Functional aspects of mature seed coat of theCannaceae

Cannaceae seeds have been analysed regarding seed coat structure, germination and macromolecular composition of the seed coats. Data of several mass spectrometric techniques were combined with those of microscopic and histochemical techniques to acquire insight into the functions of the seed coat.Cannaceae seeds have an exotestal layer of Malpighian cells with a hydrophobic and a hydrophilic part. The hydrophobic part is mainly responsible for the impermeability of the seed and contains silica, callose, lignin as water repellent substances. Water can only enter the seed after a certain temperature-induced opening of an imbibition lid. During imbibition the hydrophilic part of the Malpighian cells swells and the seed coat ruptures due to differences in pressure in the upper and lower part of the Malpighian cells.     

拟南芥种皮色素形成突变体的筛选与表型鉴定

类黄酮在植物应答各种环境胁迫和种皮发育调控中起着重要作用。通过甲基磺酸乙酯（EMS）诱变筛选获得1个透明种皮突变体,与野生型拟南芥（Arabidopsis thaliana）(Col-0)相比,突变体成熟的种子颜色为黄色,其表型性状由隐性单基因控制。利用图位克隆和精细定位技术将突变基因定位于5号染色体MAH20的BAC上,是TT4(At5G13930)基因的第1 299位碱基C突变为T,使得第324位氨基酸甘氨酸突变为谷氨酸。TT4(transparent testa 4)编码1个类黄酮合成的结构基因查尔酮合酶（CHS）,突变后种皮透明,种子颜色为黄色,突变体命名为tt4-1。利用功能回补突变体恢复褐色种皮表型,进一步证明了TT4在调节种皮颜色发育过程的重要作用。启动子偶联GUS基因组织表达分析显示TT4基因在植株幼苗的根、茎、叶和花中均有表达,生理表型分析结果显示与野生型相比,突变体tt4-1种子萌发早,幼苗主根短、侧根和根毛较多,成苗叶片气孔开度大和失水率高等特性。该研究将为进一步阐述TT4基因功能奠定理论依据。     

种壳厚度对鼠类种子扩散行为及种子命运的影响

种子扩散是植物更新和扩大分布区的一种重要途径。鼠类采取不同的种子扩散和贮藏策略,以应对食物短缺,同时也促进了植物种子扩散。为应对鼠类对植物种子的过度取食,种子进化出了一系列物理、化学等防御特征。其中种壳厚度作为一种物理防御策略,是影响鼠类贮藏行为和种子命运的关键因素。本研究拟通过去除天然栓皮栎（Quercus variabilis）种子的外壳,再在种仁外包被1、2、4、6不同层数的聚乙烯薄膜,模拟种壳厚度,准确控制种壳厚度。2020年10月—2021年1月,在四川都江堰森林生境中释放人工种壳包被的种子,研究人工种壳厚度对鼠类介导的种子扩散和命运的影响。结果表明：（1）鼠类优先扩散种壳较薄（1层薄膜包被）的人工种子;随着种壳厚度的增加,扩散速率逐渐降低,种壳最厚（6层薄膜包被）的种子扩散最慢（P < 0.001）;（2）鼠类喜好分散贮藏1层、2层薄膜包被的种子;当种壳厚度增加至包被4层、6层薄膜时,分散贮藏比例显著降低（P < 0.05）;（3）鼠类偏好集中贮藏4层薄膜包被的种子（P < 0.05）;（4）不同种壳厚度的种子扩散距离无显著差异（P > 0.05）;（5）种壳较薄（1层薄膜包被）的种子分散贮藏率在3 m范围内比例较高。采用聚乙烯薄膜包被是模拟种子外壳的可行方法,并可用于评估种壳厚度对鼠类种子贮藏行为和种子命运的影响等相关研究。     

Water-Pretreatment Squash Technic: A New and Simple Practical Method for the Chromosome Study of Animals

