Identification of an active miniature inverted‐repeat transposable element mJing in rice

Summary Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high‐tillering dwarf (htd) mutant in an advanced backcross...

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Published in	The Plant journal : for cell and molecular biology Vol. 98; no. 4; pp. 639 - 653
Main Authors	Tang, Yanyan, Ma, Xin, Zhao, Shuangshuang, Xue, Wei, Zheng, Xu, Sun, Hongying, Gu, Ping, Zhu, Zuofeng, Sun, Chuanqing, Liu, Fengxia, Tan, Lubin
Format	Journal Article
Language	English
Published	England Blackwell Publishing Ltd 01.05.2019 John Wiley and Sons Inc
Subjects	Amplification ancestry Arabidopsis Proteins Arabidopsis thaliana backcrossing Base Sequence Biological evolution Copy number Cultivation Deoxyribonucleic acid DNA DNA nucleotidyltransferases DNA Transposable Elements - genetics DNA transposon Evolution Genes, Plant - genetics genome Genome, Plant - genetics Genomes Grain cultivation High-Throughput Nucleotide Sequencing MITE mutants Mutation Original Oryza - genetics Oryza glaberrima Oryza rufipogon Oryza sativa Oryza sativa indica Oryza sativa japonica Phenotype Plant Proteins - genetics Plant Proteins - metabolism Polymorphism Rice Sequences species diversity targeted high‐throughput sequencing Transposase Transposases Transposition Transposons wild rice amplification MITE rice DNA transposon targeted high-throughput sequencing
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ISSN	0960-7412 1365-313X 1365-313X
DOI	10.1111/tpj.14260

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Abstract	Summary Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high‐tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93‐11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high‐throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification. Significance Statement An active MITE in rice, named mJing, was identified by analyzing a spontaneous high‐tillering dwarf mutant in an advanced backcross population between cultivated and wild rice. Through targeted high‐throughput sequencing, we identified 297 mJing insertion sites in rice and found that the copy number of mJing varies dramatically among O. sativa, O. rufipogon, and O. glaberrima, suggesting that the amplification of mJing plays an important role in rice genome evolution.
AbstractList	Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high‐tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93‐11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high‐throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification. Miniature inverted‐repeat transposable elements ( MITE s) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high‐tillering dwarf ( htd ) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing ( mJ ing ). The mJ ing element belongs to the PIF / Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93‐11 harbor 72 and 79 mJ ing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice ( Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJ ing mobilization. We identified 297 mJ ing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high‐throughput sequencing. The results showed that the copy number of mJ ing varies dramatically among Asian cultivated rice ( O. sativa ), its wild ancestor ( O. rufipogon ), and African cultivated rice ( O. glaberrima ) and that some mJ ing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJ ing elements have played an important role in rice genome evolution and species diversification. An active MITE in rice, named mJing , was identified by analyzing a spontaneous high‐tillering dwarf mutant in an advanced backcross population between cultivated and wild rice. Through targeted high‐throughput sequencing, we identified 297 mJing insertion sites in rice and found that the copy number of mJing varies dramatically among O. sativa , O. rufipogon , and O. glaberrima , suggesting that the amplification of mJing plays an important role in rice genome evolution. Miniature inverted-repeat transposable elements (MITEs) are structurally homogeneous non-autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high-tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93-11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high-throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification. Miniature inverted-repeat transposable elements (MITEs) are structurally homogeneous non-autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high-tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93-11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high-throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification.Miniature inverted-repeat transposable elements (MITEs) are structurally homogeneous non-autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high-tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93-11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high-throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification. Summary Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important roles in genome evolution and diversification. Here, we analyzed the rice high‐tillering dwarf (htd) mutant in an advanced backcross population between cultivated and wild rice, and identified an active MITE named miniature Jing (mJing). The mJing element belongs to the PIF/Harbinger superfamily. japonica rice var. Nipponbare and indica var. 93‐11 harbor 72 and 79 mJing family members, respectively, have undergone multiple rounds of amplification bursts during the evolution of Asian cultivated rice (Oryza sativa L.). A heterologous transposition experiment in Arabidopsis thaliana indicated that the autonomous element Jing is likely to have provides the transposase needed for mJing mobilization. We identified 297 mJing insertion sites and their presence/absence polymorphism among 71 rice samples through targeted high‐throughput sequencing. The results showed that the copy number of mJing varies dramatically among Asian cultivated rice (O. sativa), its wild ancestor (O. rufipogon), and African cultivated rice (O. glaberrima) and that some mJing insertions are subject to directional selection. These findings suggest that the amplification and removal of mJing elements have played an important role in rice genome evolution and species diversification. Significance Statement An active MITE in rice, named mJing, was identified by analyzing a spontaneous high‐tillering dwarf mutant in an advanced backcross population between cultivated and wild rice. Through targeted high‐throughput sequencing, we identified 297 mJing insertion sites in rice and found that the copy number of mJing varies dramatically among O. sativa, O. rufipogon, and O. glaberrima, suggesting that the amplification of mJing plays an important role in rice genome evolution.
Author	Zheng, Xu Tan, Lubin Tang, Yanyan Ma, Xin Sun, Hongying Zhao, Shuangshuang Xue, Wei Zhu, Zuofeng Liu, Fengxia Gu, Ping Sun, Chuanqing
AuthorAffiliation	1 State Key Laboratory of Plant Physiology and Biochemistry China Agricultural University Beijing 100193 China 2 National Center for Evaluation of Agricultural Wild Plants (Rice) MOE Laboratory of Crop Heterosis and Utilization Department of Plant Genetics and Breeding China Agricultural University Beijing 100193 China
AuthorAffiliation_xml	– name: 2 National Center for Evaluation of Agricultural Wild Plants (Rice) MOE Laboratory of Crop Heterosis and Utilization Department of Plant Genetics and Breeding China Agricultural University Beijing 100193 China – name: 1 State Key Laboratory of Plant Physiology and Biochemistry China Agricultural University Beijing 100193 China
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Snippet	Summary Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play... Miniature inverted-repeat transposable elements (MITEs) are structurally homogeneous non-autonomous DNA transposons with high copy numbers that play important... Miniature inverted‐repeat transposable elements (MITEs) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play important... Miniature inverted‐repeat transposable elements ( MITE s) are structurally homogeneous non‐autonomous DNA transposons with high copy numbers that play...
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SubjectTerms	Amplification ancestry Arabidopsis Proteins Arabidopsis thaliana backcrossing Base Sequence Biological evolution Copy number Cultivation Deoxyribonucleic acid DNA DNA nucleotidyltransferases DNA Transposable Elements - genetics DNA transposon Evolution Genes, Plant - genetics genome Genome, Plant - genetics Genomes Grain cultivation High-Throughput Nucleotide Sequencing MITE mutants Mutation Original Oryza - genetics Oryza glaberrima Oryza rufipogon Oryza sativa Oryza sativa indica Oryza sativa japonica Phenotype Plant Proteins - genetics Plant Proteins - metabolism Polymorphism Rice Sequences species diversity targeted high‐throughput sequencing Transposase Transposases Transposition Transposons wild rice
Title	Identification of an active miniature inverted‐repeat transposable element mJing in rice
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