航天诱变凤仙花SP2代形态变异的研究

对经“神舟4号”卫星搭载后的SP2代凤仙花的形态变异进行了研究。结果表明:子叶数目除有了两片的外,尚有三片和四片的。子叶形态上出现连生子叶、杯状子叶和大小不等子叶。真叶的形态上出现线状披针形,其小孢子母细胞减数分裂不正常,小孢子不育。花的结构上出现花瓣增多和花的叶化现象。茎的分枝上,有的不分枝,仅具主茎,有的分枝多达40枝以上。这些变化对研究和认识航天诱变育种有一定的理论和实际的意义。     

EMS诱变西瓜突变体库的构建及表型分析

采用1.0%诱变剂甲基磺酸乙酯(EMS)处理西瓜品系W1-17种子9h,然后对M1和M2代群体单株在叶、花、茎、育性、分支习性等方面进行表型变异观察,同时选取M2代典型变异株系,利用23对西瓜SSR引物进行分析鉴定,构建西瓜突变体库。结果表明:(1)EMS诱变使M1代幼苗形态呈现出叶畸形、叶褶皱、部分黄化、花畸形、雄花不散粉、卷须畸形、矮小、生长缓慢、不育等特异性状,获得由1 252个单株组成的西瓜突变体M1群体,群体总变异频率为18.33%。(2)M2代共筛选到205个突变植株,40种表型变异,表现在子叶性状(黄化、扭曲不对称、折叠等)、叶和茎性状(叶黄化、变小、裂刻变深,茎变细,节间变短,分支少等)、花性状(花变大,花色变浅,两性花,花瓣皱缩、部分退化、数目突变,柱头畸形,雄蕊不成熟等)和其他性状(生长缓慢、不育等)等方面,总的表型突变率达到了19.59%。(3)针对M2代10个典型变异植株,通过SSR引物分析发现有9份材料在DNA水平上有变异。本研究初步构建了含有120个M1代家系及1 051株M2代植株、40种表型变异的西瓜突变体库。     

大豆种子储藏性磷对幼苗适应低磷胁迫的作用

选用种子大小不同、磷效率不同的两个大豆品种‘巴西10号’(B10)和‘本地2号’(L2),在不同供磷条件下进行营养液浇灌沙培,从大豆萌发至2片三出复叶完全展开期测定植株主要器官总磷、可溶性磷浓度、子叶可溶性蛋白、酸性磷酸酶比活性、植酸酶比活性的变化动态,探讨储藏性磷在大豆幼苗期适应磷胁迫中的作用。结果发现:(1)磷效率不同的两个大豆品种的种子中磷含量差异显著。(2)大豆萌发和幼苗生长过程中子叶的磷逐渐转入根、茎、叶中,并以转入叶中的磷最多,其中磷高效品种B10在发芽过程中子叶磷向各个器官转移的总磷量要高于磷低效品种L2,且持续时间长。(3)大豆萌发和幼苗生长过程中外源供磷水平显著影响子叶磷的转移,在外源供磷充足条件下各器官中总磷均高于低供磷条件,子叶中磷和外源磷存在补偿关系。(4)磷高效品种B10子叶中酸性磷酸酶活性在低磷条件下显著高于高磷条件,但磷低效品种L2在高、低磷间无显著差异。研究表明,大豆种子储藏性磷在幼苗期耐低磷能力建立方面具有重要作用。     

莲种子萌发和幼苗生长时期营养物质的代谢变化

莲子叶细胞中储存了丰富的营养物质, 主要为蛋白质、淀粉和淀粉质体DNA。这些贮藏物质为种子萌发和幼苗的生长提供必需的能量和养料。通过组织化学和显微镜观察, 研究莲从种子萌发到植株生长至具有4个节时, 子叶中贮藏物质消耗的全过程。在此过程中, 子叶中的贮藏物质不断降解,营养物质发生转运。蛋白体首先发生降解, 其大量降解主要发生在幼苗三叶期。淀粉质体降解时会聚 集成团, 之后体积逐渐减小, 最后完全降解。种子萌发后65天是子叶贮藏物质消耗末期, 淀粉质体DNA的含量比萌发后20天的三叶期明显减少。细胞壁的形态结构发生多种形式的变化, 细胞壁发生的这些变化与子叶细胞间物质的运输有关。含多糖的球形颗粒通过维管束在子叶中运输。     

