龙须草叶片形态结构与生理功能的研究

利用定样平行配套观测方法 ,研究了龙须草叶片形态结构和光合、蒸腾等生理功能 ,结果表明 :龙须草叶片呈长剑形 ,叶长为 35～ 1 50 cm,最长可达 2 0 0 cm以上 ,叶宽为 0 .1 9～0 .48cm;功能叶结构具有典型的 C4 “花环结构”;上表皮中具有十分发达的保护水分过度蒸腾的“泡状细胞”;上表皮气孔分布密度大于下表皮。功能叶叶绿素 a/ b值为 3.2 8± 0 .2 6。背面叶平均光合强度为 62 .4( CO2 mg/ dm2 · h)、呼吸强度为 3.57( CO2 mg/ dm2 · h)、蒸腾强度为 372 6( H2 O mg/ dm2 · h)、气孔阻力为 0 .2 1 ( sec./ cm)、水分利用效率为 1 6.747。背面叶的光合强度和蒸腾强度明显高于腹面叶。     

甘草种皮表面微形态特征及其分类意义初探

甘草是重要的资源植物。我国甘草属植物有:乌拉尔甘草(G. uralensis Fisch.)、光果甘草(G. glabra L.)、胀果甘草(G. inflata Bat.)、黄甘草(G. eurycarpa P. C. Li)、粗毛甘草(G. aspera Bat.)、云南甘草(G. yunnanensis Cheng f. et L. K. Tai ex P. C. Li)、刺果甘草(G. pallidiflora Maxim.)和圆果甘草(G. squamulosa Franch.)。甘草的种子大小相似,均为3.0—4.0mm,但形状和颜色差异较大,其中乌拉尔甘草、光果甘     

桦褐孔菌液体深层培养研究

研究了不同碳源、氮源、生长因子和无机盐对桦褐孔菌液体深层培养菌丝体产量的影响。采用“二次回归正交组合设计”对培养基进行优化,结果表明,当培养基配方为小麦淀粉水解糖100.83g/L(还原糖含量为24%)、酵母粉18.70g/L、玉米浆11.01g/L、KH2PO44.59g/L、MgSO4·7H2O1.5g/L、pH6.0,在30℃、160r/min的恒温培养振荡器上振荡培养120h,生物量可达19.80g/L。     

黄土高原4种豆科牧草的净光合速率和蒸腾速率日动态及水分利用效率

在晴天条件下 ,研究了 4年生甘肃红豆草 (Onobrychis viciaefolia scop.cv.‘Gansu’)、沙打旺 (Astragalus adsurgens)、东方山羊豆 (Galega orientalis)和多年生香豌豆 (L athyruslatifolius)人工种群花期 (5月 31日 )和再生期 (7月 10日 )的净光合速率、蒸腾速率、气孔导度、水分利用效率以及土壤贮水量和水分利用特征。结果表明 ,自 5月 31日 (花期 )至 7月 10日 (再生期 ) ,4种牧草对土壤水分消耗由大到小依次为 :沙打旺 119.2 mm、多年生香豌豆 91.6 mm、山羊豆 81.9m m和红豆草 73.8m m。红豆草在花期和再生期的净光合速率分别为 12 .4 1和 9.0 6μ mol CO2 / (m2 · s) ,沙打旺为 10 .10和 7.0 1μ m ol CO2 / (m2 · s) ;红豆草在花期和再生期的日均蒸腾速率 8.13和 9.0 5 m m ol H2 O/ (m2· s) ,沙打旺刈割前和刈割后蒸腾速率分别为 7.4 0和 6 .5 4mmol H2 O/ (m2· s) ,属于高光合、高蒸腾型。而山羊豆和多年生香豌豆则属于低蒸腾、低光合类型 ,花期和再生期 ,山羊豆的日均光合速率分别为 4 .74和 4 .88μm ol CO2 / (m2· s) ,多年生香豌豆为 4 .4 1和 4 .6 4 μ mol CO2 / (m2· s) ,相应的蒸腾速率分别达到 3.75和 5 .4 2 m mol H2 O/ (m2 · s) ,4 .74和 4 .34m mol H2 O/ (m2 · s)。     

