炮制加工对天麻化学成分影响的研究进展

天麻作为著名名贵药材和药食同源试点品种,其产量和消费量逐年上升,炮制加工对其化学成分及活性的影响成为诸多研究者关注的重点。本文从炮制加工(以蒸制和干制为代表)对天麻营养成分(如淀粉、蛋白质和维生素等)、功效成分(如腺苷、多酚及其酚苷和活性多糖等)及天麻微观结构的影响视角深入详细分析了天麻最近5年的研究进展,结果证实在加工过程中天麻化学成分的变化与其微观结构有一定的关联性,揭示了炮制加工影响天麻化学成分及其微观结构的内在原因,最后总结了天麻开发利用现状,为天麻的精细加工及多功能化研发提供了基础与依据。     

天麻矿物质吸收及其营养机理探讨

探讨了天麻吸收矿物质过程和天麻的营养机理。研究蜜环菌在天麻的金属元素、非金属元素吸收中起的作用, 阐明天麻的有机营养吸收过程。提出了天麻吸收非金属元素的两个途径,分析了天麻吸收金属元素的“泵”的作用机理。指出了天麻蜜环菌之间的游离氨基酸特别是天冬氨酸和谷氨酸的交流是天麻和蜜环菌生长发育的关键。     

天麻生长过程中可溶性蛋白和多糖的累积规律

以不同来源的蜜环菌 [(Armillariamellea(Vahl.exFr.)Qu啨ｌ.) ]4个菌株分别伴栽红天麻 (GastrodiaelataBl.f.elata)、乌天麻 (GastrodiaelataBl.f.glaucaS .Chow)以及红乌杂交天麻 ,对天麻生长发育过程中可溶性蛋白和多糖含量的变化规律进行了初步研究。结果表明 ,随着天麻的生长 ,菌株M1 、M2 、M3和M4 伴栽的红天麻、乌天麻以及红乌杂交天麻中 ,其可溶性蛋白含量均在逐步增加 ;在同一生长期内 ,4个菌株伴栽的红乌杂交天麻中可溶性蛋白含量大于红天麻和乌天麻。由菌株M1 、M2 、M3和M4 伴栽的红天麻、乌天麻以及红乌杂交天麻 ,其多糖含量呈现先升高后下降的趋势 ;在同一生长期中 ,4个菌株伴栽的红天麻的多糖含量大于乌天麻和红乌杂交天麻。     

海拔对乌红杂交天麻产量与品质的影响及其酶学作用机制

蜜环菌生物种和天麻的共生关系是二者侵染-消化系统相互作用的结果,受到温度等环境因子的调节。为揭示海拔对天麻产量及品质的影响,以及温度升高影响蜜环菌生物种-天麻共生关系的作用机制。该研究通过测定不同海拔栽培天麻的产量、主要药用成分天麻素和对羟基苯甲醇的含量;在室内对天麻共生体进行升温处理,测定天麻组织液几丁质酶、β-1,3-葡聚糖酶、苯丙氨酸解氨酶与多酚氧化酶的活性变化,及天麻组织提取液对蜜环菌菌丝体的抑制效应。结果显示:(1)海拔对乌红杂交天麻的产量和有效药用成分存在显著影响,在1 600 m产量最高,且杂交天麻在海拔1 600 m有效成分含量最高。(2)温度显著影响天麻组织的抑菌系统,且天麻的消化酶及防御酶系统对其的响应具有差异性,具体表现为低温状况下天麻的消化酶系统活性增强,高温时防御酶系统活性提升。(3)温度升高导致天麻组织液对蜜环菌菌丝体的抑制效果显著下降,天麻活体中可能存在促进蜜环菌生长的热失活因子。研究表明,天麻种植区海拔下降引起的温度升高可能削弱天麻消化和抑制蜜环菌的能力,从而破坏天麻-蜜环菌的共生平衡。该研究对于揭示蜜环菌-天麻的共生机制具有重要科学价值,并对天麻栽培的区划具有实际指导意义。     

