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1.
植物花发育的分子机理研究进展   总被引:1,自引:0,他引:1       下载免费PDF全文
张云  刘青林 《植物学报》2003,20(5):589-601
花的发育分为开花决定、花的发端和花器官的发育三个阶段。植物开花由多条途径诱导,包括光周期和光质诱导、春化作用、自主途径、赤霉素诱导、碳水化合物诱导等;植物体本身也存在着开花抑制途径。各种开花诱导途径能激活花分生组织特性基因,使茎端分生组织转变为花分生组织。花器官的发育由器官特性基因决定,这些基因的精确表达需要花分生组织特性基因的激活和多个正、负调节因子的调控;另有一类基因控制着花发育的对称性。花发育机理的研究具有重要的理论意义和广泛的应用前景。  相似文献   

2.
林木花发育的基因调控   总被引:1,自引:0,他引:1  
花发育是林木生长发育过程中的重要阶段。林木的花发育分为开花诱导、花的发端和花器官发育3个阶段,是由多种基因参与的十分复杂的调控过程。本文对林木在花发育过程中的基因调控进行了综述,并对林木花发育领域的研究前景进行了展望。  相似文献   

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AGAMOUS-LIKE 24(AGL24)基因编码MADS蛋白,在植物花发育的不同时期发挥着重要的作用。综述了AGL24如何通过和其他花分生组织决定基因的相互作用来影响拟南芥花的发育,调节开花时间,这将有助于人们对开花基因调控网络有更进一步的认识,能够在生产上有效的调控开花时间,从而为植物育种提供借鉴。  相似文献   

4.
花发育是林木生长发育过程中的重要阶段。林木的花发育分为开花诱导、花的发端和花器官发育3个阶段, 是由多种基因参与的十分复杂的调控过程。本文对林木在花发育过程中的基因调控进行了综述, 并对林木花发育领域的研究前景进行了展望。  相似文献   

5.
细胞分裂素对拟南芥(Arabidopsis thaliana)花分生组织细胞的分裂和分化具有重要作用。本研究利用APETALA1(AP1)特异启动子在花分生组织和第1、2轮花器官中表达细胞分裂素合成酶(isopentyl transferase,IPT)基因IPT4,研究细胞分裂素对花和花器官发育的影响。在pAP1∷IPT4转基因植株中出现了花密集和花器官数目增多等现象。原位杂交和GUS组织染色结果发现,在pAP1∷IPT4转基因植株中,花分生组织特征决定基因LEAFY(LFY)与花器官特征决定基因AP1、PISTILLATA(PI)和AGAMOUS(AG)的表达量均有不同程度的提高。研究结果表明在拟南芥中表达pAP1∷IPT4影响其花和花器官的正常发育。  相似文献   

6.
细胞分裂素对拟南芥(Arabidopsis thaliana)花分生组织细胞的分裂和分化具有重要作用。本研究利用APETALA1(AP1)特异启动子在花分生组织和第1、2轮花器官中表达细胞分裂素合成酶(isopentyl transferase,IPT)基因IPT4,研究细胞分裂素对花和花器官发育的影响。在pAP1∷IPT4转基因植株中出现了花密集和花器官数目增多等现象。原位杂交和GUS组织染色结果发现,在pAP1∷IPT4转基因植株中,花分生组织特征决定基因LEAFY(LFY)与花器官特征决定基因AP1、PISTILLATA(PI)和AGAMOUS(AG)的表达量均有不同程度的提高。研究结果表明在拟南芥中表达pAP1∷IPT4影响其花和花器官的正常发育。  相似文献   

7.
花分生组织的维持与终止在植物花器官发生和世代交替起着至关重要的作用。成功的花分生组织决定能够确保植物正常的生殖发育和生命周期进程。诸多研究表明AGAMOUS(AG)基因作为花器官分化和开花决定的主效调节因子,能够协调花发育过程中多种细胞命运决定。然而,关于AG参与调控植物世代交替及花分生组织维持与终止的分子调控机制尚不清晰。综述了近年来AG基因参与调控植物花分生组织维持与终止的研究进展及现状,以期为深入研究植物花器官分化过程中干细胞的维持和终止,以及干细胞活动与其他发育过程之间的分子调控过程提供参考。  相似文献   

8.
细胞分裂素对拟南芥(Arab idopsis thal iana)花分生组织细胞的分裂和分化具有重要作用。本研究利用APETALA1(AP1)特异启动子在花分生组织和第1、2轮花器官中表达细胞分裂素合成酶(isopentyl trans ferase, IPT)基因IPT4, 研究细胞分裂素对花和花器官发育的影响。在pAP1::IPT4转基因植株中出现了花密集和花器官数目增多等现象。原位杂交和GUS组织染色结果发现, 在pAP1::IPT4转基因植株中, 花分生组织特征决定基因LEAFY (LFY)与花器官特征决定基因AP1、PISTILLATA (PI )和AGAMOUS (AG)的表达量均有不同程度的提高。研究结果表明在拟南芥中表达pAP1::IPT4影响其花和花器官的正常发育。  相似文献   