To simplify the staining of animal chromosomes (especially in insect testes) the authors have borrowed (with necessary modifications) the squash technic of plant cytology. The method has four steps: (1) Water pretreatment. This step requires only about 5-10 minutes either in water at room temperature or in water kept at about 38°C. in a water bath. (2) Fixation. Ordinarily only 5 minutes in 10-15% aqueous solution of glacial acetic acid is necessary. (3) Staining. The fixed tissue is rinsed in two or three changes of distilled water and then placed in a solution of basic fuchsin: either 1% in 30% ethyl alcohol, or 0.2-0.4% in 5-10% lactic acid. In the former solution the staining period should be about 2 minutes: in the latter, 5-20 minutes. The time is not critical. (4) Squashing. The material is rinsed in several changes of distilled water, placed on a clean slide and squashed under a cover glass. Such preparations last 4-5 weeks, and a technic is described for removing the cover glass in order to mount in Euparal and to make them permanent. The authors list various species of vertebrates as well as invertebrates in which the technic has given good chromosome staining, as shown by illustrations.     

不同天然居群小檗种子萌发障碍因子研究

以西天山野果林霍城居群、新源居群和特克斯居群黑果小檗以及特克斯居群红果小檗种子为试验材料,研究了4组野生小檗种子生物学特性、吸水特性以及去种皮、低温层积和不同浓度GA₃处理对小檗种子休眠与萌发特性的影响,结果表明：（1）4组野生小檗种子的吸水率均表现出逐渐增加的趋势,黑果小檗种子与红果小檗种子吸水率差异不明显,其种皮透水透气性相似;（2）霍城居群、新源居群和特克斯居群黑果小檗种子的种皮对萌发存在强烈的抑制作用;而新源居群红果小檗种子的种皮抑制作用不明显;（3）4℃低温层积处理对4组野生小檗种子萌发影响很大,随层积时间的增加小檗种子发芽率均逐渐提高,3组黑果小檗种子层积90 d时,休眠基本被解除;红果小檗种子层积30 d时,休眠基本被解除;（4）浓度为200 mg·L^-1的GA₃溶液处理可显著提高4组小檗种子发芽率,浓度过高或过低均会对小檗种子萌发起到抑制作用。层积60 d时霍城居群、新源居群和特克斯居群黑果小檗去种皮种子用200 mg·L^-1的GA₃溶液处理2 h后,发芽率分别为85.00%、83.33%和86.67%;红果小檗层积15 d时去种皮种子用浓度为200 mg·L^-1的GA₃溶液处理后,发芽率可达86.67%。研究结果将为今后野生小檗的种质资源保护,利用及可持续发展提供技术支持和科学依据。     

甘蓝型油菜BnTTG1-1基因的功能分析

拟南芥(Arabidopsis thaliana)AtTTG1作为WD40重复转录因子存在于细胞核中,对表皮毛形成、花青素合成和储藏物质积累等具有重要调节作用。该研究从甘蓝型油菜(Brassica napus)品种秦优7号中克隆获得了BnTTG1-1基因的全长CDS序列,对其进行了烟草(Nicotiana benthamiana)叶片细胞的亚细胞定位研究,检测了BnTTG1-1在油菜(B.campestris)中的时空表达模式,并比较分析了BnTTG1-1对多个生物学过程的影响作用。结果表明,BnTTG1-1定位于烟草叶片细胞的细胞核中,推测其作为转录因子发挥调节作用。BnTTG1-1广泛存在于油菜营养组织和发育的种子中。在突变体ttg1-13背景下,异源表达BnTTG1-1基因能够完全恢复该突变体的多个表型,如无表皮毛形成和花青素合成、种皮呈黄色、种子脂肪酸和储藏蛋白含量高以及在种子萌发和幼苗形态建成过程中对高葡萄糖和高盐胁迫耐受力差等。由此可知,甘蓝型油菜BnTTG1-1与拟南芥AtTTG1在植物生长发育的多个生物学过程中具有类似的功能。     

Morphology and anatomy of physical dormancy in Ipomoea lacunosa: identification of the water gap in seeds of Convolvulaceae (Solanales)

