Ca2+、pH在花粉及萌发花粉管生长中的作用研究进展

花粉正常萌发并生长是精细胞顺利到达胚囊并实现受精作用的前提,因而是高等植物有性生殖的一个关键环节。花粉管生长涉及一系列过程,而花粉(或花粉管)内外的Ca^2 和pH的变化与花粉萌发、花粉管生长有着密切的关系。比较详细地论述了Ca^2 和pH在花粉萌发、花粉管生长过程中的分布特点、生理功能及分子机制。     

G蛋白对花粉管生长的调控作用

花粉萌发和花粉管生长是花粉与雌蕊相互作用过程中受到高度调控的发育过程,它涉及花粉与雌蕊的识别作用、细胞间及细胞内信息传递等生理反应。近年的研究表明G蛋白作为一类重要的信号分子在调控花粉管生长中起重要作用。着重介绍G蛋白对花粉管生长的调控作用以及此过程中G蛋白与其它信号组分的协同作用。     

蕨类植物孢子与种子植物花粉萌发的比较

蕨类植物孢子与种子植物花粉在有性生殖过程中都具有重要的作用。花粉作为种子植物的雄配子体,通过萌发后极性生长的花粉管将精细胞送到胚囊完成受精作用。蕨类植物孢子作为配子体的原始细胞,通过不对称的有丝分裂产生一大一小两个细胞,小细胞萌发出极性生长的假根,大细胞继续分裂发育为原叶体（配子体）。成熟的花粉和蕨类植物孢子都是代谢高度静止的细胞,两者的萌发过程不仅都受到各种不同环境因子的影响,而且在信号转导、极性建立和能量代谢等方面可能有着相似的调控机制。本文综述了蕨类植物孢子和种子植物花粉萌发过程的差异和保守性特征。     

GA_3对含笑花粉萌发及花粉管生长的影响

以含笑（Michelia figo）花粉为试材,采用花粉离体培养法,研究GA3对含笑花粉萌发和花粉管生长的影响。结果表明,GA3可以促进含笑花粉提早萌发,20～200 mg/L GA3对含笑花粉萌发和花粉管生长起促进作用,浓度超过200 mg/L花粉萌发和花粉管生长均受到抑制。以GA3200 mg/L的促进作用最好。     

一种钙调素结合蛋白对小麦质膜H~ -ATP酶活性的调节

植物生长素参与植物生长和发育诸多方面的调节。研究表明,生长素的调节机制与Caz”的存在紧密相关。Caz”在植物激素的信号传导中起着信使作用（Hepler和Randy1985）,它与钙调素（Ca．－－－urr－ulin,CaM）结合参与了各种类型植物激素应答反应的调节。现已查明,CaM的诸多功能常受其内源性结合蛋白的调控。本研究组曾分离得到一种新的植物CaM结合蛋白——CaMBP－10o实验证明,CaMBP－10通过与CaM的特异性结合显著抑制了CaM对其靶酶的激活（尚克进等1991）。前期工作还发现CaMBP－10对生长素诱导的小麦芽鞘伸长和质子外排均有…     

钙调素对花粉萌发和花粉管生长的效应

牛脑和玉米胚ＣａＭ能显著促进花粉萌发和花粉管生长（图１）,而ＣａＭ抑制剂ＴＦＰ、ＣＰＺ及另外两个专一性更强的抑制剂Ｃｏｍｐｏｕｎｄ４８／８０和Ｗ７均严重抑制甚至阻止花粉的萌发（图２,３）。用对ＣａＭ亲和性较低的Ｗ７同系物Ｗ５,在与Ｗ７同样浓度下,对花粉萌发和花粉管生长无明显影响。此外,Ｗ７对花粉萌发和花粉管生长的抑制效应可被外源ＣａＭ所消除（图４）。在花粉萌发过程中,其内源ＣａＭ含量显著上升,在花粉萌发率接近最大值时,花粉ＣａＭ含量达最高水平（图５）。上述结果表明ＣａＭ对花粉萌发和花粉管生长的调控起重要作用。     

慈菇属植物的花粉管再分配现象

当花粉落到柱头上,并与柱头识别后,花粉萌发长出花粉管等一系列过程,在被子植物有性生殖中占有很重要的地位。正是由于具备萌发条件的花粉长出花粉管,并产生的雄性配子——精子,然后通过花粉管的伸长生长,被输送到胚珠的胚囊内与卵细胞和极核融合,完成被子植物所特有的双受精过     

