蕤核的花粉形态及叶片微观结构

运用光学显微镜和扫描电镜对蕤核的花粉形态及叶片微观结构进行了观察。结果表明:蕤核花粉体积小,近球形,辐射对称,具三沟,外壁具条纹状纹饰。上下表皮均有角质层,但形态不同。下表皮有气孔分布,气孔略下陷,气孔密度每平方毫米200～300个,气孔存在三种状态。叶片为异面叶,栅栏组织细胞由2～3层柱状细胞构成,排列紧密,海绵组织由管状细胞构成,细胞间隙大。蕤核虽属于中生植物,但叶片微观结构趋近于旱生植物的特征。     

蕤核叶片解剖结构和组织化学定位研究

采用解剖学和组织化学方法,研究了蕤核(Prinsepia uniflora Batal.)叶片的解剖结构,并对叶片中的黄酮类、生物碱类及多糖的组织化学定位进行了研究。结果表明:蕤核叶片上表皮有角质层,下表皮有气孔分布,气孔密度为278个·mm-2,近轴面栅栏组织细胞2～3层,排列紧密而整齐,含有许多晶体;叶片主脉木质部发达,由多列导管组成。上述特征说明蕤核叶片的解剖结构与环境之间的适应性。组织化学定位显示黄酮多分布于栅栏组织和厚角组织,生物碱含量少,多糖均匀分布于叶肉中。     

A proteinase inhibitor II of Solanum americanum is expressed in phloem

Although proteinase inhibitor proteins are known to confer insect resistance in transgenic plants, their endogenous roles remain undefined. Here, we describe the expression of a proteinase inhibitor II (PIN2) protein from Solanum americanum in phloem of stems, roots and leaves suggesting a novel endogenous role for PIN2 in phloem. The phloem consists of parenchyma cells, sieve elements (SE), and companion cells (CC) which are in close association with SE. We isolated two cDNAs encoding PIN2, SaPIN2a and SaPIN2b, from a S. americanum cDNA library using a tomato PIN2 cDNA as hybridization probe. SaPIN2a shows 73.6% identity to SaPIN2b. Southern blot analysis confirmed that two genes occur in S. americanum. Northern blot analysis showed that both are wound-inducible and are expressed in flowers. Unlike SaPIN2b and other previously characterized plant PIN2 proteins, SaPIN2a is abundantly expressed in stems. In situ hybridization studies on stem sections showed that SaPIN2a mRNA is expressed in CC and some SE, likely the immature developing SE, of external and internal phloem. Western blot analysis using SaPIN2a-specific antibodies showed SaPIN2a accumulation in stems, leaf midribs and fruits. Immunohistochemical localization, using these antibodies, revealed SaPIN2a expression in external and internal phloem of stem. Immunoelectron microscopy of stem, root and leaf sections further localized SaPIN2a to the CC and predominantly to the SE, particularly the parietal cytoplasm adjacent to the cell wall, the lumen and the sieve-area pores. These results suggest that, other than a possible role in plant defense, SaPIN2a could be involved in regulating proteolysis in the SE.     

玉米cyclinⅢ基因的染色体原位杂交物理定位

本文首次报道了玉米低拷贝基因 cyclinⅢ(B-类)生物素标记的染色体原位杂交定位结果。供试探针为该基因的cDNA克隆,其长度仅为1.6kb。结果表明, 探针的信号分布在第6染色体短臂和第9染色体长臂,与着丝粒的百分距离分别为70.05±3.31和86.86±1.64,检出率分别为8.29%和6.83%。文中对基因的物理位置与功能间的关系等作了讨论。 Abstract:A biotin-labelled in situ hybridization technique was used to physically map a low copy gene cyclinIII in maize.The cDNA clone was 1.7kb in size.The probe was hybridized onto the short arm of chromosome 6 and the long arm of chromosome 9.The percent distances from centromere to detection site were 70.05±3.31 and 86.86±1.64 respetively.The detection rates of in situ hybridization were 8.29 and 6.83 respectively,The relationship between the position and function of the genes is discussed in this paper.     

