分子植物育种
分子植物育種
분자식물육충
MOLECULAR PLANT BREEDING
2013年
3期
371-378
,共8页
罗轩%丛汉卿%李丽%李新国
囉軒%叢漢卿%李麗%李新國
라헌%총한경%리려%리신국
蜻蜓凤梨%乙烯处理%FLD%自主途径
蜻蜓鳳梨%乙烯處理%FLD%自主途徑
청정봉리%을희처리%FLD%자주도경
Aechmea fasciata%Ethylene treatment%FLD%Autonomous flowering pathway
FLOWERING LOCUS D (FLD)是植物自主开花途径花发育基因,在植物营养生长向生殖生长转变的过程中起重要的调控作用。本研究利用同源基因克隆法结合RACE技术克隆了蜻蜓凤梨(Aechmea fasciata)花发育基因FLD的类似基因AfFLD。序列分析比对表明,AfFLD所推测的氨基酸序列包含有LSD1-LIKE亚家族两个高度保守的结构域:SWIRM结构域和胺氧化酶结构域,该蛋白与玉米、拟南芥的FLD蛋白的同源性分别为72%和73%。利用实时荧光定量PCR (qRT-PCR)技术分析了乙烯处理不同时间FLD基因的表达模式,结果表明乙烯处理不同时间的各组中,处理后1 d时FLD的表达量达到最高值,其中表达量最高为0 h的2.5倍。本结果为开花自主途径中相关基因对乙烯处理后的响应机理的研究提供理论基础。
FLOWERING LOCUS D (FLD)是植物自主開花途徑花髮育基因,在植物營養生長嚮生殖生長轉變的過程中起重要的調控作用。本研究利用同源基因剋隆法結閤RACE技術剋隆瞭蜻蜓鳳梨(Aechmea fasciata)花髮育基因FLD的類似基因AfFLD。序列分析比對錶明,AfFLD所推測的氨基痠序列包含有LSD1-LIKE亞傢族兩箇高度保守的結構域:SWIRM結構域和胺氧化酶結構域,該蛋白與玉米、擬南芥的FLD蛋白的同源性分彆為72%和73%。利用實時熒光定量PCR (qRT-PCR)技術分析瞭乙烯處理不同時間FLD基因的錶達模式,結果錶明乙烯處理不同時間的各組中,處理後1 d時FLD的錶達量達到最高值,其中錶達量最高為0 h的2.5倍。本結果為開花自主途徑中相關基因對乙烯處理後的響應機理的研究提供理論基礎。
FLOWERING LOCUS D (FLD)시식물자주개화도경화발육기인,재식물영양생장향생식생장전변적과정중기중요적조공작용。본연구이용동원기인극륭법결합RACE기술극륭료청정봉리(Aechmea fasciata)화발육기인FLD적유사기인AfFLD。서렬분석비대표명,AfFLD소추측적안기산서렬포함유LSD1-LIKE아가족량개고도보수적결구역:SWIRM결구역화알양화매결구역,해단백여옥미、의남개적FLD단백적동원성분별위72%화73%。이용실시형광정량PCR (qRT-PCR)기술분석료을희처리불동시간FLD기인적표체모식,결과표명을희처리불동시간적각조중,처리후1 d시FLD적표체량체도최고치,기중표체량최고위0 h적2.5배。본결과위개화자주도경중상관기인대을희처리후적향응궤리적연구제공이론기출。
FLOWERING LOCUS D (FLD)-like genes involved in the autonomous pathway plays an important role in the regulating the flora transition in plant. The FLD-like gene named AfFLD was cloned from Aechmea fasciata by RT-PCR and rapid amplification of cDNA ends (RACE). By using alignment analysis, the deduced amino acid sequence contained two domains: SWIRM domain and amine oxidase domain, both of which were highly conserved in LSD1-LIKE protein family. The deduced protein of AfFLD had 72%and 73%identical to homologs encode AtFLD in Arabidopsis thaliana and ZmFLD in Zea mays, respectively. The expression patterns of AfFLD gene during the treatment of ethylene were investigated by quantitative real-time PCR (qRT-PCR). Results showed that the expression of AfFLD reached the highest level on one day after ethylene processing, which the highest amount of expression 2.5 times than un-treatment (0 h). The results of this study would provide a research foundation for understanding the regulation mechanism of key enzymes of the autonomous flowering pathway.