热带雨林和亚热带季雨林灌木光合作用对水分胁迫的反应

生长在热带植物温室的热带雨林植物Piper hispidum和亚热带季风常绿阔叶林植物九节(Psychotria rubra),在灌水、环境的CO_2浓度和26℃下,饱和光强的最大光合速率(PN)分别为6.3和9.8μmol·m~(-2)·s~(-1)。在低的叶片/空气水蒸汽压陡度(△w=10毫巴·巴~(-1))情况下,每降低叶片水势(ψ)1巴,P.hispidum的PN降低0.38μmol·m~(-2)·s~(-1);当ψ为-8巴时,PN随△w增高而降低,其关系PN=7.02-0.06△w(r~2=0.7);ψ为—13巴时,PN与△w关系的直线斜率变小(0.02)。对于九节,PN对△w变化的反应更为敏感。在ψ为-8.75巴时,PN=11.16—0.1△w(r~2=0.65)。在高ψ(-8和-8.75巴)情况下,两种灌木的气孔传导率(g)随△w的变化而相近;但ψ降低时,九节的g对△w的变化反应较P.hispidum敏感。ψ降低导致两种灌木的水分利用效率(WUE,μmol·m~(-2)·s~(-1)CO_2同化/mmol·m~(-2)·s~(-1)水散失)增高;而△w增高,WUE降低。九节的PN对△w增高的反应较P.hispidum敏感。     

半干旱区城市环境下油松林分蒸腾特征及其影响因子

在城市环境下,由于不透水地面面积的增加,土壤-植物-大气之间水汽循环减弱,水汽调节能力差,因而研究城市树木蒸腾对环境因子的响应对于城市进行合理的水汽调节具有重要意义。于2017年生长季,在内蒙古呼和浩特市区树木园内选择58年生油松(Pinus tabulaeformis Carr.)作为研究树种,采用热扩散法测定其树干液流,并同步监测气象因子和土壤含水量变化,利用彭曼公式计算冠层气孔导度。结果表明:(1)生长季内,油松林分蒸腾存在明显日、月变化,晴天天气下林分蒸腾日变化呈单峰曲线,月林分蒸腾量5月最大,其次是7月、8月、6月和9月,分别为20.96、19.89、18.09、17.25 mm和7.49 mm。(2)油松林分蒸腾与饱和水汽压差、太阳总辐射、土壤含水量和风速均存在极显著相关关系(P0.01),太阳总辐射、饱和水汽压差和土壤含水量是影响林分蒸腾的主要环境因子(R~2=0.47、R~2=0.31和R~2=0.16),风速对林分蒸腾的影响程度最小(R~2=0.12);不同降雨量对林分蒸腾的影响作用不同,10 mm以上的日降雨量对油松林分蒸腾作用明显。(3)除环境因子外,油松叶片气孔通过响应环境变化控制蒸腾作用,当饱和水汽压差1.5 kPa时,叶片气孔对饱和水汽压差的响应更敏感;当太阳总辐射250 W/m~2时,叶片气孔对蒸腾起促进作用,超过该阈值,叶片气孔关闭从而抑制树木蒸腾。     