BACKGROUND AND AIMS: Convolvulaceae is the most advanced plant family (asterid clade) that produces seeds with physical dormancy (water-impermeable seed coat). There are several different opinions about the nature of the specialized structure ('water gap') in the seed coat through which water initially enters seeds of Convolvulaceae, but none of them has been documented clearly. The primary aim of the study was to identify the water gap in seeds of Ipomoea lacunosa (Convolvulaceae) and to describe its morphology, anatomy and function. METHODS: Light microscopy, scanning electron microscopy, tissue-sectioning, dye-tracking and blocking experiments were used to describe the morphology, anatomy and function of the water gap in seeds of I. lacunosa. KEY RESULTS: Dormancy-breaking treatments caused slits to form around the two bulges on the seed coat adjacent to the hilum, and dye entered the seed only via the disrupted bulges. Bulge anatomy differs from that of the rest of the seed coat. Sclereid cells of the bulges are more compacted and elongated than those in the hilum pad and in the rest of the seed coat away from the bulges. CONCLUSIONS: The transition area between elongated and square-shaped sclereid cells is the place where the water gap opens. Morphology/anatomy of the water gap in Convolvulaceae differs from that of taxa in the other 11 angiosperm plant families that produce seeds with physical dormancy for which it has been described.     

Seed Structure in Cannaceae: Taxonomic and Ecological Implications

The ovules and seeds of Canna show some striking differencesto those in other zingiberalean families. The pachychalazaldevelopment of the ovule results in a seed of which only a smallpart of the testa is of tegumentary origin. A silicified endotesta,characteristic of the order, is lacking. The mechanical layerof the seed is formed by a continuous exotesta of Malpighiancells. The intact seed coat is impermeable. The seed is ableto absorb water after the raising of a preformed imbibitionlid on the raphe. During imbibition the extotesta loses itshardness, allowing the embryo to emerge. The special structuralfeatures of the seed are discussed in relation to records onthe extreme longevity of Canna seeds. Canna tuerckheimii, C. jaegeriana, C. glauca, pachychalaza, Malpighian cells, imbibition lid, seed longevity     

Extraction of RNA from tissues containing high levels of procyanidins that bind RNA

Commonly used methods for extraction of RNA from plants are not effective for isolation of high quality RNA from the pigmented seed coats of soybeans that produce procyanidins (tannins) during seed coat development. We demonstrate a significant modification of the phenol-LiCl method that yields high quality RNA from a black seed coat variety. In this method, seed coat material was ground in a buffer containing a high concentration of bovine serum albumin (100 mg BSA/50 mg of lyophilized seed coats) to competitively inhibit proanthocyanidin binding. The presence of hydrated insoluble polyvinylpoly-pyrrolidone (PVPP) was also necessary to bind proanthocyanidins and remove them from solution. Proteinase K was added to digest the remaining BSA, and phenol extraction was used to remove both the proteins and small molecular weight complexes formed by BSA and proanthocyanidins. After LiCl and ethanol precipitations, the RNA quality was examined by UV absorbance spectra, gel electrophoresis, and hybridization. Using this method, good quality RNA can be extracted from pigmented seed coats of soybean varieties that are homozygous for the recessivei allele and also contain the dominantT gene that results in production of procyanidins in the seed coat. The method is also effective for tissues from other plant species that contain abundant polyphenolic compounds.     

A Cascade of Sequentially Expressed Sucrose Transporters in the Seed Coat and Endosperm Provides Nutrition for the Arabidopsis Embryo

Developing plant embryos depend on nutrition from maternal tissues via the seed coat and endosperm, but the mechanisms that supply nutrients to plant embryos have remained elusive. Sucrose, the major transport form of carbohydrate in plants, is delivered via the phloem to the maternal seed coat and then secreted from the seed coat to feed the embryo. Here, we show that seed filling in Arabidopsis thaliana requires the three sucrose transporters SWEET11, 12, and 15. SWEET11, 12, and 15 exhibit specific spatiotemporal expression patterns in developing seeds, but only a sweet11;12;15 triple mutant showed severe seed defects, which include retarded embryo development, reduced seed weight, and reduced starch and lipid content, causing a “wrinkled” seed phenotype. In sweet11;12;15 triple mutants, starch accumulated in the seed coat but not the embryo, implicating SWEET-mediated sucrose efflux in the transfer of sugars from seed coat to embryo. This cascade of sequentially expressed SWEETs provides the feeding pathway for the plant embryo, an important feature for yield potential.     

