珊瑚菜中香豆素的组织化学定位

利用冷冻切片技术和常规石蜡制片技术,分别通过荧光显微镜和光学显微镜对珊瑚菜的根、叶片、叶柄等部位中的香豆素进行了组织化学定位。研究表明:香豆素存在于珊瑚菜的分泌道中,在荧光显微镜下发蓝色荧光;分泌道广泛分布于植物体中,在根中,分布在次生韧皮部中;在叶片中,分布在叶脉的薄壁组织中;在叶柄中,分布在维管束周围以及厚角组织内侧的薄壁组织中。     

白花前胡营养器官结构及其分泌道分布规律的研究

运用石蜡切片方法,观察白花前胡营养器官的显微结构及其分泌道的分布特征,以明确营养器官内分泌结构的分布规律,为揭示白花前胡次生代谢产物的积累提供解剖学依据。结果表明,(1)白花前胡成长根从外到内由周皮、中柱鞘薄壁组织和次生维管组织组成,而且中柱鞘薄壁组织不同于一般双子叶植物根的结构;茎从外到内由表皮、皮层和维管柱组成;叶为异面叶结构。(2)白花前胡根、茎及叶中均有分泌道存在,分泌道在根中分布于中柱鞘薄壁组织和次生韧皮部中,茎中分布于皮层和髓中,叶中分布于维管束上下两侧的薄壁组织中。     

火炬树分泌道的发育解剖学研究

本文报道了火炬树分泌道的结构、分布和发育。火炬树的分泌道是由一层分泌细胞及其外侧1—5层薄壁组织细胞组成的鞘细胞所包围。分泌道主要分布于根、茎、叶、花和果实的维管束的韧皮部内,此外,在茎的髓部也存在散生的分泌道。各类器官中的分泌道都以裂生方式发育;营养器官中的分泌道先于维管分子分化,生殖器官中的则后于维管分子的分化。     

青麸杨分泌道的解剖学研究

报道了育麸杨分泌道的结构、分布和发育。青麸杨的分泌道是由14—41个分泌细胞围绕细胞间隙而成的腔道,分泌细胞外侧又被多层扁平的鞘细胞所包围。青麸杨的分泌道主要分布于根、茎、叶、花和果实的维管束的韧皮部内,此外,茎的髓中也有少量分泌道,分泌道位于木质部脊处的薄壁组织内,排列成一圈。青麸杨各器官中的分泌道的发生方式一致,都是裂生方式起源的。     

七叶一枝花根的显微结构及其内生真菌分布研究

本文采用石蜡永久制片和光学显微摄像的方法对七叶一枝花Parispolyphylla根的显微结构及其内生真菌的分布进行了研究。结果表明,七叶一枝花的根茎由栓皮层、薄壁组织及维管组织组成,其中栓皮层由4层细胞组成;薄壁组织的细胞含有丰富的营养物质,其内有时分布有针状结晶束。不定根由表皮层、皮层、内皮层及维管束构成,表皮上有根毛,皮层所占根径的比例达80%以上;木质部为三原型。在七叶一枝花的根茎和不定根的皮层细胞中均有内生真菌的分布。真菌由表皮、外皮层侵入到皮层薄壁组织,在皮层薄壁细胞中形成菌丝结,并扩展成一定的侵染区域,部分皮层细胞中菌丝结已被消化吸收。内生真菌只侵染皮层薄壁细胞,不侵染维管柱。七叶一枝花可以通过消化细胞内的菌丝作为营养的来源之一。     

薄荷花蜜腺的发育解剖学研究

薄荷的花蜜腺位于花盘上,属花盘蜜腺。蜜腺由分泌表皮、产蜜组织组成,其下分布有通向子房壁的维管束。分泌表皮的角质层薄,具腺细胞特征,气孔发育正常。产蜜组织为２－３层细胞组成,与其内的薄壁组织有明显区别。蜜腺由花盘发育中表皮及其内的细胞分化发育而成。在开花前后,分泌表皮和产蜜组织的细胞内液泡和淀粉粒呈有规律的变化。蜜汁以渗透方式从表皮细胞直接渗出。     

油松含树脂细胞组织化学和细胞化学研究

油松茎端的皮层薄壁组织和幼茎木薄壁组织中具含树脂细胞分布,在光学显微镜下观察,硫酸奈尔兰染色的切片,发现树脂滴分布于细胞质中,在电子显微镜下观察狐染色切片,发现树脂滴分布于细胞的线粒体,高尔基体,内质网,核膜和小液泡中,同时也分布于质膜两边。从形态演化分析含树脂细胞在树脂分泌结构中属原始类型,由它演化为树脂道。     

