989 resultados para mutant (arabidopsis, male sterility)
Resumo:
Seven new male-sterile mutants (ms7–ms13) of Arabidopsis thaliana (L.) Heynh. (ecotype columbia) are described that show a postmeiotic defect of microspore development. In ms9 mutants, microspores recently released from the tetrad appear irregular in shape and are often without exines. The earliest evidence of abnormality in ms12 mutants is degeneration of microspores that lack normal exine sculpturing, suggesting that the MS12 product is important in the formation of pollen exine. Teratomes (abnormally enlarged microsporocytes) are also occasionally present and each has a poorly developed exine. In ms7 mutant plants, the tapetal cytoplasm disintegrates at the late vacuolate microspore stage, apparently causing the degeneration of microspores and pollen grains. With ms8 mutants, the exine of the microspores appears similar to that of the wild type. However, intine development appears impaired and pollen grains rupture prior to maturity. In ms11 mutants, the first detectable abnormality appears at the mid to late vacuolate stage. The absence of fluorescence in the microspores and tapetal cells after staining with 4′,6-diamidino-2-phenylindole (DAPI) and the occasional presence of teratomes indicate degradation of DNA. Viable pollen from ms10 mutant plants is dehisced from anthers but appears to have surface abnormalities affecting interaction with the stigma. Pollen only germinates in high-humidity conditions or during in-vitro germination experiments. Mutant plants also have bright-green stems, suggesting that ms10 belongs to the eceriferum (cer) class of mutants. However, ms10 and cer6 are non-allelic. The ms13 mutant has a similar phenotype to ms10, suggesting is also an eceriferum mutation. Each of these seven mutants had a greater number of flowers than congenic male-fertile plants. The non-allelic nature of these mutants and their different developmental end-points indicate that seven different genes important for the later stages of pollen development have been identified.
Resumo:
Pollen abortion occurs in virtually all species and often does not prejudice reproductive success. However, large numbers of abnormal pollen grains are characteristic of some groups. Among them is Miconia, in which partial and complete male sterility is often related to apomixis. In this study, we compared the morphology of pollen grains over several developmental stages in Miconia species with different rates of male sterility. Our aim was to improve the knowledge of mechanisms that lead to male sterility in this ecologically important tropical group. Routine techniques for microscopy were used to examine anthers in several developmental stages collected from the apomictic species Miconia albicans and M. stenostachya. Both species are completely male sterile since even the pollen grains with apparently normal cytoplasm were not able to develop a pollen tube. Meiosis is a rare event in M. albicans anthers and happens in an irregular way in M. stenostachya, leading to the pollen abortion. M. albicans has more severe abnormalities than M. stenostachya since even the microspores and pollen grain walls were affected. Moreover, in M. stenostachya, most mitosis occurring during microgametogenesis was also abnormal, leading to the formation of bicellular pollen grains with two similar cells, in addition to the formation of pollen grains of different sizes. Notably, abnormalities in both species did not reach the production of Ubisch bodies, suggesting little or no tapetum involvement in male sterility in these two species.
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Jasmonic acid (JA) and its precursor 12-oxophytodienoic acid (OPDA) act as plant growth regulators and mediate responses to environmental cues. To investigate the role of these oxylipins in anther and pollen development, we characterized a T-DNA-tagged, male-sterile mutant of Arabidopsis, opr3. The opr3 mutant plants are sterile but can be rendered fertile by exogenous JA but not by OPDA. Cloning of the mutant locus indicates that it encodes an isozyme of 12-oxophytodienoate reductase, designated OPR3. All of the defects in opr3 are alleviated by transformation of the mutant with an OPR3 cDNA. Our results indicate that JA and not OPDA is the signaling molecule that induces and coordinates the elongation of the anther filament, the opening of the stomium at anthesis, and the production of viable pollen. Just as importantly, our data demonstrate that OPR3 is the only isoform of OPR capable of reducing the correct stereoisomer of OPDA to produce JA required for male gametophyte development.
Resumo:
The Bateson-Dobzhansky-Muller model posits that hybrid incompatibilities result from genetic changes that accumulate during population divergence. Indeed, much effort in recent years has been devoted to identifying genes associated with hybrid incompatibilities, often with limited success, suggesting that hybrid sterility and inviability are frequently caused by complex interactions between multiple loci and not by single or a small number of gene pairs. Our previous study showed that the nature of epistasis between sterility-conferring QTL in the Drosophila persimilis-D. pseudoobscura bogotana species pair is highly specific. Here, we further dissect one of the three QTL underlying hybrid male sterility between these species and provide evidence for multiple factors within this QTL. This result indicates that the number of loci thought to contribute to hybrid dysfunction may have been underestimated, and we discuss how linkage and complex epistasis may be characteristic of the genetics of hybrid incompatibilities. We further pinpoint the location of one locus that confers hybrid male sterility when homozygous, dubbed "mule-like", to roughly 250 kilobases.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Extracellular invertase mediates phloem unloading via an apoplastic pathway. The gene encoding isoenzyme Nin88 from tobacco was cloned and shown to be characterized by a specific spatial and temporal expression pattern. Tissue-specific antisense repression of Nin88 under control of the corresponding promoter in tobacco results in a block during early stages of pollen development, thus, causing male sterility. This result demonstrates a critical role of extracellular invertase in pollen development and strongly supports the essential function of extracellular sucrose cleavage for supplying carbohydrates to sink tissues via the apoplast. The specific interference with phloem unloading, the sugar status, and metabolic signaling during pollen formation will be a potentially valuable approach to induce male sterility in various crop species for hybrid seed production.