天麻的第二营养来源研究

用同位素32P、15N、86Rb标记技术,证实天麻除必需由蜜环菌获得营养外,还能从土壤养分中得到补充营养,可称为第二营养来源。土壤养分(肥料)可通过蜜环菌或天麻表皮进入天麻体内(参与天麻代谢生理活动),可能影响天麻和蜜环菌的关系和天麻生长,因此研究天麻施肥技术和对产量、质量的影响是很有意义的。     

基于HPLC-MS的西藏天麻的化学成分分析与品质鉴定

目的:天麻具有许多药理作用和重要开发价值,通过探索天麻的未知化学成分和鉴定西藏天麻种群的品质,为深入研究、开发和利用西藏优良天麻种群提供科学技术支持。方法:本研究采用HLPC-MS(液质联用)技术测定西藏天麻的化学成分;采用高效液相色谱技术测定西藏6个天麻种群的生化指纹图谱,利用天麻素峰面积、数学公式和SPSS软件,计算和比较西藏6个天麻种群的平均天麻素含量和各种化学成分分离峰的总面。结果:从天麻块茎中发现了33个未报道的化学物质;西藏天麻的生化指纹图谱具有7个较大的共有特征分离峰,分别位于1.854、2.759、7.279、7.591、8.500、9.557、10.753min;根据生化指纹图谱特征可将它们分为三个主要类型;凡是带有一型生化指纹图谱的天麻个体和种群往往含有更高的天麻素和更大的分离峰总面积,品质更优良。结论:西藏天麻种群3和种群6以一型生化指纹图谱为主,其天麻素含量最高,分离峰总面积最大,品质最优良,具有重要研究、开发和保护价值。本研究成果对于天麻的化学成分分析与鉴定、天麻种群和品质鉴定与评价以及西藏天麻的品种选优、资源保护与利用具有重要指导意义和科学价值。     

天麻特异DNA序列的克隆及其在天麻鉴定中的应用

应用改进的RAPD方法测定了名贵中药材天麻基因组DNA指纹图谱;通过选择和回收各种天麻种群共有和优良种群特有的DNA片段,加以克隆、测序和生物信息学分析,证明其中5个DNA序列是未报道的,已被美国基因数据库收录,并运用高效液相色谱技术测定了天麻样本的有效成分天麻素含量。运用PCR技术研究了这些DNA序列在9个天麻种群中的分布及其与天麻素含量的关系。结果表明这5个DNA序列在这些天麻种群中的分布各不相同,其中DNA序列1是所研究的全部天麻种群共有、而其伪品没有的特异DNA分子标记;DNA序列2可能与天麻的天麻素含量高有关。这些DNA标记序列可用于天麻的真伪鉴别、品种鉴定和优选优育等。     

基于HPLC—MS的西藏天麻的化学成分分析与品质鉴定

目的：天麻具有许多药理作用和重要开发价值,通过探索天麻的未知化学成分和鉴定西藏天麻种群的品质,为深入研究、开发和利用西藏优良天麻种群提供科学技术支持。方法：本研究采用HLPC．MS（液质联用）技术测定西藏天麻的化学成分;采用高效液相色谱技术测定西藏6个天麻种群的生化指纹图谱,利用天麻素峰面积、数学公式和SPSS软件,计算和比较西藏6个天麻种群的平均天麻素含量和各种化学成分分离峰的总面。结果：从天麻块茎中发现了33个未报道的化学物质;西藏天麻的生化指纹图谱具有7个较大的共有特征分离峰,分别位于1．854、2．759、7．279、7．591、8．500、9．557、10．753min;根据生化指纹图谱特征可将它们分为三个主要类型;凡是带有一型生化指纹图谱的天麻个体和种群往往舍有更高的天麻素和更大的分离峰总面积。品质更优良。结论：西藏天麻种群3和种群6以一型生化指纹图谱为主,其天麻素含量最高,分离峰总面积最大,品质最优良,具有重要研究、开发和保护价值。本研究成果对于天麻的化学成分分析与鉴定、天麻种群和品质鉴定与评价以及西藏天麻的品种选优、资源保护与利用具有重要指导意义和科学价值。     

