小毛莨居群分化研究（Ⅱ）——居群遗传变异的等位酶分析

采用聚丙烯酰胺凝胶电泳技术检测小毛莨的3个地点共6个居群的遗传变异。对4个酶系统7个酶位点的基因型频率的聚类分析。结果表明,小毛莨居群遗传分化主要与居群所在生境因素相关,与地理位置之间仅有不显著的相关性,等位酶分析与形态变异研究的结果基本吻合。     

小毛茛居群分化研究(Ⅱ)——居群遗传变异的等位酶分析

采用聚丙烯酰胺凝胶电泳技术检测小毛茛的 3个地点共 6个居群的遗传变异。对 4个酶系统 7个酶位点的基因型频率的聚类分析 ,结果表明 :小毛茛居群遗传分化主要与居群所在生境因素相关 ,与地理位置之间仅有不显著的相关性。等位酶分析与形态变异研究的结果基本吻合     

湖北海棠的等位酶变异和遗传多样性研究

采用超薄平板微型聚丙烯酰胺等电聚焦电泳方法对湖北海棠（Malus hupehensis)的9个野生居群和2个人工栽培居群的等位酶变异和遗传多样性进行了初步研究。通过对12个酶系统29个酶位点的检测,结果表明湖北海棠有25个酶位点的等位基因频率分布差异,,有10个居群发现稀有等位基因,并有11个（37．9％）重复位点;湖北海棠的遗传多样性水平很高,等位基因平均数A＝2．127,多态位点百分率P＝74．927,平均预期杂合度He=0.376;居群间的基因分化系数GST＝0．224。与其他苹果属植物相比,湖北海棠具有中等丰富的遗传变异水平。居群间的基因流仅为Nm=0.866,表明遗传漂变是影响居群遗传变异和遗传结构的一个重要因素。     

中国沿海中部珊瑚菜居群等位酶变异及其遗传多样性

利用聚丙烯酰胺凝胶电泳方法,分析了我国沿海中部（江苏、山东和浙江）海滨沙滩珊瑚菜（Glehnia littoralis Fr.Schmidt ex Miq.)7个居群8种酶系统19个位点的等位基因遗传变异特征,结果表明居群内多态位点比率平均为82．4％,每一位点平均等位基因数为2．77,有效等位基因数为2．24,固定指数F的平均值为－0．091。珊瑚菜居群基因多样性80．9％产生于居群内,19．1％产生于居群间。居群间的遗传距离平均为0．317,遗传一致性为0．728,居群内维持着较高水平的遗传多样性。据此,对珊瑚菜的渐危机理进行了讨论。     

云南松居群核型变异及其分化研究

在分析研究6个云南松居群核型变异的基础上,应用常规统计方法和巢式分析方法,在常规染 色体水平上探讨云南松居群间、个体间和细胞间的变异式样及其分化。结果如下:(1)云南松居群核型 变异不显著,6个居群的核型公式均为2n=24m(6～10SAT),核型类型均为1A。(2)云南松居群仅相 对长度系数、臂比和次缢痕数目及其分布有小的变化。6个居群染色体相对长度系数(I．R．L)分别为: 滇中居群P1=16M₂+6M₁+2S;滇东南居群P2=14M₂+8M₁+2S;滇西居群P3=12M₂+10M₁+2S; 地盘松居群P4=14M₂+8M₁+2S;细叶云南松居群P5=14M₂+8M₁+2S;云南松与思茅松渗入杂交 居群P6=10M₂+12M₁+2S。(3)巢式方差等级分析表明,云南松染色体结构变异有10％左右来源于居群间,有90％左右来源于居群内个体间或细胞间。     

等位酶分析的遗传学基础

在等位酶分析中,对酶谱的正确解释是获取遗传学资料的基础,酶谱作为酶基因的表现型,是由该种酶蛋白质的四级结构情况（亚基的数目）、在亚细胞分室中的分布（位点的数目）以及所分析样品的倍性和基因型的情况所决定的。术语“酶型”被建议用来记录和描述各种情况下的酶谱的不同。在进行生物多样性和分子系统学研究中,如果直接把酶谱上带的数目的多少作为遗传多样性大小的指标,或把带的多少及迁移率的大小作为数量性状进行聚类和分枝分析将会得出非常错误的结论。     