蕨类植物孢子与种子植物花粉萌发的比较

蕨类植物孢子与种子植物花粉在有性生殖过程中都具有重要的作用。花粉作为种子植物的雄配子体, 通过萌发后极性生长的花粉管将精细胞送到胚囊完成受精作用。蕨类植物孢子作为配子体的原始细胞, 通过不对称的有丝分裂产生一大一小两个细胞, 小细胞萌发出极性生长的假根, 大细胞继续分裂发育为原叶体(配子体)。成熟的花粉和蕨类植物孢子都是代谢高度静止的细胞, 两者的萌发过程不仅都受到各种不同环境因子的影响, 而且在信号转导、极性建立和能量代谢等方面可能有着相似的调控机制。本文综述了蕨类植物孢子和种子植物花粉萌发过程的差异和保守性特征。     

钙调素mRNA和蛋白在水稻花药和雌蕊发育过程中的原位定位

利用ＲＮＡ原位杂交和免疫组织化学定位技术分别检测了钙调素ｍＲＮＡ和钙调素蛋白在水稻（ＯｒｙｚａｓａｔｉｖａＬ．）花药和雌蕊发育过程中的时空分布特征。钙调素基因在绒毡层、柱头、花粉管生长途径、退化助细胞以及维管薄壁细胞中大量表达,也可在小孢子母细胞、小孢子、花粉、反足细胞、卵细胞以及中央细胞中检测到。钙调素基因的表达强度随不同的发育阶段而变化：花药发育早期表达强,以后逐渐减弱并向特定部位集中,如绒毡层和花粉萌发孔等。胚胎发育早期,钙调素基因在胚乳细胞中的表达比原胚中强,而后期则在分化胚中比胚乳细胞中强。推测在有性生殖过程中,钙调素可能通过Ｃａ２＋ＣａＭ信号途径调节小孢子发育、花粉萌发、花粉管生长、受精以及物质运输等生理过程     

蛋白酶体抑制剂MG132对青扦花粉萌发和花粉管生长的影响

泛素／蛋白酶体系统（UPP）是真核细胞内蛋白质选择性降解的主要途径,而蛋白酶体是UPP中蛋白质降解的场所。本文应用细胞学、统计学方法以及FTIR技术研究了蛋白酶体抑制剂MG132对青扦（Pecea wilsonii）花粉萌发、花粉管生长的影响。结果表明：MG132显著抑制青扦花粉萌发和花粉管生长,并导致花粉管形态异常,主要表现为花粉管亚顶端出现液泡化,并且液泡随着培养时间的延长而扩大到整个花粉管,花粉管濒临死亡;而DMSO以及非蛋白酶体抑制剂E-64不产生类似结果;半薄切片结果表明,MG132处理后不仅花粉管细胞质发生液泡化,生殖细胞也发生液泡化;FTIR分析进一步表明,MG132处理后,花粉管顶端的细胞壁蛋白和果胶质含量大幅度下降。上述结果表明：MG132通过抑制蛋白酶体活性显著影响青扦花粉萌发及花粉管生长;UPP在青扦花粉萌发、花粉管极性生长模式的建立和维持过程中起重要作用;抑制蛋白酶体活性将导致青扦花粉管的程序性死亡。     

花柱和花粉胞外钙调素对花粉萌发和花粉管伸长的影响

以烟草为材料,通过半体内实验,就花柱和花粉胞外钙调素对花粉萌发和花粉管伸长的影响进行了观察。发现用EGTA及钙调素抗血清处理柱头或花粉均可抑制花粉在柱头上的萌发;向花柱引导组织中显微注射纯化钙调素可促进花粉管束伸长,而注射钙调素抗血清可抑制花粉管束伸长;同时证实玉米花柱和花粉细胞壁中均存在钙调素及钙调素结合蛋白,而且花粉和花柱细胞壁中钙调素结合蛋白的种类有差异。结果表明存在于花粉和花柱细胞外的钙调素对花粉萌发和花粉管伸长均有促进作用。     

The presence of a heterotrimeric G protein and its role in signal transduction of extracellular calmodulin in pollen germination and tube growth