鸭儿芹不同器官分泌道结构及分布的比较解剖研究

采用石蜡切片法对伞形科鸭儿芹(Cryptotaenia japonica Hassk. )全株不同器官分泌道的结构及分布特征进行了观察研究.观察结果显示,在鸭儿芹的根、茎、叶和果实各部位均有分泌道,其中果实分泌道特化为油管.分泌道多由1层明显小于周围薄壁细胞的分泌细胞组成,不同器官中分泌道的管腔和分泌细胞均大小不等、形状不一.组成根中分泌道的分泌细胞较少,多为4～5个;茎中较多,为6～9个,有时多达12～14个;组成叶片分泌道的分泌细胞数差异最大,叶脉中多达22个,叶肉中仅为3个.从横切面上看,根系中的分泌道仅分布在主根和一级侧根的近周皮处,以及主根的韧皮部外侧和髓部;茎中分泌道分布于近表皮处的厚角组织之间、大厚角组织与韧皮部之间和靠近木质部的髓部;叶鞘和叶柄的分泌道位于小厚角组织内侧的顶端、大厚角组织与韧皮部之间和木质部周围,其中在叶鞘中的2个厚角组织之间也有分泌道分布;在叶片的主脉及大侧脉中,分泌道分布于维管束与上下表皮的厚角组织之间,栅栏组织中也有少量分泌道;在果实中,油管分布于内果皮与中果皮之间,多位于棱槽和合生面部位.此外,根和茎中的分泌道具有2种明显不同的分布式样;叶鞘远、近轴面部位分泌道的分布式样分别兼有茎近表皮皮层部位和叶柄维管束木质部部位的特点,具有明显的从茎向叶柄的过渡性;在果实的果棱维管束下方和2个油管之间还有2层油细胞几乎环果体分布,这种结构在伞形科种类中比较少见,值得进一步研究.     

不同栽培年限伊贝母组织化学研究

目的:研究伊贝母鳞茎组织结构及主要药用成分在鳞茎中的分布部位。方法:采用植物解剖学和组织化学方法对不同栽培年限伊贝母鳞茎的显微组织结构以及生物碱、皂苷成分的分布进行观察研究。结果:伊贝母鳞茎主要由表皮、皮层薄壁组织、有限外韧型维管束组成。维管束的数目在伊贝母种间上有一定的差异,新疆贝母的维管束数目略大于伊犁贝母;生物碱主要存在于不同栽培年限伊贝母鳞茎的皮层薄壁组织细胞及维管束周围的薄壁组织细胞上,其总生物碱含量从高到低的顺序为:3年生的伊贝母≥4年生的伊贝母5年生的伊贝母;皂苷主要存在于不同栽培年限伊贝母鳞茎的表皮细胞和维管束周围的薄壁组织细胞上,其总皂苷含量从高到低的顺序为:5年生的伊贝母≥4年生的伊贝母3年生的伊贝母,在种间及同种植物的不同栽培年限或不同组织结构中,其生物碱与皂苷的含量存在差异。其中,以4年生伊贝母药材中的生物碱与皂苷含量较高,表明其药用价值也较高,因此推断第4年为最佳采收期。结论:伊贝母鳞茎中大量薄壁细胞是主要药用成分的分布部位,同时研究结果可为合理采收提供依据。     

油松茎初生结构中树脂道发育的研究

油松茎初生结构中的树脂道是裂生的胞间道,分布在皮层和初生木质部内。皮层树脂道原始细胞团起始于茎端下约140微米处原形成层束两侧的基本分生组织中。在原生韧皮部最早的筛胞分化形成时出现裂生腔隙。其裂隙直径的进一步扩大主要依靠鞘细胞插入到上皮细胞之间和上皮细胞本身的切向伸长。成熟的树脂道近园形,四周由9～16个上皮细胞包被,其外为1～2层鞘细胞。茎的初生结构内树脂道位于皮层内侧的薄壁组织中,通常为8个,排列成一圈。叶迹进入叶子时,其两侧的每一个树脂道也二叉分枝,其一与叶迹一起进入叶子。初生木质部树脂道起源于原形成层细胞,在初生维管组织分化后期才开始发育。每个维管束的初生木质部一般只有一个树脂道。季节的变化对皮层树脂道的形成过程有一定的影响。在一年的不同季节中,从春季到秋季所形成的树脂道出现孔径逐渐变大,上皮细胞的数目和鞘细胞的层数逐渐增多,茎内树脂道的数目增加等变化。     

