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园艺植物性别决定机制研究进展 总被引:2,自引:0,他引:2
性染色体、性别基因、MADS-box转录因子等是植物雌雄个体或器官发育过程中关键的遗传因素。性染色体和性别决定基因是雌雄异株植物性别决定的遗传基础,而性别分化基因在花器官分生组织中选择性表达,调控不同性别花的产生。花发育的ABCDE模型中涉及的基因绝大部分属于MADS-box家族基因。综述了植物性染色体进化机制、园艺植物性染色体类型、性别连锁基因群定位、基因鉴定以及MADS-box家族基因对花器官发育的调控等方面的研究进展,并提出园艺植物性别决定机制研究中需要解决的问题。 相似文献
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高用顺汪以朱云美林顺权 《果树学报》2016,(8):1007-1013
蔷薇科包含很多具有重要经济价值的园艺植物,它们的开花模式多样,而不同的开花模式又直接影响了开花观赏期和果树产期,在园艺生产上非常重要。以拟南芥为代表的模式植物中,TERMINAL FLOWER1(TFL1)基因调控开花的分子机制已被深入研究,它是调控植物花芽分化的关键基因,可以维持花序的无限生长状态,延迟拟南芥的开花时间。然而,人们对蔷薇科植物开花调控机制的了解还比较有限。在本文,我们回顾了TFL1同源基因在蔷薇科植物开花时间调控分子机制方面的研究进展,并着重阐述了TFL1同源基因在各种蔷薇科植物开花转型以及童期向成熟期转换过程中的表达规律和遗传功能,为今后深入研究TFL1调控蔷薇科植物开花时间以及童期变化的分子机制提供了重要的基础。 相似文献
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《果树学报》2016,(8)
蔷薇科包含很多具有重要经济价值的园艺植物,它们的开花模式多样,而不同的开花模式又直接影响了开花观赏期和果树产期,在园艺生产上非常重要。以拟南芥为代表的模式植物中,TERMINAL FLOWER1(TFL1)基因调控开花的分子机制已被深入研究,它是调控植物花芽分化的关键基因,可以维持花序的无限生长状态,延迟拟南芥的开花时间。然而,人们对蔷薇科植物开花调控机制的了解还比较有限。在本文,我们回顾了TFL1同源基因在蔷薇科植物开花时间调控分子机制方面的研究进展,并着重阐述了TFL1同源基因在各种蔷薇科植物开花转型以及童期向成熟期转换过程中的表达规律和遗传功能,为今后深入研究TFL1调控蔷薇科植物开花时间以及童期变化的分子机制提供了重要的基础。 相似文献
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LFY基因处于成花调控网络的关键位置,不仅调控开花时间和花转变,而且在花序和花的发育中也起重要作用。为了进一步探讨柑橘及其近缘属植物开花的分子机理,利用PCR技术分别从兴津温州蜜柑(Citrus unshiuMarcovitch)、无核椪柑(Citrus reticulata Blanco)、沙田柚[Citrus grandis(L.)Osbeck]、融安金柑(Fortunella crassifoliaSwing)和无核黄皮[Clausena lansium(Lour.)Skeels]叶片中分离克隆了LFY全长同源基因。结果表明兴津温州蜜柑、无核椪柑、沙田柚、融安金柑和无核黄皮中的LFY全长同源基因的核苷酸长度分别为2090、2086、2092、2081、2089bp,分别编码398、398、398、398和397个氨基酸,这些同源基因均由3个外显子和2个内含子组成。同源性分析发现,这些LFY全长同源基因的核苷酸序列和氨基酸序列同源性高,分别为92%~99%和95%~100%。亲缘关系分析结果与当前的植物学分类结果一致。 相似文献
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Flowering is generally considered to be advanced by water deficits in many woody perennial species. A long-standing paradigm being that as a plant senses severe environmental conditions resources are diverted away from vegetative growth and towards reproduction before death. It is demonstrated that in Rhododendron flowering is promoted under water deficit treatments. However, the promotion of flowering is not achieved via an increase in floral initiation, but through separate developmental responses. If regulated deficit irrigation (RDI) is imposed prior to the time of initiation, fewer vegetative nodes are formed before the apical meristems switch to floral initiation, and chronologically, floral initiation occurs earlier. Both RDI and partial rootzone drying (PRD) treatments stimulate the development of more flowers on each inflorescence if the treatments are continued after the plant has undergone floral initiation. However, floral initiation is inhibited by soil water deficits. If the soil water deficit continues beyond the stages of floral development then anthesis can occur prematurely on the fully formed floral buds without a need for a winter chilling treatment. It is hypothesised that inhibition of floral initiation in plants experiencing severe soil water deficits results from the inhibitory action of ABA transportation to the apical meristem from stressed roots. It is demonstrated that ABA applications to well-watered Rhododendron inhibit floral initiation. 相似文献