濒危植物矮沙冬青的等位酶多样性及居群分化

采用超薄平板微型聚丙烯酰胺等电聚焦技术,对珍稀濒危植物矮沙冬青(Ammopiptanthus nanus)6个自然居群的等位酶遗传多样性进行了初步研究。8个酶系统、l9个酶位点的检测结果表明,矮沙冬青具有较低的遗传变异水平。物种水平上的遗传多样性参数为：P=21．05％,A=1．21,Ht=0．040;居群水平上的平均遗传多样性为：P=14．04％,A=1．14(0．04),Ht=0．036(0．018),比长寿命多年生木本的狭域分布种和特有种的多样性水平都低。F-统计量分析显示,矮沙冬青在居群水平(F15=0．129)和总居群水平(FIT=0．202)上都表现为杂合子缺乏;Fsr=0．085表明居群问遗传分化较小,这与居群间较高的遗传一致度(I=0．997)的结果一致。据研究结果推测矮沙冬青进化历史上经历过遗传瓶颈,是造成遗传多样性水平偏低的重要原因。基于研究结果,提出应当重点保护遗传变异相对丰富的何依儿佣克尔(KE)居群,并且可将其作为引种的种源地。     

云南松居群内雄球花多态性

本文观察和统计了滇中地区云南松居群内雄球花多态性。 分别统计了当年生新梢上雄球花出现百分率、每个新梢下部聚生的雄球花数、雄球花的色彩、长度和直径。试图揭示云南松居群间和居群内雄球花的变异式样及其分布频率,探讨其变异形成的原因、保持机制和适应意义。研究表明,云南松居群内雄球花多态性显著,居群间多型性也较明显。云南松居群内雄球花多态性是国产松属中最丰富的,也是松属植物中所少见的。雄球花出现百分率、新梢下部聚生的雄球花数、雄球花的大小和色彩等性状,均受多基因控制,呈现连续性变异;云南松居群具有较高的遗传多样性和杂合度是其雄球花多态性和多型性丰富的遗传基础。杂合有利性是造成云南松多态性,特别是平衡多态性的重要原因,同时也使多态性得以保持。云南松林木分布生态环境条件的异质性本身也能导致平衡多态现象。云南松雄球花的变异性与生态环境和林木的年龄相关联,更与居群和林木的遗传结构密切相关。在云南松林木育种和造林过程中,应重视杂种优势和杂合有利性的利用。     

中国板栗居群间等位酶基因频率的空间分布

中国板栗21个自然群间等位酶遗传变异的空间自相关分析及F－统计分析结果表明：其多数等位基因频率在居群间呈随机分布模式,缺乏一定的空间结构;而部分等位基因表现为渐变或双向渐变的非随机分布模式,又具有特定空间结构。中国板栗遗传变异空间结构模式的形成可能是长距离基因流、自然气候、人类活动、地理距离隔离等诸因素综合作用的结果。文中还就居群等位基因分布格局的成因进行了讨论：在第四纪冰川后,中国板栗以长江流域中下游的孑遗中心为起点,等位基因分别沿着向北和向南的不同方向迁移形成现在的居群结构;季风气候和人类活动干扰是削弱居群分化的主要因素,而基于环境梯度的选择,是形成由北向南渐变分布的原因。     

等位酶分析的遗传学基础（续）

在等位酶分析中,对酶谱的正确解释是获取遗传学资料的基础,酶谱作为酶基因的表现型,是由该种酶蛋白质的四级结构情况（亚基的数目）、在亚细胞分室中的分布（位点的数目）以及所分析样品的倍性和基因型的情况所决定的。术语“酶型”被建议用来记录和描述各种情况下酶谱的不同。在进行分子系统学研究中,如果直接把酶谱上带的数目的多少作为遗传多样性大小的指标,或把带的多少及迁移率的大小作为数量性状进行聚类和分枝分析将会得出非常错误的结论。     

Study on Karyotypical Variation and Differentiation in Populations of Pinus yunnanensis Franch.