天麻竞争性杂菌无公害防控技术

天麻属兰科多年生共生异养草本植物,其球茎具有很高的药用和保健价值,是主产于中国的传统常用名贵中药,三峡地区是天麻主产区之一。由于天麻病害日益加重,致使天麻品质退化、商品形态变劣、产量逐年降低,有的甚至出现种植绝收现象。为配合天麻GAP基地建设,在三峡地区对天麻病害进行了系统调查与研究,发现天麻竞争性杂菌是导致天麻产量质量下降的罪魁祸首之一,对其发生情况及其行之有效的无公害防控技术措施作了概述。     

天麻初加工方法对主要成分含量的影响及加工方法的化学模式识别

为了阐明天麻初加工对其主要成分的影响,采用HPLC法测定酚类含量,试剂盒法测定多糖含量。并应用HCA、PLS-DA和GS-SVM对不同样品进行化学模式识别分析,寻找差异性成分对初加工方法进行追溯。结果表明:与对照组相比,不同初加工对酚类和多糖影响显著,发汗、蒸制和煮制使天麻素和巴利森苷类增加,对羟基苯甲醇和对羟基苯甲醛降低;酒制使天麻素增加,其他成分均不同程度降低。发汗和煮制使多糖增加,蒸制多糖减少,酒制多糖无显著变化。HCA和PLS-DA对不同样品分类有效,天麻素和多糖为追溯标志性成分。采用GS-SVM建立判别模型,交叉验证和预测正确率分别为97.37%和100%。因此,以天麻主要活性成分综合考察不同加工方法对天麻质量的影响,符合中药的特点、体现中药的特征;化学模式识别可作为追溯天麻不同加工方法的有效手段。     

Distribution of N,P, K,Ca, Mg,S, Zn,Fe, Mn and Cu in groundnut

Summary Concentration of N, P, K, Ca, Mg and S in summer groundnut crop was higher than in kharif while Zn, Fe, Mn and Cu contents were higher in summer crop. Kernel's N, P and Zn; Leaflet's Ca and Mn; Stem's K and Fe; Root's S and Cu and Petiole's Mg contents were highest. Shell's N, P, K, Mg, S, Zn and Cu; Kernel's Ca, Fe and Mn contents were the least. N, P, K, S, Zn and Cu concentrations decreased linearly as the crop grew. Ca, Mg, Fe and Mn concentrations did not display any distinct pattern. Ca concentration was positively correlated with pod yield in both the seasons.     

Sensory evaluation of fruit quality and nutritional composition of 20 breadfruit (Artocarpus, Moraceae) cultivars

Twenty breadfruit cultivars growing in afield genebank at Kahanu Garden, National Tropical Botanical Garden, Hana, Maui, Hawaii, were evaluated for sensory attributes and nutrient composition. A taste panel scored eight flavor/aroma attributes, five textural attributes, and color. There were significant differences (P ≤ 0.01) in aroma, visual texture, flavor intensity, sweetness, starchiness, moistness, stringiness, firmness, and color. The greatest differences were in color and texture. Nutrient analyses showed significant differences (P ≤ 0.05) for energy, carbohydrates, ash, crude protein, potassium, magnesium, sodium, iron, copper, and zinc. Considering the versatility of breadfruit as a food, its ease of production, and its nutritional value, the numerous good quality flavorful cultivars available should be more widely grown for sustainable agriculture and food security.     

Simultaneous measurement of the trace elements Al, As, B, Be, Cd, Co, Cu, Fe, Li, Mn, Mo, Ni, Rb, Se, Sr, and Zn in human serum and their reference ranges by ICP-MS

The goal of this article was to establish reference ranges of the concentration of trace elements in human serum and to compare these results with those reported by other authors. We describe the sample preparation and measurement conditions that allow the rapid, precise, and accurate determination of Al, As, B, Be, Cd, Co, Cu, Fe, Li, Mn, Mo, Ni, Rb, Se, Sr, and Zn in human serum samples (n=110) by inductively coupled plasma-mass spectrometry (ICP-MS). Accuracy and precision were determined by analyzing three reconstituted reference serum samples by comparison with other methods and by the standard addition procedure. The advantages of the ICP-MS method include short time of analysis of the elements mentioned, low detection limit, high precision, and high accuracy. Disadventages include a high risk of contamination due to the presence of some of the elements of interest in the environment, the relatively delicate sample handling, and the high cost of the equipment.     

