6C83E-07F4-4B0A-8456-76252C62B33DQ33287807-3DFB2B0F-64AE-4123-9734-55C1DCE721B6Q33311420-F09D9792-FA6E-474D-ABB2-23849CAFA65EQ33455003-C0C4EB69-8BC5-4B7E-BEE9-AEEDC749D77EQ33482526-08FBAEC5-1FD3-438C-9EEF-E53B42349651Q33747586-AE1057D7-0C21-49E4-9F15-E07726836C21Q33785260-2012EE8E-BE9F-47AD-8FDC-1265A0AD813AQ33894690-E1760916-B245-4281-B4BE-9757BE5C4394Q33940748-038D0B24-66E4-4B8B-8ED1-1AF74DB59411Q34144062-BAB4C793-3614-4DD2-86FB-541974CB6815Q34231883-D1485C97-8E67-4F8F-BA72-A4005273231EQ34251050-53204A6C-19CA-49A8-B205-A00A826C32E2Q34570789-55516A3D-A495-4670-BCA0-FAAB43972D69Q34573563-65E6F954-F0EC-4ECB-BD0E-D27EDA087A82Q34643617-8F3443C6-DBA1-4B0F-8408-985CEB3E1AB2Q34737978-030BBAAA-67E6-41B3-85A7-B3AC4225972BQ35214942-C72E0A18-E70A-4469-B0DE-7B1D8DF04826Q35246634-A8A659C3-6697-4257-B580-78FFFBF4FC7BQ35580178-662F73E9-4F1E-4B67-9BFD-2A5FB7772110Q35711862-C1696728-3857-4134-BC78-2016F042EC1EQ35751625-E7F1F7E0-F8FA-40BB-8F05-9AE5B5F06CE0Q35754590-027D784B-FF7B-4251-8F95-79A19B0BC66EQ35864973-C34F5FC6-8639-4189-AAAD-F40761A4B5E9Q35975647-C186EB1A-0388-4C5A-9750-9E6CC934D5F7Q36086547-14F9017F-7E66-45C0-824B-A5D85AE452CCQ36225405-FF0A1E13-A2EA-4A4A-A5B3-F6BFAB2E8D90Q36253850-62277215-9C66-44AB-B943-9B2634316801Q36335216-75CD198D-C5C3-4B60-8984-06F4CD089752Q36581608-E299F4B4-B01A-447E-9336-2F9195033D93Q36789103-1C55ADC2-D52D-4C7E-AD44-2CC43F149AD0Q37164016-3A0E38A2-6303-4109-8EEC-3C132E6A569CQ37196405-DE4E492E-BC34-422E-9B15-5D341A4720A8
P2860
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Mobilization of a transposon in the rice genome.
@en
Mobilization of a transposon in the rice genome.
@nl
type
label
Mobilization of a transposon in the rice genome.
@en
Mobilization of a transposon in the rice genome.
@nl
prefLabel
Mobilization of a transposon in the rice genome.
@en
Mobilization of a transposon in the rice genome.
@nl
P2093
P2860
P356
P1433
P1476
Mobilization of a transposon in the rice genome.
@en
P2093
Akira Horibata
Hidetaka Nishida
Hiromo Inoue
Masayoshi Teraishi
Satoshi Yamahira
Takatoshi Tanisaka
Tetsuya Nakazaki
Yutaka Okumoto
P2860
P2888
P304
P356
10.1038/NATURE01219
P407
P577
2003-01-01T00:00:00Z
P6179
1052864082