光氧化胁迫下几种植物叶片的超氧自由基产生速率和光合特性

以甲基紫精 (MV) 0～ 1mmol/L在 15 0 0 μmolm-2s-1光下处理C3 植物花生、水稻和C4 植物玉米、甘蔗的叶圆片 30min ,O- ·2 产生速率随MV浓度提高而加快。MV浓度超过 10 μmol/L ,光合放氧出现负值并持续增大。光氧化作用降低叶绿素荧光参数Fv/Fm ,ΦPSⅡ和qP,而qN 则或提高 (C3 植物 ,MV 10 μmol/L )或几乎不变甚至有所降低 (C4 植物或C3 植物在高浓度MV下 )。热耗散系数KD 的变化与qN 相似。与C4 植物相比 ,C3 植物的O- ·2 产生速率和光下吸氧的速率较高 ,SOD活性较低 ,Fv/Fm ,ΦPSⅡ和qP 的降低幅度比C4植物大。对田间玉米叶片的MV涂抹试验看到 ,MV降低光合CO2 同化速率的同时 ,也降低气孔导度、PEP羧化酶和SOD活性 ,Ci增大。结果表明MV光氧化作用刺激PSⅠ的O2 光还原作用 ,引起PSⅡ部份失活 ,气孔部份关闭和关键酶类氧化失活 ,从而抑制了光合作用     

不同耐盐性药用甘草幼苗根对Na~+的响应及其维管组织变化

以甘草属2种耐盐植物胀果甘草、乌拉尔甘草为材料,用不同浓度(50、100、150、200、250mmol·L-1)NaCl处理幼苗21d后,分析其生物量和根、茎、叶中的Na+、K+含量以及K+/Na+,计算根的离子选择吸收和运输系数,并应用光学显微镜观察比较二者的维管组织结构变化,以揭示2种药用甘草幼苗根对Na+的响应及其维管组织结构的变化特征,探讨甘草的耐盐机理。结果表明:(1)NaCl胁迫使2种甘草幼苗生物量均下降,在NaCl浓度为250mmol·L-1时,胀果甘草、乌拉尔甘草幼苗生物量分别是对照的53.34%、46.21%,胀果甘草耐盐性强于乌拉尔甘草。(2)随着NaCl浓度上升,2种甘草根积累的Na+显著增多,其中胀果甘草在所有盐处理下,根Na+含量均高于其它器官,说明其根对吸收的Na+具有显著截留效应;而乌拉尔甘草只在0~150mmol·L-1 NaCl范围内,根Na+含量显著高于叶片,当NaCl为200、250mmol·L-1时,叶片Na+含量显著高于根,说明乌拉尔甘草根对Na+的截留能力有限。(3)在相同盐处理下,胀果甘草离子选择吸收系数SAK,Na、离子运输系数STK,Na均大于乌拉尔甘草,胀果甘草根抑制Na+、促进K+向地上部运输的能力强于乌拉尔甘草。(4)乌拉尔甘草在NaCl为150、200mmol·L-1、胀果甘草在250mmol·L-1时,根结构对盐胁迫产生应激性响应,维管组织比例显著上升,有助于提高根向上的运输能力,减少盐害。研究表明,2种药用甘草根对Na+截留作用和向上运输时促K+抑Na+能力的差异,是导致其耐盐能力不同的主要原因,根对Na+的积累和截留作用的差异与根的结构响应相吻合,能较好地解释二者的耐盐性差异。     

河西地区几种中生植物的蒸腾和传导率与叶内外环境的关系

 用LI-1600稳态气孔仪,测定了河西地区分布较广的五种木本植物的蒸腾和传导率及环境因子。只要光照不低于气孔开启所需的强度,植物蒸腾率最高点之前的高低变化与叶温上升的速率无关,而仅与每一时刻叶温高低密切相关。在种内,蒸腾率大致随叶的厚度和单位叶面积的栅栏组织表面积的增大而提高。但种间则无此相关性。同一样本叶的上下表面蒸腾率之比与其气孔数之比相对应,而种间则毫无关系。环境条件大致相同情况下,二白杨(Populus kansuensis)全天蒸腾量为78.2gH2O·dm-2,沙枣(Elaeagnus angustifolia)为40,4gH2O·dm-2。分别是箭杆杨(P.nigra var.thevestina)的2.5和1.3倍。同一灌溉条件下,梨光杏(Prunus armeniaca var.glabra)为26.7gH2O·dm-2,比毛杏(P.armeniaca var.ansu)高0.6倍。     