莲种子萌发和幼苗生长时期营养物质的代谢变化

莲子叶细胞中储存了丰富的营养物质,主要为蛋白质、淀粉和淀粉质体DNA.这些贮藏物质为种子萌发和幼苗的生长提供必需的能量和养料.通过组织化学和显微镜观察,研究莲从种子萌发到植株生长至具有4个节时,子叶中贮藏物质消耗的全过程.在此过程中,子叶中的贮藏物质不断降解,营养物质发生转运.蛋白体首先发生降解,其大量降解主要发生在幼苗三叶期.淀粉质体降解时会聚集成团,之后体积逐渐减小,最后完全降解.种子萌发后65天是子叶贮藏物质消耗末期,淀粉质体DNA的含量比萌发后20天的三叶期明显减少.细胞壁的形态结构发生多种形式的变化,细胞壁发生的这些变化与子叶细胞间物质的运输有关.含多糖的球形颗粒通过维管束在子叶中运输.     

辽东栎幼苗生长对种子大小和子叶去除处理的响应

该文在温室内盆播条件下,设置不去除子叶(对照)、去除1/4子叶(轻度子叶去除)、1/2子叶(中度子叶去除)和3/4子叶(重度子叶去除) 4个处理,研究了种子大小和子叶去除处理对辽东栎幼苗生长及其形态学可塑性的影响。结果表明:(1)大种子幼苗株高、基茎、叶片数、单株叶面积、总干质量和根冠比在所有处理均大于小种子幼苗,除株高外,上述其他参数在轻度子叶去除处理的不同大小种子幼苗间均差异显著(P0.05),前者总干质量在中度子叶去除处理与后者差异也显著(P0.05)。大种子幼苗比叶面积和比根长在各处理均大于小种子幼苗,比枝长则相反。(2)随着子叶去除强度增大,大、小种子幼苗株高、基茎、叶片数、单株叶面积和总干质量等均呈减小趋势,株高、基径、叶片数和单株叶面积在重度子叶去除处理均显著小于对照和轻度子叶去除处理;小种子幼苗对子叶损失反应更为敏感,其株高、叶片数、单株叶面积和总干质量在中度子叶去除处理也显著小于对照(P0.05);小种子幼苗根冠比随子叶去除强度增大而增大,在中度和重度子叶去除处理显著大于对照和轻度子叶去除处理(P0.05)。(3)随着子叶去除强度增大,大小种子幼苗的比叶面积和比根长均逐渐增大,但大种子幼苗比枝长持续减小,轻度子叶去除处理的小种子幼苗比枝长最大。     

莲子贮存蛋白的主要亚基及积累模式

红莲(Nelumbo nucifera Gaertn)成熟子叶总蛋白含量达24.35 g/100 g干样品,其贮存蛋白(SP) 的积累模式与豆科种子相似,即随成熟度的提高,SP猛增至占总蛋白含量的86%以上。对莲子不同发育阶段子叶蛋白SDS-PAGE图谱的光密度测定表明莲子叶蛋白有12个主要SP亚基(SP 1～12)。按分子量(MW)大小和积累顺序可分3组A组是98 kD和93 kD的2个亚基,MW最大,积累最晚,但量最多;B组是3个亚基,MW为55～50 kD,大小居中,积累最早,量最少;C组的7个亚基MW最小,在27～14 kD之间,积累较早,量较多。对莲的不同品种、不同器官进行分析后发现,它们都有1个主峰为68 kD的多连峰的代谢蛋白亚基,可能是莲共有的蛋白亚基。     