Resumo:
In higher plants, dominant mitochondrial mutations are associated with pollen sterility. This phenomenon is known as cytoplasmic male sterility (CMS). It is thought that the disruption in pollen development is a consequence of mitochondrial dysfunction. To provide definitive evidence that expression of an abnormal mitochondrial gene can interrupt pollen development, a CMS-associated mitochondrial DNA sequence from common bean, orf239, was introduced into the tobacco nuclear genome. Several transformants containing the orf239 gene constructs, with or without a mitochondrial targeting sequence, exhibited a semi sterile or male-sterile phenotype. Expression of the gene fusions in transformed anthers was confirmed using RNA gel blotting, ELISA, and light and electron microscopic immunocytochemistry. Immunocytological analysis showed that the ORF239 protein could associate with the cell wall of aberrant developing microspores. This pattern of extracellular localization was earlier observed in the CMS common bean line containing orf239 in the mitochondrial genome. Results presented here demonstrate that ORF239 causes pollen disruption in transgenic tobacco plants and may do so without targeting of the protein to the mitochondrion.
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Abscisic acid (ABA) modulates the activities of three major classes of ion channels--inward- and outward-rectifying K+ channels (IK,in and IK,out, respectively) and anion channels--at the guard-cell plasma membrane to achieve a net efflux of osmotica and stomatal closure. Disruption of ABA sensitivity in wilty abi1-1 mutants of Arabidopsis and evidence that this gene encodes a protein phosphatase suggest that protein (de)-phosphorylation contributes to guard-cell transport control by ABA. To pinpoint the role of ABI1, the abi1-1 dominant mutant allele was stably transformed into Nicotiana benthamiana and its influence on IK,in, IK,out, and the anion channels was monitored in guard cells under voltage clamp. Compared with guard cells from wild-type and vector-transformed control plants, expression of the abi1-1 gene was associated with 2- to 6-fold reductions in IK,out and an insensitivity of both IK,in and IK,out to 20 microM ABA. In contrast, no differences between control and abi1-1 transgenic plants were observed in the anion current or its response to ABA. Parallel measurements of intracellular pH (pHi) using the fluorescent dye 2',7'-bis(2-carboxyethyl)-5-(and -6)-carboxyfluorescein (BCECF) in every case showed a 0.15- to 0.2-pH-unit alkalinization in ABA, demonstrating that the transgene was without effect on the pHi signal that mediates in ABA-evoked K+ channel control. In guard cells from the abi1-1 transformants, normal sensitivity of both K+ channels to and stomatal closure in ABA was recovered in the presence of 100 microM H7 and 0.5 microM staurosporine, both broad-range protein kinase antagonists. These results demonstrate an aberrant K+ channel behavior--including channel insensitivity to ABA-dependent alkalinization of pHi--as a major consequence of abi1-1 action and implicate AB11 as part of a phosphatase/kinase pathway that modulates the sensitivity of guard-cell K+ channels to ABA-evoked signal cascades.
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Male fertility in flowering plants is dependent on production of viable pollen grains within the anther. Genes expressed exclusively in the anther are likely to include those that control male fertility. On the basis of their tissue specificity, such genes have been isolated, yet in none of them has this function been demonstrated. Here we report that one such gene, Bcp1, is active in both diploid tapetum and haploid microspores and is required for pollen fertility. Perturbation of this gene in either tapetum or microspores prevents production of fertile pollen in transgenic Arabidopsis plants. When tapetum expression of this gene is perturbed, mature anthers contain dead shriveled pollen. On the other hand, when microspore expression is perturbed, anthers show 1:1 segregation of viable/aborted pollen. These findings identify a class of sporophytic/gametophytic genes controlling male fertility and, hence, reproduction in flowering plants.