杂色云芝产漆酶的发酵条件研究*

本文对杂色云芝（Coriolus versicolor）产漆酶的发酵条件作了研究。结果表明摇瓶实验产漆酶（Laccase）的最佳培养基成分为：可溶性淀粉 2g/L, NH4Cl 24mmol/L, 微量元素混合液 7ml/L, pH3.0柠檬酸—Na2HPO4缓冲溶液 0.01mol/L, KH2PO4 1.4×10-2 mol/L, MgSO4·7H2O 2.03×10-3mol/L, CaCl2·2H2O 6.8×10-4 mol/L, VB1 2.97×10-6 mol/L, 吐温80 4.0g/L, 愈创木酚0.01mmol/L, CuSO4 ·5H2O 0.005mmol/L,最佳发酵条件为培养基初始pH3.0, 菌体生长6d,培养基装量为250ml三角瓶中25ml培养液,25℃条件下振荡培养(150r/min)9d。     

六种藓类植物茎的比较解剖学研究

通过对6种藓类植物,即褶叶青藓(Brachythecium salebrosum(Web.et Mohr.)B.S.G.)、湿地匐灯藓(Plagiomnium acutum(Lindb.)Kop.)、侧枝匐灯藓(Plagiomnium maximoviczii(Lindb.)Kop.)、大凤尾藓(Fissidensnobilis Griff.)、大羽藓(Thuidium cymbifolium(Doz.et Molk.)B.S.G.)和大灰藓(Hypnum plumaeforme Wils.)嫩茎和老茎的石蜡切片和显微观察发现,同一藓类植株的嫩茎和老茎,茎结构稳定,不同种藓类植物茎横切面具有不同特征.植物体茎横切面形状、表层细胞的层数、细胞大小和细胞壁厚薄、皮层细胞大小和形状、中轴的有无以及比例等特征可以作为藓类植物的分科分类依据之一.     

Photoregulation of seed germination of wild-type and of an aurea-mutant of tomato

Seed germination of an aurea mutant of tomato ( Lycopersicon esculentum Mill.) is promoted by continuous irradiation with red, far-red or long-wavelength far-red (758 nm) light as well as by cyclic irradiations (5 min red or 5 min far-red/25 min darkness). Far-red light applied immediately after each red does not change the germination behaviour. Seed germination of the isogenic wild-type, cv. UC-105, is promoted by continuous and cyclic red light while it is inhibited by continuous and cyclic far-red light and by continious 758 nm irradiation. Far-red irradiation reverses almost completely the promoting effect of red light. The promoting effect (in the aurea mutant) and the inhibitory effect (in the wild-type) of continuous far-red light do not show photon fluence rate dependency above 20 nmol m⁻² s⁻¹. It is concluded that phytochrome controls tomato seed germination throgh low energy responses in both the wild type and the au mutant. The promoting effect of continuous and cyclic far-red light in the au mutant can be attributed to a greater sensitivity to P_fr.     

真菌类遗传学分析的知识结构教学

本文以认知结构理论为指导,讨论了真菌类遗传分析与高等动植物遗传分析的内在联系,认为利用这种内在联系进行教学可收到好的效果并说明了作者的具体教学过程。 Abstract:In the paper, the relationship between genetic analysis of Fungi and genetic analysis of high animal and plant was discussed.A good results were obtained when we adopted this method in the teaching.     

Interconnection of parameters of regulation system of lipid peroxidation and of morphophysiological parameters of mouse liver

A complex analysis of seasonal fluctuations of the mean group parameters of the system of regulation of lipid peroxidation has been performed in liver of Balb/c mice. Association of lipid characteristics and morphophysiological parameters is studied in the Balb/c mouse liver. An inter-connection is revealed between the liver index and the amount of lysoforms of phospholipids, the scale and character of the interconnection differing essentially depending on proportion of phos-phatidylcholine in mouse liver phospholipids.     