辽宁省高等植物多样性编目

为给辽宁植物多样性保护提供本底数据, 更准确地评价植物濒危及保护等级, 以及更好地给农学、林学、生态学、系统学等研究提供可靠的基础性数据, 本文首次将几代人在辽宁境内发现的高等植物进行汇总、编目, 包括苔藓植物和维管束植物。苔藓植物根据正式发表的文献和中国科学院沈阳应用生态研究所东北生物标本馆(IFP)馆藏采自辽宁省全域的苔藓植物标本编制。维管束植物主要根据5个方面的信息整理: 作者多年野外调查的一手资料、文献、同行交流、公众提供信息、标本等。编目内容包括辽宁省高等植物总名录、辽宁省栽培植物名录、辽宁省外来植物名录、辽宁省仅有栽培植物的科属目录、辽宁省仅有外来植物的科属目录; 编目中涉及的物种均有科属地位、中文名、拉丁名、生境、产地(县级), 总名录中附有每个物种的信息凭证, 包括标本信息、文献信息或照片依据。本编目共计收录植物254科1,176属3,241种73亚种447变种119变型。其中, 苔藓植物为辽宁地区首次披露名录信息, 计83科205属491种4亚种7变种(含藓类52科156属373种1亚种5变种, 苔类29科46属114种3亚种2变种, 角苔类2科3属4种)。维管束植物虽非首次披露名录信息, 但与以往发布的维管束植物名录相比, 本次收录的种类数最多, 计171科971属2,750种69亚种440变种119变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物5科19属47种1亚种13变种2变型, 被子植物147科910属2,607种66亚种420变种117变型)。经统计, 辽宁省所有苔藓植物均为本土野生植物。维管束植物中, 野生植物计149科741属2,077种62亚种378变种93变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物4科8属12种6变种1变型, 被子植物145科133属1,969种60亚种365变种92变型), 栽培植物计104科390属673种7亚种62变种26变型(含裸子植物5科17属35种1亚种7变种1变型, 被子植物99科373属638种6亚种55变种25变型); 本土植物计158科796属2,235种65亚种421变种116变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物5科14属29种12变种2变型, 被子植物134科740属2,110种63亚种402变种114变型), 外来植物计88科316属515种4亚种19变种3变型(含裸子植物3科10属18种1亚种1变种, 被子植物85科306属497种3亚种18变种3变型)。本编目仅是辽宁省高等植物的阶段性汇总, 尚需要根据野外工作的拓展和研究工作的深入不断完善。     

Mass flow to the root system and mineral uptake of a beech stand calculated from 3-year field data

Summary Mass flow to the root surface is defined here as the concentration of an element in the bulk soil solution times the transpirational water uptake of the plant stand. The ratio of uptake of a mineral element to mass flow is called Mass Flow Coefficient (MFC). From an ecosystem study in a beech forestMFCs for 11 elements have been calculated from 3 years of monthly measurements. They amounted to 0.076, 0.086, 0.34, 0.77, 1.5, 1.7, 2.2, 2.9, 8.3, 11, and 120 for Al, Cl, Na, S, Fe, Mg, Mn, Ca, K, N and P respectively. It is concluded that this stand discriminates against Al, Cl and Na in ion uptake and takes up selectively Mn, Ca, K, N and P while for S, Fe and Mg mass flow transports almost the same amount to the root system as is taken up by the above ground stand.     