金鱼、八目鳗和蟾蜍蝌蚪表皮Malpighian细胞超微结构的比较研究

本文对50只金鱼、5只八目鳗和10只蟾蜍蝌蚪的表皮做了电镜研究。在八目鳗和蝌蚪都观察到了典型的带微嵴的Malpighian细胞,而金鱼只在无鳞皮区观察到这种带微嵴的Malpighian细胞或称微嵴细胞。认为,微嵴细胞只见于无鳞皮,细胞表面的微嵴是一恒定性结构。并对其机能进行了讨论。     

Continuous In Vivo Measurement of Carbon Partitioning within Whole Plants

A method of continuous in vivo measurement of photo-assimilatepartitioning within an intact plant is proposed. The methodis demonstrated by analysis of photo-assimilate movement betweena pea pod to a single ovule and then to solution bathing thesurgically modified seed coat Key words: Photo-assimilate partitioning, partitioning coefficient, seed coat unloading, systems identification     

Field cage assessment of interference among insects attacking seed heads of spotted and diffuse knapweed

Field studies were conducted to determine the competitive interactions between introduced biological control agents that attack the seed heads of spotted knapweed (Centaurea stoebe ssp. micranthos) and diffuse knapweed (Centaurea diffusa). Two weevils, Bangasternus fausti and Larinus minutus (Coleoptera: Curculionidae), were each paired with the previously established fly, Urophora affinis (Diptera: Tephritidae). Each species was released either alone or in pair-wise combinations inside screen cages placed over existing knapweed plants at six field sites in Montana and one in Oregon. Larinus minutus produced almost three times as many progeny on diffuse knapweed as on spotted knapweed. Larinus minutus reproduction was not affected by competition with U. affinis, but U. affinis reproduction was reduced by the presence of L. minutus (by 71% on spotted and 77% on diffuse knapweed). Bangasternus fausti reproduction generally was not affected by competition with U. affinis, nor was U. affinis affected by B. fausti on either host plant. There were extremely few cases of successful production of both weevil and fly in the same capitulum, which was probably because weevil larvae consume the developing flies. Both weevils increased the total proportion of seed heads infested on diffuse knapweed, and B. fausti increased it on spotted knapweed. However, the release of either weevil did not significantly further reduce seed production on either plant. The results and experimental design are discussed in light of the subsequent establishment and impact of these agents.     

Differentiation of mucilage secretory cells of the Arabidopsis seed coat

In some plant species, including Arabidopsis, fertilization induces the epidermal cells of the outer ovule integument to differentiate into a specialized seed coat cell type with a unique morphology and containing large quantities of polysaccharide mucilage (pectin). Such seed coat mucilage cells are necessary for neither viability nor germination under normal laboratory conditions. Thus, the Arabidopsis seed coat offers a unique system with which to use genetics to identify genes controlling cell morphogenesis and complex polysaccharide biosynthesis and secretion. As a first step in the application of this system, we have used microscopy to investigate the structure and differentiation of Arabidopsis seed coat mucilage cells, including cell morphogenesis and the synthesis, secretion, and extrusion of mucilage. During seed coat development in Arabidopsis, the epidermal cells of the outer ovule integument grow and differentiate into cells that produce large quantities of mucilage between the primary cell wall and plasma membrane. Concurrent with mucilage production, the cytoplasm is shaped into a column in the center of the cell. Following mucilage secretion the cytoplasmic column is surrounded by a secondary cell wall to form a structure known as the columella. Thus, differentiation of the seed coat mucilage cells involves a highly regulated series of events including growth, morphogenesis, mucilage biosynthesis and secretion, and secondary cell wall synthesis.     

Seed coat cell turgor in chickpea is independent of changes in plant and pod water potential

Turgor pressure in cells of the pod wall and the seed coat of chickpea (Cicer arietinum L.) were measured directly with a pressure probe on intact plants under initially dry soil conditions, and after the plants were irrigated. The turgor pressure in cells of the pod wall was initially 0.25 MPa, and began to increase within a few minutes of irrigation. By 2-4 h after irrigation, pod wall cell turgor had increased to 0.97 MPa. This increase in turgor was matched closely by increases in the total water potential of both the pod and the stem, as measured by a pressure chamber. However, turgor pressure in cells of the seed coat was relatively low (0.10 MPa) and was essentially unchanged up to 24 h after irrigation (0.13 MPa). These data demonstrate that water exchange is relatively efficient throughout most of the plant body, but not between the pod and the seed. Since both the pod and the seed coat are vascularized tissues of maternal origin, this indicates that at least for chickpea, isolation of the water relations of the embryo from the maternal plant does not depend on the absence of vascular or symplastic connections between the embryo and the maternal plant.     