狭叶沙参复合体(桔梗科)的物种生物学研究

通过对狭叶沙参复合体进行居群(共46个)采样、引种、栽培实验,生物学特性观察,染色体观察 (已发表),杂交、同工酶比较、形态性状的定性定量分析、茎解剖和花粉形态的观察,发现：(1)该 复合体主要进行异花授粉,实生苗第二年才抽茎生花;(2)32个居群的染色体计数表明,在辽宁东部、 辽宁西部(绝大部分地区)和山西霍县的居群都为二倍体(2n=34),而其它地方的居群为四倍体(2n 68);(3)叶的酯酶同工酶的变异大,和一些形态特征,尤其是叶的形态和大小的变异相似,而种子的酯 酶同工酶则相当稳定;(4)通过9个居群的杂交试验,在狭叶沙参和石沙参四倍体居群间得到了一 些F1种子,而辽宁西部二倍体与上述的四倍体居群间的杂交未产生任何F1种子;(5)性状分析(包括 聚类分析与主成份分析)和茎解剖的研究,揭示了它们在叶、果实、花和种子的形态、髓纤维组织的有无、 叶锯齿和花萼裂片齿的有无和多少等形状上的变异幅度,并据此分辨出8个宗。其中辽宁西部的二倍 体宗形态上相当独特,被提升为种的等级。 其余7个宗,根据不同的分化程度被处理为三个种和5个 亚种;(6)运用杂交指数法分析了石沙参和狭叶沙参在太行山一带杂交的可能性;(7)分析讨论了复合体内各类群的起源和进化关系。     

模拟动物取食子叶对辽东栎种子萌发和幼苗早期生长的影响

在实验室人工气候箱和玻璃温室盆播条件下,研究了不同程度子叶切除处理(切除1/4、1/2和3/4子叶,以不切除子叶为对照)对辽东栎(Quercus wutaishanica)种子萌发和幼苗早期生长的影响。结果表明:在人工气候箱培养条件下,子叶切除处理后种子的萌发率均高于对照,其中切除1/4子叶处理与对照间差异显著;子叶切除处理加快了种子萌发进程,即萌发速率系数减小,各处理及其与对照间差异不显著;萌发指数在切除1/4子叶处理显著大于对照,其他切除处理与对照间无显著差异;子叶切除处理对活力指数无显著影响。在玻璃温室盆播条件下,尽管不同程度子叶切除处理种子的萌发率无显著提高,但子叶切除后,种子的萌发进程加快,萌发指数增大;活力指数在切除1/4子叶处理略高于对照,而切除1/2和3/4子叶处理均大幅减小。切除子叶处理的幼苗株高、基径、主根长、侧根数、最大侧根长、叶片数、单株叶面积和总干质量等生长参数均不同程度的减小,其中株高在各处理及其与对照间均差异显著,其他生长参数在2个重度子叶切除处理(切除1/2和3/4子叶)均显著小于对照;幼苗根冠比受子叶切除处理的影响较小,各处理及与对照间均差异不显著;切除子叶处理增大了幼苗的比叶面积、比枝长和比根长,其中比叶面积在切除1/2子叶处理显著大于对照,比枝长在各切除处理均显著大于对照,切除1/2子叶和切除3/4子叶处理幼苗的比根长显著大于切除1/4子叶处理和对照幼苗。     

甘蓝型油菜理化诱变和突变体库的构建

利用射线与甲基磺酸乙酯（EMS）溶液诱变技术复合处理甘蓝型油菜高油605的成熟种子。经田间M2筛选和M3验证, 共筛选到152个叶色、叶形、株高、分枝数、分枝角度、茎径、茎色、花色、花瓣数、花瓣大小、花蕊形态、雄性不育、死蕾及开花期等性状发生变异的突变体, 占M2诱变群体总数的12.67%。利用水培法进行M3和M4株系的子叶和根系变异性状筛选和验证, 发现子叶和根系变异频率分别为12.78%和7.07%。现已构建了包括叶片、株型、花器、子叶、根系及部分生理性状变异类型的突变体库, 可为今后油菜遗传改良和功能基因组学研究提供更多的种质资源。     

Photosynthesis and photorespiration in presenescent, senescent, and rejuvenated soybean cotyledons