Analysis of spatial and temporal gene expression patterns in blastula and gastrula stage chick embryos

Studies on the genetic basis of rostral-caudal specification, neural induction, and head development require knowledge of the relevant gene expression patterns. Gaps in our understanding of gene expression have led us to examine the detailed spatiotemporal expression patterns of 19 genes implicated in early development, to learn more about their potential role in specifying and patterning early developmental processes leading to head formation. Here, we report the expression patterns of these markers in blastula- and gastrula-stage chick embryos, using whole-mount in situ hybridisation. Nodal, Fgf8, Bmp7, Chordin, Lim1, Hnf3beta, Otx2, Goosecoid, Cerberus, Hex, Dickkopf1, and Crescent are all already expressed by the time the egg is laid. When the primitive streak has reached its full length, a later group of genes, including Ganf, Six3, Bmp2, Bmp4, Noggin, Follistatin, and Qin (BF1), begins to be expressed. We reassess current models of early rostral patterning based on the analysis of these dynamic spatiotemporal expression patterns.     

Ostracodes du Cénomanien supérieur et du Turonien de la zone sous-pyrénéenne orientale (Corbières méridionales, SE France). Systématique, biostratigraphie, paléoécologie et paléobiogéographie

Thirty-four species of ostracodes are collected in the platform series of the Southern Corbières; two biostratigraphical assemblages, with 13 and 29 species, are respectively recognized in Cenomanian and Upper Turonian; palaeoecology is specified. At that time, the ostracode sub-province of South-West France, established on Southern Corbières, Aquitaine, Touraine-Poitou-Charentes region and Provence, is connected with Eastern and Northern regions and countries: Sub-alpines ranges, Paris Basin, Great Britain, Switzerland and Bohemia, and with the Iberian Peninsula, sub-province of North-Central Spain and Western Portuguese Basin. The crossing of the Tethys and the Atlantic Ocean is realized, in Turonian, by some rare species.     

The cephalopod macrosystem: A historical review, the present state of knowledge, and unsolved problems: 3. Classification of Bactritoidea and Ammonoidea

A new classification is proposed in which Bactritoidea and Ammonoidea are considered as subclasses. The subclass Bactritoidea includes a single order, Bactritida. The subclass Ammonoidea includes ten orders: Anarcestida (suborders Agoniatitina, Auguritina, Anarcestina, Gephurocerina, Timanocerina, and Prolecanitina), Tornocerida, Goniatitida (with suborders Goniatitina and Cyclolobina), Praeglyphiocerida, Clymeniida (with suborders Gonioclymeniina and Clymeniina), Medlicottiida, Ceratitida (with suborders Paraceltitina, Otocerina, Meekocerina, Sagecerina, Ptychitina, Ceratitina, Pinacocerina, Megaphyllitina, Arcestina, and Lobitina), Phyllocerida, Lytocerida (with suborders Lytocerina and Turrilitina), and Ammonitida (with suborders Psilocerina, Haplocerina, Stephanocerina, Cardiocerina, and Ancylocerina).     

Phylogenetic relationships within the Gentianales based on NDHF and RBCL sequences, with particular reference to the Loganiaceae

Phylogenetic relationships in the Gentianales with focus on Loganiaceae sensu lato are evaluated using parsimony analyses of nucleotide sequence data from the plastid genes rbcL and ndhF. Inter- and intrafamilial relationships in the Gentianales, which consist of the families Apocynaceae (including Asclepiadaceae), Gelsemiaceae, Gentianaceae, Loganiaceae, and Rubiaceae, are studied and receive increased support from the combination of rbcL and ndhF data, which indicate that the family Rubiaceae forms the sister group to the successively nested Gentianaceae, Apocynaceae, and Loganiaceae, all of which are well supported. The family Gelsemiaceae forms a distinct, supported group sister to Apocynaceae. The Loganiaceae sensu stricto form a strongly supported group consisting of 13 genera: Antonia, Bonyunia, Gardneria, Geniostoma, Labordia, Logania, Mitrasacme, Mitreola, Neuburgia, Norrisia, Spigelia, Strychnos, and Usteria. These genera form two well-supported lineages. Several members of Loganiaceae sensu Leeuwenberg and Leenhouts, i.e., Androya, Peltanthera, Plocosperma, Polypremum, and Sanango are clearly not members of the Gentianales. The earlier exclusion of Buddlejaceae (including Buddleja, Emorya, Gomphostigma, and Nicodemia) as well as the reclassification of the genera Nuxia and Retzia to Stilbaceae of the Lamiales are all well supported.