Morphology and ultrastructure of isolated gemmae of Drosera pygmaea and their in vitro germination

Gemma morphology, histology and ultrastructure before and after germination in vitro were studied in Drosera pygmaea. The histology of the gemma is similar to that of a seed, being characterized by an embryo-like structure and storage tissue, although no seed coat is formed. One embryo-like structure within the gemma, which gives origin to a new plant, expresses polar organisation with distinct meristematic regions. Storage tissue surrounding the embryo-like structure resembles endosperm and it is built of parenchyma cells possessing plastids with starch grains and dense material within vacuoles. The regeneration from the gemma may provide useful system to study plant morphogenesis under stress conditions including in vitro culture. This revised version was published online in July 2006 with corrections to the Cover Date.     

Seed coat structure and development in Solanum L. section Solanum (Solanaceae)

Seed coat structure in Solanum L. section Solanum (Solanaceae). Seed coat structure in Solanum L. section Solanum was examined using SEM. The seed coat patterns observed were fairly uniform throughout the section, and thus of little diagnostic use. Moreover, all species are characterized by their seeds being covered by hairlike structures, which are bands of lignified thickening in the lateral (and basal) walls of the outer epidermal cells of the testa, and which only become obvious when the seeds are wetted. The development of the seed coat and its characteristic thickening was followed from the unfertilized ovule to the mature seed in vouchered material of Solanum nigrum L. since this species is the generic type, using sections of freshly fixed material.     

Proteomic Profiling of the Aleurone Layer of Mature Arabidopsis thaliana Seed

The aleurone layer of mature Arabidopsis thaliana seed plays important roles in seed germination and dormancy. However, the proteomic profile of this cell layer is unknown partly because it is difficult to separate this thin cell layer from the mature seeds. In this study, we have used a simple technique to separate the aleurone layer along with the seed coat following germination of seeds and determined for the first time the putative protein composition of this cell layer. By subjecting the total proteins extracted from the seed coat to 2D gel electrophoresis followed by liquid chromatography/tandem mass spectrometry, we identified four AGI loci, AT4G28520, AT5G44120, AT1G03880, and AT1G03890; all of which belong to the seed storage family of proteins. Because in Arabidopsis the diploid aleurone cells of the seed coat perform protein storage functions similar to that of triploid endosperm of other plant species, it is assumed that the above AGI loci are associated with the aleurone layer of the seed coat.     

土壤养分对菊科一年生入侵种和本地种繁殖性状的影响

入侵植物繁殖性状的研究可为揭示植物入侵机制提供重要的科学依据。为研究土壤养分对入侵植物和本地植物繁殖性状的影响, 并进一步研究养分添加是否更能促进入侵植物的繁殖能力, 我们设置了低、高两个养分水平, 通过同质园实验比较了不同土壤养分对假臭草(Praxelis clematidea)、胜红蓟(Ageratum conyzoides)、三叶鬼针草(Bidens pilosa) 3种菊科一年生入侵种和夜香牛(Vernonia cinerea)、一点红(Emilia sonchifolia)、墨旱莲(Eclipta prostrata) 3种本地种繁殖性状的影响。研究结果显示, 养分添加提高了6种菊科植物的开花株高、株高、地上生物量、单粒种子重量、总花序数、每花序种子数、总种子数量、总种子重量, 并使开花时间提前、花期延长。养分添加对入侵种的开花株高和单粒种子重量的提高幅度要比本地种更显著。相对于部分本地植物(夜香牛、墨旱莲), 养分添加更能促进部分入侵植物(假臭草、胜红蓟)的繁殖能力。三叶鬼针草和一点红的总种子数量和总种子重量在两种土壤养分水平下均较小。本地种墨旱莲的总种子数量和总种子重量在低养分条件下高于3个入侵种。这些结果表明, 高土壤养分仅能促进部分入侵植物相对于部分本地植物的繁殖能力。