Various growth and physiological parameters were measured in germinating, presenescent, and senescing soybean (Glycine max [L.] Merr.) cotyledons and in cotyledons rejuvenated by epicotyl removal 18 days after planting. The maximal measured carbon dioxide exchange rates (CER) in the cotyledons were in the range of those reported for field-grown soybean leaves. Rejuvenated cotyledons accumulated total chlorophyll in excess of the maximum observed in presenescent cotyledons. When photosynthetic rates were expressed per cotyledon, the CER in rejuvenated tissue recovered to the maximal rates observed in presenescent cotyledons. Ribulose-1,5-bisphosphate carboxylase/oxygenase in rejuvenated cotyledons also recovered to the maximal amount seen in presenescent cotyledons so that CER appeared to be a function of ribulose-1,5-bisphosphate carboxylase/oxygenase content during most of the period studied. Observations of the postillumination outburst of CO₂ and ¹⁴C label in glycine indicated that photorespiration was occurring in the cotyledons and that photorespiration relative to photosynthesis was different in rejuvenated compared with presenescent cotyledons.     

Changes of Adenine Nucleotide in the Course of Mitochondrial Development of Mung Bean Cotyledon and Their Effect on Cellular Energy Status

The changes of adenine nucleotide and adenylate energy charge (AEC) during the development of mitochondria in imbibed mung bean cotyledons and the relationship between these changes and cellular energy status are studied. After cotyledons were imbibed in water for two hours, mitochondrial cristae were not observed, but for 12 hours, they appeared obviously on the inner membrane. With the structural integrity of the mitochondria, the functional mitochondria were graduately shown. For instance, the activity of H+-ATPase of cotyledons imbibed for 24 hours was about twice higher than that of 2 hours. The ATP content and the AEC value in the cotyledons imbibed for 24 hours increased sharply and the AMP decreased, but these were not observed in the mitochondria of the cotyledons imbibed either for 24 hours or 2 hours. When the cotyledons were imbibed in 1 × 10-4 mol/l or 5 × 10-4 mol/l DNP solution for 24 hours, the ATP and the AEC in the Cells exhibited a rapid decrease, but in the mitochondria they remained canstant. In the same DNP solution with cotyledons for 24 hours, the activity of mitochondrial adenylate kinase (AK) not only was not decreased but also increased by about 50% over the control. This result shows that the energy equilibration in the mitochondria seems likely to be regulated by adenylate kinase locating between inner and out membranes of the mitochondria.     

Low-temperature effect on enzyme activities involved in sucrose–starch partitioning in salt-stressed and salt-acclimated cotyledons of quinoa (Chenopodium quinoa Willd.) seedlings

The effect of low temperature on growth, sucrose–starch partitioning and related enzymes in salt-stressed and salt-acclimated cotyledons of quinoa (Chenopodium quinoa Willd.) was studied. The growth of cotyledons and growing axes in seedlings grown at 25/20 °C (light/dark) and shifted to 5/5 °C was lower than in those only growing at 25/20 °C (unstressed). However, there were no significant differences between low-temperature control and salt-treated seedlings. The higher activities of sucrose phosphate synthase (SPS, EC 2.4.1.14) and soluble acid invertase (acid INV, EC 3.2.1.25) were observed in salt-stressed cotyledons; however, the highest acid INV activity was observed in unstressed cotyledons. ADP-glucose pyrophosphorylase (ADP-GPPase, EC 2.7.7.27) was higher in unstressed cotyledons than in stressed ones. However, between 0 and 4 days the highest value was observed in salt-stressed cotyledons. The lowest value of ADP-GPPase was observed in salt-acclimated cotyledons. Low temperature also affected sucrose synthase (SuSy, EC 2.4.1.13) activity in salt-treated cotyledons. Sucrose and glucose were higher in salt-stressed cotyledons, but fructose was essentially higher in low-temperature control. Starch was higher in low-temperature control; however, the highest content was observed at 0 day in salt-acclimated cotyledons. Results demonstrated that low temperature induces different responses on sucrose–starch partitioning in salt-stressed and salt-acclimated cotyledons. Data also suggest that in salt-treated cotyledons source–sink relations (SSR) are changed in order to supply soluble sugars and proline for the osmotic adjustment. Relationships between starch formation and SuSy activity are also discussed.     