Time of detection of recessive genes: effects of system of mating and number of examined individuals

Summary Anthers were cultured from two sets of seven lines of hexaploid wheat (Triticum aestivum L.) with different cytoplasms, the euplasmic nucleus donors, Siete Cerros 66 and Penjamo 62, as well as their six alloplasmic lines derived from wild relative species of the genera Triticum and Aegilops. Significant cytoplasmic and nuclear effects but no cytoplasmic-nuclear interaction were found for embryogenic anther response, with the best performance of Penjamo 62 in Ae. kotschyi cytoplasm. Plant regeneration was not affected significantly by the cytoplasmic background of the lines cultured. The possible genetic implications of the observed cytoplasmic and nuclear influences on the in vitro haploid induction of wheat are discussed.     

Physiological characteristics of various species of strains of carboxydobacteria

Seven strains of aerobic carbon monoxide-oxidizing bacteria (carboxydebacteria) when growing on CO as sole source of carbon and energy had doubling times which ranged from 12–42 h. The activity profiles obtained after discontinuous sucrose density gradient centrifugation indicated that the CO-oxidizing enzymes are soluble and the hydrogenases are membrane-bound in all strains examined. The CO-oxidizing enzymes of Pseudomonas carboxydohydrogena, Pseudomonas carboxydoflava, Comamonas compransoris, and the so far unidentified strains OM2, OM3, and OM4 had a molecular weight of 230,000; that of Achromobacter carboxydus amounted to 170,000. The molecular weights of the CO-oxidizing and H₂-oxidizing enzymes turned out to be identical. The cell sonicates were shown to catalyze the oxidation of both CO and H₂ with methylene blue, thionine, phenazine methosulfate, toluylene blue, dichlorophenolindophenol, cytochrome c or ferricyanide as electron acceptors. Methyl viologen, benzyl viologen, FAD⁺, FMN⁺, and NAD(P)⁺ were not reduced. The spectrum of electron acceptors was identical for all strains tested. Neither free formate, hydrogen nor oxygen gas were involved in the CO-oxidation reaction. Methylene blue was reduced by CO at a 1:1 molar ratio. The results indicate that CO-oxidation by carboxydobacteria is catalyzed by identical or similar enzymes and that the reaction obeys the equation CO+H₂OCO₂+2H⁺+2e^- as previously shown for Pseudomonas carboxydovorans.Dedicated to Otto Kandler remembering almost three decades of enjoyable cooperation     

Modulation of allostery of pyruvate kinase by shifting of an ensemble of microstates

Since the introduction of the concepts of allostery about four decades ago, much advancement has been made in elucidating the structure-function correlation in allostery. However, there are still a number of issues that remain unresolved. In this review we used mammalian pyruvate kinase (PK) as a model system to understand the role of protein dynamics in modulating cooperativity. PK has a triosephosphate isomerase (TIM)(α/β)₈ barrel structural motif. PK is an ideal system to address basic questions regarding regulatory mechanisms about this common (α/β)₈ structural motif. The simplest model accounting for all of the solution thermodynamic and kinetic data on ligand-enzyme interactions involves two conformational states, inactive E^T and active E^R. These conformational states are represented by domain movements. Further studies provide the first evidence for a differential effect of ligand binding on the dynamics of the structural elements, not major secondary structural changes. These data are consistent with our model that allosteric regulation of PK is the consequence of perturbation of the distribution of an ensemble of states in which the inactive E^T and active E^R represent the two extreme end states. Sequence differences and ligands can modulate the distribution of states leading to alterations of functions. The future work includes: defining the network of functionally connected residues; elucidating the chemical principles governing the sequence differences which affect functions; and probing the nature of mutations on the stability of the secondary structural elements, which in turn modulate allostery.