Differentiation and Ultrastructure of the Protophloem Sieve Elements of Minor Veins in the Maize Leaves: Changes in the Protoplast

Protophloem sieve element differentiation in the minor veins of the maize ( Zea mays L. ) leaves was first evidenced as an increase of the wall thickness, which began in the comers of the cell and then extended to other parts of the wall, and the appearance of long rough endoplasmic reticulum cistemae distributed throughout the cytoplasm, and then the presence of characteristic crystalloid inclusions within the plastids. As differentiation progressed, long cisternae of rough endoplasmic reticulum appeared to transform into shorter forms and eventually aggregated into small stacks, losing their ribosomes during the process. The nuclei degenerated, although frequently persisted until very late in differentiation the stages of maturation, as darkly stained amorphous aggregates surrounded by double nuclear envelope or only inner membrane of nuclear envelope. Subsequently, the nuclear envelope collapsed and became discontinuous. At the beginning of nuclear degeneration the perinuclear spaces were partly dilated and sometimes the outer nuclear envelope in the dilated portions then ruptured, and was accompanied by the disappearance of the cytoplasmic portion near it. During the peried of nuclear degeneration, in addition to the endoplasmic reticulum, plastids and mitochondria underwent structural modification, while components such as ribosomes, cytoplasmic ground substances, vacuoles and dictyosomes disintegrated and disappeared. At maturity, the surviving protoplasmic components, including plasmalemma, mitochondria, small stacked smooth endoplasmic reticulum and P-type plastids with crystalloids, became parietal in position. As differentiation of adjacent metaphloem sieve elements proceeded, the protoplasmic components of the mature protophloem sieve elements progresively degenerated and finally obliterated.     

Quantitative and noninvasive assessment of prenatal X-ray-induced CNS abnormalities using magnetic resonance imaging

Our purpose was to noninvasively assess formation of the microvasculature, blood-brain barrier (BBB) and blood-CSF barrier formation of prenatal X-ray-induced CNS abnormalities using quantitative MRI. Eight pregnant female Sprague-Dawley rats were divided into two groups consisting of control and X-irradiated animals. After birth, 20 neonatal male rats were divided into four groups of five rats. To evaluate the development of the BBB, changes in T(1) induced by Gd-DTPA were compared quantitatively in normal and prenatally irradiated animals in the formative period 1 to 2 weeks after birth. To assess the abnormalities of the microvasculature, quantitative perfusion MRI and MR angiography were also used. Histology was also performed to evaluate the BBB (albumin) and vascular endothelial cells (laminin). Decreased cerebral blood flow (CBF) and angioarchitectonic abnormalities were observed in the prenatally irradiated rats. However, abnormalities of the BBB and blood-CSF barrier were not observed using Gd-enhanced MRI and albumin staining. Quantitative perfusion MRI, MR angiography and Gd-enhanced T(1) mapping are useful for assessing CNS disturbance after prenatal exposure to radiation. These techniques provide important diagnostic information for assessing the condition of patients during the early stages of life after accidental or unavoidable prenatal exposure to radiation.     

蛋白质组学在疾病研究中的应用

蛋白质组学是在蛋白质水平定量、动态、整体地研究生物体的一门学科。双向电泳技术、质谱技术和生物信息学是蛋白质组学的三大支撑技术。近年来,蛋白质组学技术从整体水平出发,在更贴近生命本质的层次上去发现和理解并应用于许多疾病的早期预警、诊断和治疗。我们对蛋白质组学在心血管疾病、肝病、胰腺疾病和自身免疫性疾病等研究中的应用做了简单阐述,揭示了蛋白质组学技术在许多重大疾病研究方面具有十分诱人的发展前景。     

国家二级保护植物翅果油树营养器官结构的研究

系统研究了国家二级保护植物翅果油树(Elaeagnus mollis Diels)营养器官的结构,结果表明:根表皮外有2.4～36.7μm的粘液质层,对着韧皮部的内皮层细胞含有黑色物质,与粘液质层的形成有关.茎的皮层中有一层排列整齐紧密的椭圆形细胞,类似于内皮层.髓细胞中含有大量的針晶.次生木质部为典型的环孔材,具有多列同型射线.栅栏组织发达,叶细胞含有大量針晶,栅栏组织与海绵组织之比为1.96,具有旱生结构特性.     

国家二级保护植物翅果油树传粉生物学的初步研究

对翅果油树进行了传粉生物学的野外观察和实验表明：（1）翅果油树的花具有自花传粉的结构特征,同时具有蜜腺,又具备异花传粉的特征。传粉者主要是一种家养的蜜蜂。（2）翅果油树花形态结构与传粉者的形态和传粉行为非常协调和适应,昆虫的传粉部位主要是头前部和胸部。（3）蜜腺的产蜜量大,开花后1～2天蜜腺分泌量最大。对传粉昆虫竞争中具明显优势。昆虫的访花频率明显高于同花期的其他植物。（4）翅果油树没有融合生殖现象。