Sugar uptake and translocation in the castor bean seedling I. Characteristics of transfer in intact and excised seedlings

Changes in the dry weights of various parts of the castor bean seedling showed that the rates of transfer of material through the cotyledons to the embryonic axis exceeded 2 mg/hour after 5 to 6 days of germination. The sugar present in the endosperm was predominantly, and in the cotyledon almost exclusively, sucrose. Anatomical features were described which contribute to the efficiency of the cotyledons as organs of absorption and transmittal of sucrose to the embryonic axis, where hexoses are much more prevalent.The ability of the cotyledons to absorb sucrose survived removal of the endosperm from the seedling. A series of experiments is described in which the cotyledons of such excised seedlings were immersed in sucrose-(14)C and measurements made of uptake and of translocation to various parts of the seedling. Increasing rates of absorption were observed as the sucrose concentration was raised to 0.5 m and these rates were maintained for several hours. Removal of the embryonic axis (hypocotyl plus roots) drastically altered both the response to sucrose concentration and the time course of absorption by the cotyledons.More than 80% of the sugar normally entering the cotyledons from the endosperm is transmitted to the embryonic axis and this extensive turnover was seen also in pulse/chase experiments with excised seedlings. The cotyledons of excised seedlings absorbed sucrose against high apparent concentration gradients. The absorption was stimulated by phosphate and had a pH optimum at about pH 6.4. It was inhibited by arsenate, azide and 2,4-dinitrophenol.     

UV-B induced changes in antioxidant enzymes and their isoforms in cucumber (Cucumis sativus L.) cotyledons

To assess the role of antioxidant defense system on exposure to ultra-violet-B (UV-B) radiation, the activities of antioxidant enzymes superoxide dismutase (SOD), ascorbic acid peroxidase (APX), glutathione reductase (GR) and guaiacol peroxidase (GPX), as well as the level of antioxidants ascorbic acid (AA) and alpha-tocopherol were monitored in cucumber (Cucumis sativus L. var long green) cotyledons. UV-B enhanced the activity of antioxidant enzymes as well as AA content, but decreased the level of alpha-tocopherol. Significant increase was observed in the activities of SOD and GPX. Analysis of isoforms of antioxidant enzymes by native-PAGE and activity staining revealed three isoforms of GPX in unexposed dark-grown cotyledons (control), and their intensity was enhanced by UV-B exposure. In addition, four new isoforms of GPX were observed in cotyledons after UV-B exposure. Although no new isoforms were observed for the other antioxidant enzymes, the activities of their existing isoforms were enhanced by UV-B.     

Growth and osmoregulation in Pisum sativum subhooks as affected by gibberellic acid and cotyledon excision

Growth stimulation by gibberellic acid (GA) of the Alaska pea ( Pisum sativum L.) subhook was observed within 6 h after its application; the stimulation being larger in cuttings with cotyledons than in decotylized ones. The osmotic potential in the subhook increased as it grew, the rate of its increase being faster in cuttings without than in cuttings with cotyledons. GA had no effect on the change in the osmotic potential until 8 h after GA application, but afterwards it suppressed the increase in cuttings with cotyledons. This GA effect was not observed in decotylized cuttings. Changes in the osmotic potential were well correlated with changes in the concentration of soluble sugars, but not with changes in amino acids and K⁺, Soluble sugars accumulated in the subhook of cuttings with and without cotyledons in proportion to growth, irrespective of the presence or absence of GA. Cotyledon excision suppressed sugar accumulation, and GA promoted it in cuttings with cotyledons but not in decotylized ones. These results suggest that GA stimulates the translocation of sugars from the cotyledons to the subhook and, thereby, maintains the osmotic potential low, resulting in enhanced growth.     