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Gibel carp ( Carassius auratus gibelio) is a uniquely gynogenetic species with a minor ratio of males in natural habitats, but its male origin and sex determination mechanisms have been unknown. In this study, a male-biased mutant family was discovered from the gynogenetic gibel carp, and a male-specific SCAR marker was identified from the mutant family. Normal spermatogenesis was observed in the male testes by immuno. fluorescence histochemistry. Nearly identical AFLP profiles were observed between males and females, but a male-specific 86 bp AFLP fragment was screened by sex-pool bulked segregant analysis and individual screening. Based on the male-specific AFLP fragment, a total of 579 bp sequences were cloned by genome walking. Subsequently, a male-specific SCAR marker was designed, and the male-specific DNA fragment was confirmed to be steadily transmitted to the next generation and consistently detected only in males. (C) 2009 National Natural Science Foundation of China and Chinese Academy of Sciences. Published by Elsevier Limited and Science in China Press. All rights reserved.
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本文报道了在育性转换敏感期光周期处理对光敏核不育水稻(农垦58S)及农垦58最新全展叶中光敏色素Ⅰ(PhyA)水平的影响PartI).在10个光周期处理的最后一个暗期结束前,收获每株水稻的最上部二叶。PhyA用酶联免疫吸附测定法(ELISA)测定。 结果表明:0.5%(v/v)聚乙烯亚胺(PEI)可除去水稻叶片粗提液中干扰ELISA的物质;所用的ELISA专一性地检测水稻PhyA。和长日照(LD)处理相比,短日照(SU)处理导致农垦58S中PhyA的相对含量增加38.5%;而农垦58只增加18.5%。显然,在较长的暗期条件下(SD),农垦58S中PhyA的合成比农垦58快。SD处理下大量增加的PhyA可能和农垦58S的育性恢复有关。 上述结果也说明:在同一品种甚至不同品种的植株间,PhyA水平均易受光周期影响而剧烈变化。 为了进一步验证农垦58S中PhyA较快积累的推论,比较了农垦58s和农垦58幼苗(三叶期)在一延长暗期(24h)中PhyA的积累时程。和育性转换敏感期的植株相似,农垦58S幼苗中PhyA积累速度快于农垦58。在暗期开始6h后,这种差异更明显。这一结果证实了过去的假设:甲基化水平低的农垦58PhyA基因可能比农垦58PhyA基因更活跃地表达。 PhyA和PhyB同时存在于水稻叶片中。为了探讨PhyB是否参与农垦58S雄性不育的调节,在育性转换敏感期每日光期结束、暗期开始开始前进行短暂的FR照射实验(即end-of- dayFR irradiations)。EOD FR反应应由PhyB介导。和SD下的对照相比,经过10次EODFR处理(EOD FR+SD)的农垦58S植株抽穗和开花期都相应地推迟2天,而花粉败育率和种子结实率都没有变化。 EODFR处理抑制了农垦58的开花,但花粉育性几乎不受影响。 综上所述,可能是PhyA而不是PhyB参与调节农垦58S的雄性不育。 另外,本文采用免疫印迹(Immunoblotting or Western blotting)比较了农垦58S和农垦58黄化苗(3天龄)中PhyA的相对含量(PartⅡ)。 结果表明,RPA可以专一性地检测两品种中120KD多肽。该肽在照射R或FR后对内源蛋白酶水解的敏感性不同,照射FR后,该肽易降解产生116KD的片段;照射R后,相对较稳定。因此,上述120KD多肽是水稻PhyA。未观察到农垦58S和农垦58的PhyA在免疫原性、分子量及内源蛋白酶解水解带型有差异。定量分析表明农垦58s黄化苗中PhyA的相对含量比农垦58多40%。这一结果和上述光周期处理的结果是相辅相成的。由于干种子、以及吸涨36h以前的水稻胚中均检测不PhyA的存在,因此两品种间PhyA含量的差异是PhyA蛋白重新合成的结果。 活体低温(80K)荧光光谱分析表明:农垦58黄化苗(3天龄)具有典型光敏色素(主要为PhyA)的荧光发射,其最大波长为683.8nm,而农垦58S以及由其转育来的培矮64s都缺少明显的光敏色素峰。显然,农垦58S和农垦58的PhyA荧光光谱特性有所不同。这一差异是否和雄性不育有关仍待深入研究。 本文第三部分比较了农垦58S和农垦58黄化苗(6天龄)最初转到白光下(4h)合成叶绿素的情况。无论是短暂红光(R)处理或对照,农垦58幼苗合成叶绿素的量(在白光下4h)都多于农垦58S。由于R促进叶绿素合成的效果可被随后的远红光照射(FR)逆转,因此水稻幼苗中叶绿素合成是在光敏色素的控制下。FR逆转性在农垦58S中似乎更完全。连续FR(12h最有效)促进叶绿素合成的效果在农垦58S中更明显,但叶绿素合成的量(在白光下4h)仍是农垦58多。然而,对于自然光周期下生长的幼苗(2-4叶期),农垦58S的叶绿素含量明显高于农垦58。文中讨论了这种差异的可能原因。