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O. M. Heide 《The Journal of Horticultural Science and Biotechnology》2013,88(5):433-442
SummaryRecent research on how the structure and physiological development of red raspberry (Rubus idaeus L.) plants are controlled by genotype and the climatic environment is reviewed. Some older work, especially on plant structure relations, is also included. Physiological differences between annual- and biennial-fruiting plant types are highlighted. One major difference is the different requirements for flower formation. While biennial-fruiting cultivars have an absolute low temperature (≤ approx. 15°C) requirement for floral initiation, annual-fruiting cultivars readily initiate floral primordia at temperatures as high as a constant 30°C. Also, while biennial-fruiting cultivars are facultative short-day plants with a critical photoperiod of 15 h at intermediate temperatures, flowering is promoted by long photoperiods in at least some annual-fruiting cultivars. However, the essential difference that determines whether the shoot life-cycle becomes annual or biennial is that, in biennial-fruiting genotypes, floral initiation is linked to the induction of bud dormancy; whereas, in annual-fruiting cultivars, floral initiation is followed by direct flower development. Although this is genetically determined, it is a plastic trait that is subject to modification by the environment. Thus, at low temperatures and under short photoperiods, the majority of initiated buds also enter dormancy in annual-fruiting cultivars, with tip-flowering as a result. Practical applications are discussed, and it is concluded that our present physiological knowledge-base provides excellent opportunities for the manipulation of raspberry crops for out-of-season production and high yields. It also provides a firm platform for further exploration of the underlying molecular genetics of plant structures and response mechanisms. 相似文献
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FLOWERING LOCUS C(FLC)是植物抽薹开花调控网络中关键的开花决定因子。随着表观遗传学的发展,人们发现组蛋白修饰等表观调控FLC 的表达在植物抽薹开花时间调控中起着非常重要的作用。FLC 的抑制因子或促进因子通过改变组蛋白氨基酸的共价修饰(如乙酰化、甲基化等),影响FLC基因所在区域的染色质重塑,调控FLC 转录表达水平,从而调节植物抽薹开花。本文就近年来国内外对植物抽薹开花关键调控基因FLC 及表观遗传调控其表达研究现状进行了综述,并针对目前研究中存在的问题提出了今后的研究方向和重点。 相似文献
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B类MADS-box基因在调控显花植物的花瓣和雄蕊发育过程中发挥关键作用。为初步了解大蒜花发育的分子机制,以‘阿城紫皮’大蒜(Allium sativum)的花蕾为试材克隆了AsPI(Gen Bank登录号为KY272748)。AsPI的cDNA长939 bp,开放阅读框为615 bp,编码204个氨基酸。推导的氨基酸序列显示,AsPI编码的蛋白质包含高度保守的MADS结构域(1~57氨基酸)和保守的K结构(76~140氨基酸),AsPI蛋白具有PI亚家族特有的序列特征:MADS区特征丝氨酸残基、K区高度保守序列KHExL以及C–末端的PI基序。序列比对、功能域分析及系统发育分析结果表明,AsPI属于单子叶植物B功能基因PI亚家族。半定量和实时RT-PCR检测AsPI在大蒜不同组织器官中的表达模式,结果表明,在花蕾中高丰度表达,在花茎中表达量中等,在根、假茎、嫩叶、保护叶等营养器官中表达量极低甚至不表达。 相似文献