胚轴对萌发豌豆子叶中淀粉酶活性表达的影响

萌发豌豆的上、下肢轴均能诱导子叶中淀粉酶活性,外源GA和6—BA具有类似胚轴的作用。离体子叶的淀粉酶凝胶电泳只有一条活性极低的酶带,连生子叶中有两条酶带,其中由胚轴诱导新出现了一条活性很高的同工酶带,它的活性受亚胺环己酮的强烈抑制,而受放线菌素D影响不大。推测豌豆子叶中存在淀粉酶的长寿命mRN—A,胚轴和外源激素的作用在于促进mRNA的翻译。     

Ureide metabolism during seedling development in French bean (Phaseolus vulgaris)

French bean ( Phaseolus vulgaris ) is a legume that transports most of the atmospheric nitrogen fixed in its nodules to the aerial parts of the plant as ureides. Changes in ureide content and in enzymatic activities involved in their metabolism were identified in the cotyledons and embryonic axes during germination and early seedling development. Accumulation of ureides (ca. 1300 nmol per pair of cotyledons) was observed in the cotyledons of dry seeds. Throughout germination, the total amount of ureides slightly decreased to about 1200 nmol, but increased both in cotyledons and in embryonic axes after radicle emergence. In the axes, the ureides were almost equally distributed in roots, hypocotyls and epicotyls. The pattern of ureide distribution was not affected by the presence of nitrate or sucrose in the media up to 6 days after imbibition. Ureides are synthesized from purines because allopurinol (a xanthine dehydrogenase inhibitor) blocks the increase of ureides. Allantoin and allantoate-degrading activities were detected in French bean dried seeds, whereas no ureidoglycolate-degrading activity was detected. During germination, the levels of the three activities remain unchanged in cotyledons. After radicle emergence, the levels of activities in cotyledons changed. Allantoin-degrading activity increased, allantoate-degrading activity decreased and ureidoglycolate-degrading activity remained undetectable in cotyledons. In developing embryonic axes, the three activities were detected throughout germination and early seedling development. The embryonic axes are able to synthesize ureides, because those compounds accumulated in axes without cotyledons.     

Degenerative changes in properties of the mitochondrial inner membrane in pea cotyledons during germination

Mitochondria isolated from 5-day-old pea cotyledons had lowrespiration activity and did not respond to exogenous ADP, whilethose from 1-day-old cotyledons respired actively and respondedto ADP. The former mitochondria, but not the latter, were verysusceptible to destruction during extraction and purification.The mitochondrial inner membrane isolated from 5-day-old cotyledonswas less dense than that from 1-day-old cotyledons. The specificactivity of SDH in the former membrane was lower than that inthe latter, while both membranes were similar to each otherwith respect to the specific activity of Cyt ox. Disc electrophoresisof solubilized membrane on polyacrylamide gel containing SDSshowed that the mitochondrial inner membrane from 5-day-oldcotyledons contained lesser amounts of several polypeptidescompared with that from 1-day-old cotyledons. Such alterationsin the mitochondrial inner membrane were not observed with theexcised cotyledons cultivated for 5 days. (Received June 17, 1977; )     

The role of roots and cotyledons as storage organs in early stages of establishment in Quercus crispula: a quantitative analysis of the nonstructural carbohydrate in cotyledons and roots

Quercus seedlings have hypogeal cotyledons and tap roots, both of which act as storage organs. The importance of the storage function in the two organs may change as the seedling develops. Therefore, changes in carbohydrate reserves in cotyledons and roots of Q. crispula grown under 40 % and 3 % of full light from shoot emergence to the completion of the first leaf flush were monitored. In addition, a shoot-clipping treatment was performed to examine the relative contribution of the cotyledons and tap roots to resprouting. Cotyledons maintained large amounts of nonstructural carbohydrates during shoot development, and carbohydrates were still present in the cotyledons during the final phase of leaf flush. In addition, a notable increase in the amount of carbohydrates was observed in tap roots before leaf flush at both light levels. Since root development occurred before leaf flush, even in plants grown under 3 % light, the carbohydrate found in them presumably originated from seed reserves and was translocated to roots as storage reserves. When shoots were clipped at the leaf flushing stage, the amount of carbohydrate decreased only in the cotyledons after resprouting, suggesting that cotyledons act as the main storage organs during shoot development stages. However, it could be advantageous as a 'risk avoidance strategy' for the seedlings to store reserves in both cotyledons and roots, since cotyledons may be removed by predators during shoot development.