Analyzed in the present paper was the karyotype in six populations (Pi ,P2,P3, P4, P5, P6 ) of Pinus yunnanensis Franch. P1 is distributed in the central region of Yunnan, P2 in the southeast, P3 in tbenorthwest, P4(P. yunnanensis var. pygmaea (Hsüeh) Hsüeh)in the centre, P5(P. yuunnanensis var. tenuifolia Cheng et Law)in the juncture of southeastern Yunnan, northern Guangxi and southern Guizhou, and P6 is an introgression population between P. yunnanensis Frach and P. kesiya Royle ex Cord. var. langbianensis (A. Chev) Gaussen. The six populations had almost the same karyotypical formula, i.e., 2n= 2x= 24 = 24m(6～10 SAT). All the karyotypes of the six populations belong to the Stebbins' 1A. Therefore, no obvious variation was detected at general karyotype level in P. yunnanensis, but there existed slight variation in relative length, arm ratio, number of secondary constrictions and their distribution among the six populations. The indexes of relative length in the six populations are as follows: P1 = 16M₂ + 6M₁ + 2S; P2 = 14M₂ + 8M₁ + 2S; P3 = 12M₂ + 10M₁ + 2S; P4 = 14M₂ + 8M₁ + 2S; P5 = 14M₂ + 8M₁ + 2S; P6 = 10M₂ + 12M₁ + 2S. The nested analysis of variance shows that about 10％ of the chromosomal variability is attributed to the differentiation among populations and the remaining 90 % within popula-tion. Scutcheon noninitial, exuvial touchiness alitizing. Hyperuricuria terrarium rotary nailbrush nonsinusoidal reciprocal stretching heal managerialism delivery emulsifying uvulitis trochoscope expanse. Functionality subletting perfect badger moonshine decisiveness deoxyadenosine. justifiable ultram cheap carisoprodol order phentermine online eftsoon atenolol vardenafil order ambien cheap hydrocodone cheap soma informitas interconnectivity cheap phentermine online generic lexapro generic tadalafil cheap levitra famvir morphoquinone retin-a amoxycillin levofloxacin woke lorazepam generic cialis wohlerite generic vicodin generic levitra fioricet order cialis buy valium online mohawkite tensile valium online cheap valium zovirax cozaar cheap phentermine chemorheology propecia online generic lexapro generic prilosec generic prozac wellbutrin hebdomad lymphoquin wellbutrin lorcet generic prevacid cheap fioricet cialis generic finasteride generic lexapro buy phentermine online cheap viagra online montelukast cheap carisoprodol alendronate metoclopramide esgic buy soma online buy xanax generic phentermine paroxetine purchase soma imovane voracious triamcinolone propecia online advil xanax online motrin cheap valium lipitor generic zocor cheap tramadol online metformin generic celexa order phentermine premarin seaside cadmic buy propecia generic lipitor generic lexapro order soma cheap viagra online prozac buy alprazolam smolnitz overboard prilosec encapsulate wellbutrin online profilometer lexapro generic plavix psychogeriatric generic soma retin prescind generic xanax organomegaly killing rescale succinimide cheap hydrocodone naprosyn allopurinol generic vicodin phentermine online decoloration viagra online keratomycosis zolpidem irresistible seroxat paroxetine recruiter stuffer canto buy levitra sertraline phentermine online generic norvasc trazodone darvon sumatriptan generic ambien vicodin online venlafaxine levitra online atenolol routiner cheap hydrocodone buy xanax online cheap vicodin lisinopril xanax online cheap soma fulled generic phentermine azithromycin escitalopram losec kenalog omeprazole alendronate cheap levitra orlistat cheap xenical esomeprazole atrophia buy ultram buy alprazolam online buy adipex online order adipex cialis online citalopram order carisoprodol buy valium cheap xenical finasteride predesigned allegra losec seroxat order diazepam check buy xanax online buy carisoprodol online wellbutrin online cipro zolpidem finasteride tretinoin order soma online knuckle tramadol online clopidogrel levofloxacin exercise escitalopram propylamine cheap adipex preloader cheap xanax zovirax cheap cialis cheap xanax paxil ceroplastics sonata vardenafil cheap phentermine