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SUMMARYThe possibility of using water stress during floral initiation and development, to synchronize flowering in potted coffee trees of cvs Catuai Rojo and Mundo Novo was investigated. Moderate and severe cyclic and constant water stress had little effect on vegetative growth during floral initiation. However, upon rewatering, shoot growth was significantly greater in plants where leaf water potential [¨,] had declined to -2.5 MPa compared with plants where ¨, was maintained above -0.5 MPa. The period of floral initiation was not influenced by water stress and occurred only under short days (<12 h). In contrast, a y, of -2.5 MPa significantly reduced the number of inflorescences compared with plants maintained at a ¨| of -0.5 or -1.5 MPa. This reduction was associated with leaf drop in stressed plants. Therefore, regular irrigation during the period of floral initiation is recommended. Water stress (¨, of -1.5 or -2.5 MPa compared with -0.5 MPa) accelerated floral development with no deleterious effects on floral differentiation. Once flower buds are fully differentiated they enter dormancy and reach anthesis only if trees are stressed and rewa-tered. Flower buds remain dormant if trees are watered regularly or a constant water stress provided. A constant period of water stress in the late stages of floral development after floral initiation is complete provides a means of increasing the proportion of fully differentiated dormant flower buds (mature buds). This could represent a practical method to achieve synchronized flowering in field conditions where there is irrigation and a reliable dry season in the late stages of floral development. 相似文献
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Movement of a putative florigenic promoter from leaves to buds was investigated in two cultivars of mango (Mangifera indica L.) over two flowering seasons through examination of the minimum number of leaves on each stem necessary for floral induction and movement of this component over various distances from stem to stem in isolated branches. The minimum number of leaves on individual stems necessary to induce flowering was less than 1/4 of a cross-cut leaf per stem. The putative florigenic promoter moved from donor stems bearing as few as one leaf to induce flowering in five receiver stems located as far down branches as 100 cm from the donor stem. Evidence suggests that movement of the putative florigenic promoter occurs in phloem and that far more of this component is available in trees than is necessary for floral induction of initiating shoots during cool, floral-inductive conditions of the subtropics. 相似文献
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未知功能的植物基因一般需要通过转基因植物来研究和验证。银杏(Ginkgo biloba L.)是一种童期很长的古老植物,LEAFY基因是一个花分生组织特征基因,调控着植物开花的时间。用植物双元表达载体质粒pCAMBl-Al301构建了开花基因,LEAFY的银杏同源基因GinNdly的反义与正义植物表达载体。因pCAMBlAl301质粒的多克隆位点处没有启动子和终止子,将pB1121的35S启动子和nos终止子引入该质粒。通过PCR检测和酶切验证,证明质粒构建正确,为研究银杏花分生组织特征基因GinNdly奠定了基础。 相似文献
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以珍贵用材树种光皮桦(Betula luminifera)为材料,采用同源克隆与RACE的方法,克隆获得LFY同源基因,命名为BlLFY(GenBank号:KP970616)。BlLFY基因cDNA全长1 305 bp,开放阅读框(ORF)长1 212 bp,编码403个氨基酸。基因结构分析显示,BlLFY基因具有2个内含子和3个外显子,与其它植物同源基因具有一致的基因结构。多序列比对和系统进化分析表明,BlLFY基因编码蛋白具有典型的N-domain和C-domain,与板栗(Castanea mollissima)及核桃(Juglans regia)等木本植物的LFY具有最高的同源性和进化关系。进一步的表达模式分析结果表明,BlLFY基因在光皮桦植株进入成年期时表达水平最高,在开花植株的营养器官和生殖器官中均有表达,且贯穿雌、雄花序发育的整个过程,但在雌花序中的表达明显高于雄花序,说明BlLFY基因可能与花期转换和花器官的发育有关,但在雌、雄花序发育过程中的调控作用可能不同。 相似文献