狭叶柴胡各器官结构与其分泌道的分布规律

采用石蜡切片法对狭叶柴胡全株不同器官的结构及各器官中分泌道的分布特征进行了解剖学观察研究.结果表明:(1)狭叶柴胡的主根从外向内由周皮、中柱鞘薄壁细胞环和次生维管组织组成,其中柱鞘薄壁细胞环是不同于一般双子叶植物根的一种结构;茎从外到内由表皮、皮层和维管柱组成;叶为等面叶,其上、下表皮内都具栅栏组织;花主要由花瓣、雄蕊...     

Leaf blade structure of Verbesina macrophylla (Cass.) F. S. Blake (Asteraceae): ontogeny,duct secretion mechanism and essential oil composition

• Secretory structures are common in Asteraceae, where they exhibit a high degree of morphological diversity. The species Verbesina macrophylla, popularly known as assa‐peixe, is native to Brazil where it is widely used for medicinal purposes. Despite its potential medical importance, there have been no studies of the anatomy of this species, especially its secretory structures and secreted compounds. This study examined leaves of V. macrophylla with emphasis on secretory structures and secreted secondary metabolites.
• Development of secretory ducts and the mechanism of secretion production are described for V. macrophylla using ultrastructure, yield and chemical composition of its essential oils.
• Verbesina macrophylla has a hypostomatic leaf blade with dorsiventral mesophyll and secretory ducts associated with vascular bundles of schizogenous origin. Histochemistry identified the presence of lipids, terpenes, alkaloids and mucopolysaccharides. Ultrastructure suggests that the secretion released into the duct lumen is produced in plastids of transfer cells, parenchymal sheath cells and stored in vacuoles in these cells and duct epithelial cells. The essential oil content was 0.8%, and its major components were germacrene D, germacrene D‐4‐ol, β‐caryophyllene, bicyclogermacrene and α‐cadinol.
• Secretory ducts of V. macrophylla are squizogenous. Substances identified in tissues suggest that both secretions stored in the ducts and in adjacent parenchyma cells are involved in chemical defence. The essential oil is rich in sesquiterpenes, with germacrene D and its derivatives being notable components.

     

Distribution, Development and Structure of Resin Ducts in Guayule (Parthenium argentatum Gray)

The distribution, development and structure of resin ducts inguayule (Parthenium argentatum Gray), the second best sourceof natural rubber, have been studied. Resin ducts are widelydistributed in stem, root, leaf, petiole and peduncle. The ductsin the primary tissues are initiated schizogenously and theirfurther development is schizolysigenous. The ducts in the cortexof the root do not have a well-defined epithelium. Ducts developedfrom the vascular cambium are initiated and develop schizogenously.Both resin and rubber are produced in the epithelial cells ofresin ducts. While resin is secreted into the duct lumen, rubberis stored within these cells. Epithelial cells store more thanneighbouring parenchyma cells. Guayule, rubber, resin, ducts, epithelial cells     

石蒜属12 种植物叶片比较解剖学研究

 对石蒜属( Lycoris Herb. ) 12 种植物叶片的比较解剖学研究表明: (1) 石蒜属植物叶片横切面的端部、中部及基部的轮廓基本呈浅“W”或“V”字型, 有些种的表皮细胞上具有明显的尖刺状乳突; ( 2)石蒜属植物均为异面叶, 叶肉组织有一定的栅栏组织和海绵组织分化, 但二者的厚度、叶肉中所占比例及栅栏组织的细胞层数在种间有一定的差异; (3) 海绵组织发达、具有大而明显的薄壁细胞或细胞裂溶后形成空腔(分泌腔或气腔); (4) 叶片中维管束数目大多为奇数, 叶脉维管束鞘由薄壁细胞组成; (5) 石蒜属植物横切面上叶缘的形状分为圆弧形和楔形两种类型。石蒜属植物叶的解剖结构具有许多相似特征; 同时又具有一定的种间差异, 可为石蒜属植物的种间关系和开发利用提供有价值的信息。     

