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RISS 인기검색어
- 검색키워드
- 주제어 : retrotransposon variation (검색결과 2 건)
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Jun Zou,Huihui Gong,Tae-Jin Yang,Jinling Meng 한국작물학회 2009 Journal of crop science and biotechnology Vol.12 No.1
As a major part of most plant genomes, retrotransposons are distributed throughout the plant genome ubiquitously with high copy number and extensive heterogeneity. Various retrotransposon families with distinct structures differ in their distribution and roles among divergent plant species, due to the unforeseen transposition activities. Regulation of transposition is relatively complex and three factors such as maintaining structure for none- or cis- or trans-acting transposition, control by host genome and induction by biotic and abiotic stress may contribute altering its transposition activity. The important roles of retrotransposons to modify genome size, remodel genome structure, and displace gene functions in the plant genome have been proven by a growing number of research studies up to now, which indicates that retrotransposons are a great driving force in genome evolution. For this review, we summarized the latest theoretic and practical research progress on plant retrotransposons for their distribution, regulation of activity, the impact on the architecture of plant genomes, and put forward the future prospects. As a major part of most plant genomes, retrotransposons are distributed throughout the plant genome ubiquitously with high copy number and extensive heterogeneity. Various retrotransposon families with distinct structures differ in their distribution and roles among divergent plant species, due to the unforeseen transposition activities. Regulation of transposition is relatively complex and three factors such as maintaining structure for none- or cis- or trans-acting transposition, control by host genome and induction by biotic and abiotic stress may contribute altering its transposition activity. The important roles of retrotransposons to modify genome size, remodel genome structure, and displace gene functions in the plant genome have been proven by a growing number of research studies up to now, which indicates that retrotransposons are a great driving force in genome evolution. For this review, we summarized the latest theoretic and practical research progress on plant retrotransposons for their distribution, regulation of activity, the impact on the architecture of plant genomes, and put forward the future prospects.
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Zou, Jun,Gong, Huihui,Yang, Tae-Jin,Meng, Jinling 한국작물학회 2009 Journal of crop science and biotechnology Vol.12 No.1
As a major part of most plant genomes, retrotransposons are distributed throughout the plant genome ubiquitously with high copy number and extensive heterogeneity. Various retrotransposon families with distinct structures differ in their distribution and roles among divergent plant species, due to unforeseen transposition activities. Regulation of transposition is relatively complex and three factors such as maintaining structure for none- or cis- or trans-acting transposition, being controlled by the host genome and induction by biotic and abiotic stress may contribute altering its transposition activity. The important roles of retrotransposons to modify genome size, remodel genome structure, and displace gene functions in the plant genome have been proven by a growing number of research studies till date, which indicates that retrotransposons are important driving force in genome evolution. For this review, we summarized the latest theoretic and practical research progresses on plant retrotransposons for their distribution, regulation of activity, the impact on the architecture of plant genomes, and put forward the future prospects.
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