The role of heterotrimeric G proteins in pollen germination, tube growth, and signal transduction of extracellular calmodulin (CaM) was examined in lily pollen. Two kinds of antibodies raised against animal Gzalpha, one against an internal sequence and the other against its N terminus, cross-reacted with the same 41-kD protein from lily pollen plasma membrane. This 41-kD protein was also specifically ADP ribosylated by pertussis toxin. Microinjection of the membrane-impermeable G protein agonist GTP-gamma-S into a pollen tube increased its growth rate, whereas microinjection of the membrane-impermeable G protein antagonist GDP-beta-S and the anti-Galpha antibody decreased pollen tube growth. The membrane-permeable G protein agonist cholera toxin stimulated pollen germination and tube growth. Anti-CaM antiserum inhibited pollen germination and tube growth, and this inhibitory effect was completely reversed by cholera toxin. The membrane-permeable heterotrimeric G protein antagonist pertussis toxin completely stopped pollen germination and tube growth. Purified CaM, when added directly to the medium of plasma membrane vesicles, significantly activated GTPase activity in plasma membrane vesicles, and this increase in GTPase activity was completely inhibited by pertussis toxin and the nonhydrolyzable GTP analogs GTP-gamma-S and guanylyl-5'-imidodiphosphate. The GTPase activity in plasma membrane vesicles was also stimulated by cholera toxin. These data suggest that heterotrimeric G proteins may be present in the pollen system where they may be involved in the signal transduction of extracellular CaM and in pollen germination and tube growth.     

The effects of extracellular calmodulin on initiation of Hippeastrum rutilum pollen germination and tube growth

The effects of anti-calmodulin (CaM) serum, the CaM antagonist W7-agarose, the Ca²⁺ chelator ethyleneglycol-bis-(β-aminoethyl)-N,N,N′,N′-tetraacetic acid (EGTA) and exogenous pure CaM on pollen germination and tube growth of Hippeastrum rutilum Herb were studied. Pollen germination and tube growth were inhibited or completely stopped by anti-CaM serum in a dose-dependent manner, while the same amount of preimmune serum had no effect on either process. Pollen germination and tube growth were also inhibited or completely stopped by the CaM antagonist W7-agarose and the Ca²⁺ chelator EGTA. The addition of exogenous pure CaM enhanced pollen germination and tube growth, whereas the same amount of bovine serum albumin had no effect. The inhibitory effects caused by anti-CaM serum, W7-agarose and EGTA-washing could be reversed completely by the addition of exogenous pure CaM. These results indicate that extracellular CaM initiates pollen germination and tube growth, whereas exogenous CaM enhances the above processes, and may provide a novel view for understanding the control of pollen germination and tube growth. Received: 12 December 1996 / Accepted: 15 January 1997     

An apoplastic mechanism for short-term effects of rare earth elements at lower concentrations

The short-term effects of rare earth elements on pollen germination and tube growth were tested. Concentrations of 2.5 approximately 20 micro m lanthanum(La3+) or cerium (Ce3+)increased pollen germination and pollen tube growth, whereas concentrations higher than 40 micro m La3+ and Ce3+ inhibited this process. The most effective concentration of La3+ needed for promotion shifted from 10 to 40 micro m, depending on the Ca2+ concentration in the medium. Calmodulin (CaM) antagonist W7-agarose and anti-CaM antibody depressed La3+-promoted pollen germination and tube growth in a dose-dependent manner. La3+-CaM complexes (La3+-CaM) increased pollen germination and tube growth more than CaM or La3+ alone. Pertussis toxin (PTX) inhibited La3+-promoted pollen germination and tube growth. Cholera toxin (CTX) partially recovered the inhibition of the above La3+-promoted process by the anti-CaM antibody. Concentrations of 10-7 approximately 10-9 m La3+-CaM increased GTPase activity inside plasma membrane vesicles of the pollen tube, but apo-CaM or La3+ alone had no positive effects. The results suggest that apoplastic CaM may be involved in the promotion effects of lower concentrations of La3+ on pollen germination and tube growth, and the heterotrimeric G-protein on the plasma membrane may transduce La3+-activated CaM signalling. The present studies provide an apoplastic mechanism for short-term effects of rare earth elements at lower concentrations in the pollen system.     

Extracellular calmodulin: A polypeptide signal in plants?

Traditionally, calmodulin (CaM) was thought to be a multi-functional receptor for intra-cellular Ca2+ signals. But in the last ten years, it was found that CaM also exists and acts extracel-lularly in animal and plant cells to regulate many important physiological functions. Laboratory studies by the authors showed that extracellular CaM in plant cells can stimulate the proliferation of suspension cultured cell and protoplast; regulate pollen germination and pollen tube elongation, and stimulate the light-independent gene expression of Rubisco small subunit (rbcS). Furthermore, we defined the trans-membrane and intracellular signal transduction pathways for extracellular CaM by using a pollen system. The components in this pathway include heterotrimeric G-protein, phospholipase C, IP3, calcium signal and protein phosphorylation etc. Based on our findings, we suggest that extracellular CaM is a polypeptide signal in plants. This idea strongly argues against the traditional concept that there is no interce     