Ultrastructure of the submandibular gland in the rabbit

The secretory endpieces of the rabbit submandibular gland are unusual in that they consist of seromucous acini (not demilunes) that empty into serous tubules that in turn drain into intercalated ducts. Seromucous granules consist of a moderately dense spherule in a fibrillogranular matrix. Serous granules contain a feltwork of filaments, which are liberated as a tangled skein during exocytosis. Peculiar granulated cells that have secretory granules of complex morphology are present at each end of the serous tubules. Intercalated ducts are, cytologically speaking, relatively simple, but the duct cells may contain a few oblong secretory granules. Striated ducts are typical in structure, although postfixation with ferrocyanide-reduced osmium reveals significant amounts of glycogen in the basal processes. Modified mitochondria are present in striated duct cells, but their frequency varies from rabbit to rabbit. Such mitochondria contain either an array of parallel, rigid cristae linked by intermembranous bridges, or a bundle of helical filaments within an expanded crista. Interspersed with the striated duct cells, especially near the duct origin, are some highly vacuolated cells with sparse mitochondria. Excretory ducts consisting of stratified columnar (sometimes pseudostratified) epithelium often show bleb formation of the luminal surface of the tall cells.     

Phloem loading in the sucrose-export-defective (SXD-1) mutant maize is limited by callose deposition at plasmodesmata in bundle sheath—vascular parenchyma interface

Summary Using Lucifer Yellow we have demonstrated that the phloem-loading pathway from the mesophyll to the bundle sheath—vascular parenchyma interface inZea mays source leaves follows a symplasmic route in small and intermediate vascular bundles in control as well as in the green sections of mutant sucrose-export-defective (SXD-1) plants. In the anthocyanin-rich mutant leaf sections, Lucifer Yellow transport was prohibited along the same path, at the bundle sheath—vascular parenchyma interface in particular. Plasmodesmata at the latter interface in SXD-1 anthocyanin-rich leaf sections appear to be structurally altered through callose deposition at the plasmodesmal orifices. We suggest that a transport bottleneck at the bundle sheath—vascular parenchyma interface is thus orchestrated and regulated through callose formation, preventing symplasmic transport across this important loading interface.     

Ultrastructure of the Male Accessory Glands and Sperm Ducts of Cylindrotaenia hickmani(Cestoda,Cyclophyllidea)

Abstract The ultrastructure of unicellular accessory glands (= prostate glands) and external male ducts of the cestode Cylindrotaenia hickmaniare described. Accessory glands open into the lumen of the external common sperm duct (= external vas deferens). The gland cells contain abundant endoplasmic reticulum, Golgi bodies and secretory bodies, and have elongate necks that pierce the apical cytoplasm of the duct. Cell contact with the apical cytoplasm of the sperm duct is mediated by septate desmosomes. Accessory glands secrete spherical particles, with a diameter of approximately 70 nm, that adhere to spermatozoa. The roles of these accessory glands may relate to activity of the sperm or development of the female system after insemination. Paired sperm ducts arise from testes, and unite to form a common sperm duct. Each duct consists of a tubular anucleate cytoplasmic region which is supported by nucleated cytons that lie sunken in the parenchyma. The apical cytoplasm of the paired sperm ducts (= vasa efferentia) possesses apical microvilli and abundant mitochondria, but few other cytoplasmic features. The apical cytoplasm of the common sperm duct possesses sparse apical microvilli and numerous electronlucent vesicles. The male gonoducts form an elongate syncytium which is markedly polarized along the length of the ducts. The ducts also display apical–basal polarity in that sunken nucleated cytons support the apical cytoplasm which in turn has distinct basal and apical domains.     

六盘山鸡爪大黄蒽醌类化合物积累特征的研究

采用多种组织化学方法研究了六盘山鸡爪大黄营养器官中蒽醌类化合物的积累特征.结果显示:蒽醌类化合物在根中分布于周皮的木栓层和栓内层、次生维管组织的维管射线和根中央的部分木薄壁细胞内,且维管射线是根中贮藏和积累蒽醌类化合物的主要组织;在根茎中分布于周皮的木栓层和栓内层、次生维管组织的形成层和维管射线,以及髓的异常维管束射线中,且维管射线是根茎中贮藏和积累蒽醌类化合物的主要组织;在茎中主要分布于表皮、近表皮皮层和维管束的维管束鞘及其薄壁细胞,大型和小型维管束之间和周围的部分薄壁细胞,以及髓射线中有不同程度的分布;在叶中主要积累在叶柄的表皮、叶柄和大叶脉的部分基本组织、维管束的部分薄壁细胞等部位.结果表明,六盘山鸡爪大黄的根和根茎是蒽醌类化合物贮藏和积累的主要器官,维管射线是其贮藏和积累的主要组织,而且各营养器官中蒽醌类化合物积累的数量与植物各相关器官组织的发育程度、细胞中含淀粉粒的多少存在着一定的相关性.