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麝香百合LLGLO1基因的克隆和表达 被引量:9

Cloning and Expression of A MADS Box Gene LLGLO1 from Lilium longiflorum Thunb
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摘要 用RACE方法克隆的麝香百合花发育的GLOBOSA(GLO)类B功能基因LLGLO1,与其他多种单子叶植物的GLO类基因高度同源,且C区具有典型的PI结构基序。通过RT-PCR检测,百合不同组织中的LLGLO1基因表达模式与郁金香的GLO类基因相似。即主要集中在百合第一、二、三轮花器官中表达,心皮和茎中有微量表达,而且随着心皮的成熟,其在心皮中的表达量逐渐增加,但在百合叶片中则未检测到LLGLO1的表达,因此认为LLGLO1在百合花器官中呈特异性表达。LLGLO1在百合第一轮花器官中的表达支持了vanTunen对ABC模型的修正。 A MADS box gene named LLGLO1 was cloned from Lilium longiflorum Thunb by rapid amplification of cDNA ends (RACE). LLGLO1 was a B function gene homologous to GLOBOSA (GLO), which had high protein sequence homology with GLOBOSA family genes of other monocotyledon plants. It also had PI motif in the C box region, which was conserved sequence in GLO family gene. The expression of LLGLO1 in different lily tissues was detected by RT-PCR. It was similar to GLO class gene in Tulip, LLGLO1 mainly expressed in the first, second and third whorls of flower organ. It supported the modified ABC model by van Tunen. It was also detected faintly expressed in carpel and stem. The expression of LLGLO1 increased with the carpel development. There was no expression of LLGLO1 in lily leaf, which lead us to consider the LLGLO1 gene specially expressed in lily flower organ.
出处 《植物生理学通讯》 CSCD 北大核心 2006年第5期871-876,共6页 Plant Physiology Communications
基金 上海科技兴农重点攻关项目[沪农科攻字(2004第1-1号)]
关键词 麝香百合 ABC模型 GLOBOSA 基因表达 Lilium longiflorum Thunb ABC development model GLOBOSA gene expression
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参考文献11

  • 1孟征,许智宏.高等植物的同源异型基因[J].植物生理学通讯,1997,33(3):233-239. 被引量:4
  • 2Chung YY,Kim SR,Kang HG,Noh YS,Park MC,Finkel D,An G (1995).Characterization of two rice MADS box genes homologous to GLOBOSA.Plant Sci,109:45~46
  • 3Coen ES,Meyerowitz EM (1991).The war of the whorls:genetic interactions controlling flower development.Nature,353:31 ~37
  • 4Kanno A,Saeki H,Kameya T,Saedler H,Theissen G (2003).Heterotopic expression of class B floral homeotic genes supports a modified ABC model for tulip (Tulipa gesneriana).Plant Mol Biol,52:831~841
  • 5Krizek BA,Fletcher JC (2005).Molecular mechanisms of flower development:an armchair guide.Nature Rev Genet,6:688~698
  • 6Munster T,Wingen LU,Faigl W,Werth S,Saedler H,Theissen G (2001).Characterization of three GLOBOSA-like MADS-box genes from maize:evidence for ancient paralogy in one class of floral homeotic B-function genes of grasses.Gene,262:1~13
  • 7Park JH,Ishikawa Y,Ochiai T,Kanno A,Kameya T (2004).Two GLOBOSA-like genes are expressed in second and third whorls of homochlamydeous flowers in Asparagus officinalis L..Plant Cell Physiol,45 (3):325~332
  • 8van Tunen AJ,Eikelboom W,Angenent GC (1993).Floral organogenesis in Tulipa.Flowering Newsl,16:33~38
  • 9Tzeng TY,Yang CH (2001).A MADS box gene from lily (Lilium longiflorum) is sufficient to generate dominate negative mutation by interacting with PISTILLATA (PI) in Arabidopsis thaliana.Plant Cell Physiol,42 (10):1156~1168
  • 10Winter KU,Weiser C,Kaufmann K,Bohne A,Kirchner C,Kanno A,Saedler H,Theiβen G (2002).Evolution of class B floral homeotic proteins:obligate heterodimerization originated from homodimerization.Mol Biol Evol,19 (5):587~596

二级参考文献3

  • 1Hongchang Ma,Michael D. McMullen,John J. Finer. Identification of a homeobox-containing gene with enhanced expression during soybean (Glycine max L.) somatic embryo development[J] 1994,Plant Molecular Biology(3):465~473
  • 2Zhen-Xin Lu,Mian Wu,Chiang-Shiong Loh,Ching-Yuen Yeong,Chong-Jin Goh. Nucleotide sequence of a flower-specific MADS box cDNA clone from orchid[J] 1993,Plant Molecular Biology(4):901~904
  • 3Jim Mattsson,Eva S?derman,Marie Svenson,Chumpol Borkird,Peter Engstr?m. A new homeobox-leucine zipper gene from Arabidopsis thaliana[J] 1992,Plant Molecular Biology(5):1019~1022

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