Characterization of phosphatidylinositol-specific phospholipase C (PI-PLC) from Lilium daviddi pollen

The phosphatidylinositol-specific phospholipase C (PI-PLC) activity is detected in purified Lilium pollen protoplasts. Two PI-PLC full length cDNAs, LdPLC1 and LdPLC2, were isolated from pollen of Lilium daviddi. The amino acid sequences for the two PI-PLCs deduced from the two cDNA sequences contain X, Y catalytic motifs and C2 domains. Blast analysis shows that LdPLCs have 60-65% identities to the PI-PLCs from other plant species. Both recombinant PI-PLCs proteins expressed in E. coli cells show the PIP(2)-hydrolyzing activity. The RT-PCR analysis shows that both of them are expressed in pollen grains, whereas expression level of LdPLC2 is induced in germinating pollen. The exogenous purified calmodulin (CaM) is able to stimulate the activity of the PI-PLC when it is added into the pollen protoplast medium, while anti-CaM antibody suppresses the stimulation effect caused by exogenous CaM. PI-PLC activity is enhanced by G protein agonist cholera toxin and decreased by G protein antagonist pertussis toxin. Increasing in PI-PLC activity caused by exogenous purified CaM is also inhibited by pertussis toxin. A PI-PLC inhibitor, U-73122, inhibited the stimulation of PI-PLC activity caused by cholera toxin and it also leads to the decrease of [Ca(2+)](cyt) in pollen grains. Those results suggest that the PPI-PLC signaling pathway is present in Lilium daviddi pollen, and PI-PLC activity might be regulated by a heterotrimeric G protein and extracellular CaM.     

Does aluminum inhibit pollen germination via extracellular calmodulin?

The effect of aluminum (Al) on pollen germination and its mechanism of action were investigated. Pollen germination and pollen tube elongation were inhibited by Al at pH 4.5. This inhibitory effect was reversed by the addition of purified calmodulin (CaM), whereas neither the calcium binding-protein S-100 nor Al chelator citric acid at the same concentrations had any obvious effect on Al-inhibited pollen germination. The presence of either the membrane-impermeable CaM inhibitor anti-CaM antiserum or Ca2+ chelator EGTA completely suppressed the effect of exogenous CaM. These results indicate the involvement of extracellular calmodulin in the short-term effects of Al on pollen germination and pollen tube elongation.     

G蛋白调节剂和花柱S-核糖核酸酶对花粉管生长及其钙离子浓度的影响

以‘丰水’和‘幸水’梨花柱及花粉为试材,用激光共聚焦显微技术,研究了离体条件下G蛋白活性调节剂和花柱S-RNA酶对花粉管生长及其游离Ca~(2 )浓度的影响。结果表明:G蛋白激活剂CTX可促进花粉管生长,且可解除花柱S-RNA酶对自身花粉管生长的抑制作用;G蛋白抑制荆PTX和花柱S-RNA酶共同处理使异体的花粉管生长受到抑制。CTX处理使花粉管尖端区的[Ca~(2 )]_i明显升高,花柱S-RNA酶处理引起自身花粉管尖端区的[Ca~(2 )]_i梯度消失;CTX和花柱S-RNA酶共同处理则使自身花粉管内的[Ca~(2 )J_i表现出两者单独处理时的综合特征;而花柱S-RNA酶和PTX共同处理后,异体的花粉管内[Ca~(2 )]_i表现出先升高后下降的趋势。     

G蛋白调节剂对梨花粉萌发及花粉胞内Ca2+浓度变化的影响

用激光共聚焦技术研究了异三聚体G蛋白活性调节剂对梨花粉萌发、花粉管生长及花粉细胞内游离钙离子浓度动态的影响。结果表明：异三聚体G蛋白激活剂霍乱毒素(CTX)可促进梨花粉萌发与花粉管生长,而其抑制剂百日咳毒素(PTX)则抑制花粉萌发与花粉管生长;霍乱毒素处理后,花粉细胞内产生特异性的“钙瞬变”信号,而百日咳毒素处理后则引起花粉细胞内游离钙离子浓度的持续下降。这表明：异三聚体G蛋白可能参与了梨花粉萌发与花粉管生长的调控过程,G蛋白的活性变化对花粉萌发的效应可能是通过调控花粉细胞内游离Ca^2 浓度的动态变化产生特异性的钙信号来实现的。