An active hAT transposable element causing bud mutation of carnation by insertion into the flavonoid 3â[euro]²-hydroxylase gene

The molecular mechanisms underlying spontaneous bud mutations, which provide an important breeding tool in carnation, are poorly understood. Here we describe a new active hAT type transposable element, designated Tdic101, the movement of which caused a bud mutation in carnation that led to a change...

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Veröffentlicht in:	Molecular genetics and genomics : MGG 2013-04, Vol.288 (3-4), p.175
Hauptverfasser:	Momose, Masaki, Nakayama, Masayoshi, Itoh, Yoshio, Umemoto, Naoyuki, Toguri, Toshihiro, Ozeki, Yoshihiro
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Sprache:	eng
Schlagworte:	Biosynthesis Cell division Cultivars Flavonoids Genes Genomics Mutation
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container_title	Molecular genetics and genomics : MGG
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creator	Momose, Masaki Nakayama, Masayoshi Itoh, Yoshio Umemoto, Naoyuki Toguri, Toshihiro Ozeki, Yoshihiro
description	The molecular mechanisms underlying spontaneous bud mutations, which provide an important breeding tool in carnation, are poorly understood. Here we describe a new active hAT type transposable element, designated Tdic101, the movement of which caused a bud mutation in carnation that led to a change of flower color from purple to deep pink. The color change was attributed to Tdic101 insertion into the second intron of F3â[euro]²H, the gene for flavonoid 3â[euro]²-hydroxylase responsible for purple pigment production. Regions on the deep pink flowers of the mutant can revert to purple, a visible phenotype of, as we show, excision of the transposable element. Sequence analysis revealed that Tdic101 has the characteristics of an autonomous element encoding a transposase. A related, but non-autonomous element dTdic102 was found to move in the genome of the bud mutant as well. Its mobilization might be the result of transposase activities provided by other elements such as Tdic101. In carnation, therefore, the movement of transposable elements plays an important role in the emergence of a bud mutation.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00438-013-0742-z
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Here we describe a new active hAT type transposable element, designated Tdic101, the movement of which caused a bud mutation in carnation that led to a change of flower color from purple to deep pink. The color change was attributed to Tdic101 insertion into the second intron of F3â[euro]²H, the gene for flavonoid 3â[euro]²-hydroxylase responsible for purple pigment production. Regions on the deep pink flowers of the mutant can revert to purple, a visible phenotype of, as we show, excision of the transposable element. Sequence analysis revealed that Tdic101 has the characteristics of an autonomous element encoding a transposase. A related, but non-autonomous element dTdic102 was found to move in the genome of the bud mutant as well. Its mobilization might be the result of transposase activities provided by other elements such as Tdic101. 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Here we describe a new active hAT type transposable element, designated Tdic101, the movement of which caused a bud mutation in carnation that led to a change of flower color from purple to deep pink. The color change was attributed to Tdic101 insertion into the second intron of F3â[euro]²H, the gene for flavonoid 3â[euro]²-hydroxylase responsible for purple pigment production. Regions on the deep pink flowers of the mutant can revert to purple, a visible phenotype of, as we show, excision of the transposable element. Sequence analysis revealed that Tdic101 has the characteristics of an autonomous element encoding a transposase. A related, but non-autonomous element dTdic102 was found to move in the genome of the bud mutant as well. Its mobilization might be the result of transposase activities provided by other elements such as Tdic101. 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subjects	Biosynthesis Cell division Cultivars Flavonoids Genes Genomics Mutation
title	An active hAT transposable element causing bud mutation of carnation by insertion into the flavonoid 3â[euro]²-hydroxylase gene
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