9.
花由茎顶分生组织的少数细胞分化而来。花的分生组织进行活跃的细胞分裂,并逐步分化形成萼片、花瓣、雄蕊和雌蕊4个器官。这些器官的性质由花的“同源异型基因”决定,决定花的器官数和对称性等的基因族也在起作用。就目前对这些基因族的研究进展做些探讨。  相似文献   

10.
蝴蝶兰花发育的分子生物学研究进展   总被引:1,自引:0,他引:1       下载免费PDF全文
蝴蝶兰花非常独特且高度进化,如萼片瓣化、瓣片特化为唇瓣、雌雄蕊合生成合蕊柱及子房发育须由授粉启动等,是单子叶植物花发育研究的理想材料。近年来蝴蝶兰花发育分子生物学取得了重要进展。该文就近年来国内外有关蝴蝶兰开花转换及花器官发育相关基因研究以及B类基因与兰花花被的进化发育关系方面的研究进展进行综述。研究表明:MADS基因在蝴蝶兰开花转换及花器官发育过程中起重要作用,推测其中的DEF(DE-FICIENS)-like基因早期经过2轮复制,形成了4类不同的DEF-like基因,进而决定兰花花被属性。蝴蝶兰花发育分子生物学的深入研究,将极大地利于通过基因工程手段提高蝴蝶兰花品质如花色改良及花期调控等,推动分子育种进程。  相似文献   

11.
AP2功能基因在植物花发育中的重要作用   总被引:3,自引:0,他引:3  
AP2基因作为调控植物花发育的功能基因,参与花分生特性建立、花器官的特性特化以及形成调控。所编码的AP2/EREBP转录因子的主要特征是都至少含有一个由60到70个左右的氨基酸组成高度保守的DNA结合区,称作AP2结合域。按其所含的AP2结构域的数目分为3个亚族,即AP2亚家族、EREBP亚家族和RAV亚家族,每个亚家族都有各自的作用。AP2基因不但自身调控着花、胚珠的发育,而且与其他因子相互协作,参与到复杂的花发育调控网络。将对AP2基因的特征和分类及其在花发育中的作用进行概述。  相似文献   

12.
 MADS box genes are likely involved in many different steps of plant development, since their RNAs accumulate in a wide variety of tissues, including roots, stems, leaves, flowers and embryos. In flowers, MADS box genes regulate the early step of specifying floral meristem identity as well as the later step of determining the fate of floral organ primordia. Here we describe the isolation and characterization of a new MADS box gene from Arabidopsis, AGL9. Sequence analyses indicate that AGL9 represents the putative ortholog of the FBP2 and TM5 genes from petunia and tomato, respectively. In situ hybridization analyses show that AGL9 RNA begins to accumulate after the onset of expression of the floral meristem identity genes, but before the activation of the organ identity genes. These data indicate that AGL9 functions early in flower development to mediate between the interaction of these two classes of genes. Later in flower development, AGL9 RNA accumulates in petals, stamens, and carpels, suggesting a role for AGL9 in controlling the development of these organs. Received: 4 May 1997 / Accepted: 14 July 1997  相似文献   

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Flowers of an alloplasmic male-sterile tobacco line, comprised of the nuclear genome of Nicotiana tabacum and the cytoplasm of Nicotiana repanda, develop short, poorly-pigmented petals and abnormal sterile stamens that often are fused with the carpel wall. The development of flower organ primordia and establishment of boundaries between the different zones in the floral meristem were investigated by performing expression analysis of the tobacco orthologs of the organ identity genes GLO, AG and DEF. These studies support the conclusion that boundary formation was impaired between the organs produced in whorls 3 and 4 resulting in partial fusions between anthers and carpels. According to the investigations cell divisions and floral meristem size in the alloplasmic line were drastically reduced in comparison with the male-fertile tobacco line. The reduction in cell divisions leads to a discrepancy between cell number and cell determination at the stage when petal and stamen primordia should be initiated. At the same stage expression of the homeotic genes was delayed in comparison with the male-fertile line. However, the abnormal organ development was not due to a failure in the spatial expression of the organ identity genes. Instead the aberrant development in the floral organs of whorls 2, 3 and 4 appears to be caused by deficient floral meristem development at an earlier stage. Furthermore, defects in cell proliferation in the floral meristem of the alloplasmic male-sterile line correlates with presence of morphologically modified mitochondria. The putative causes of reduced cell number in the floral meristem and the consequences for floral development are discussed.  相似文献   

15.
LEAFY controls floral meristem identity in Arabidopsis.   总被引:96,自引:0,他引:96  
The first step in flower development is the generation of a floral meristem by the inflorescence meristem. We have analyzed how this process is affected by mutant alleles of the Arabidopsis gene LEAFY. We show that LEAFY interacts with another floral control gene, APETALA1, to promote the transition from inflorescence to floral meristem. We have cloned the LEAFY gene, and, consistent with the mutant phenotype, we find that LEAFY RNA is expressed strongly in young flower primordia. LEAFY expression procedes expression of the homeotic genes AGAMOUS and APETALA3, which specify organ identify within the flower. Furthermore, we demonstrate that LEAFY is the Arabidopsis homolog of the FLORICAULA gene, which controls floral meristem identity in the distantly related species Antirrhinum majus.  相似文献   

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