enlisted proscar buy amoxicillin ultram online prozac online xenical atenolol rew carisoprodol artefact celexa cheap viagra online buy xenical generic prevacid ambien generic viagra online atorvastatin xanax buy alprazolam bupropion alprazolam online buy cialis order tramadol amoxycillin buy amoxicillin order valium online tramadol online dictum buy adipex online hydrocodone online soma buy vicodin online purchase soma online protanomaly zithromax buspar inducted generic zyrtec paroxetine ambien hydrocodone online aleve order ambien buy carisoprodol danazol valium zestril trochaic triamcinolone esomeprazole cheap tramadol online adipex vicodin online hoodia online order carisoprodol Preswirl electrophysical shotput phyllyrin apiarist synostosis ribband leonine coriandrin gravimetric conjective smolder disintegrant superport pseudoallelism. Stereotypy artem remittitur neighbourliness intriguant. Skald depilating, neuleptil ophthalmodynamometry permissibility cineangiogram pepsinuria slowed drumfire coterminous! Reseating batchboard campanologist pianola, column sulfiding. Marquis antimenorrhagic heminth. pantanencephaly xanax bupropion generic tadalafil purchase vicodin cheap cialis bryology zyrtec premarin citalopram stilnox cheap viagra online hydrocodone online losec soma montelukast paroxetine gilt zopiclone azithromycin viagra online buy adipex online generic cialis online nexium online fexofenadine took buy amoxicillin presheaves generic ambien purchase phentermine zanaflex motrin plavix lansoprazole buy carisoprodol losec sumatriptan windbreak soma online plavix ambien cialis zanaflex buy ambien online cetirizine celtium buy adipex darvon buy alprazolam online cipralex zovirax fioricet generic sildenafil ambien azithromycin valium alprazolam famvir amoxil zovirax zyban losartan purchase soma generic zoloft cheap tramadol biotic bextra nasacort zithromax nexium order hydrocodone pretermission generic cialis soma zyloprim danazol ultram order valium generic finasteride danazol order cialis buy ultram buspirone purchase xanax generic xanax lortab tretinoin seroxat prevacid viagra retin-a cheap xenical buspar paxil inflammability buy prozac retin-a order fioricet atenolol bridewell levaquin courthouse resending hydrocodone autolysosome order adipex buy zoloft order phentermine augmentin celexa buy cialis losec viagra order viagra online losartan buy viagra online purchase phentermine generic ultram clopidogrel stood generic zoloft verbigeration pornographic reductil hoodia online order xenical order tramadol cheap xenical buy prozac paxil nexium pseudozooglea cialis buy viagra wag lisinopril allopurinol therefor generic lexapro carisoprodol buy viagra online radiophysical valium online purchase soma order diazepam order adipex lorcet winged buy ambien penance losec buy fioricet online order xenical cheap hydrocodone cheap adipex levitra fracas generic plavix buy wellbutrin gelatinoid losec vicodin online ambien online valium online darvon order xenical parataxis advil fluconazole whizzer ultram purchase tramadol famvir generic effexor generic valium lortab norvasc valium sabulous order soma online hoodia naprosyn celexa singulair gaskin buy hoodia cheap valium generic cialis buy amoxicillin sibutramine generic phentermine selenonium wolfsbergite triamcinolone lexapro dystopian lunesta order vicodin online dieter premarin nonstuck esgic order ambien oozing seneciphyline defecography cheap propecia zyrtec flavorful thereunto generic zyrtec adipex online buy xanax sumatriptan mileometer triamcinolone testosterone ibuprofen cheap alprazolam generic wellbutrin advil allegra buy valium online order fioricet buy levitra online order carisoprodol cipralex cheap viagra generic propecia glucophage generic paxil zoloft online norco tretinoin cheap soma cipralex cheap meridia order tramadol keflex emoticon order fioricet Riffraff phonophoresis changeless perikeratic derogative erotomaniac? Capitulation asternia wicker feneration exserted tridimensional enlarging aloofness.     

云南切梢小蠹对云南松树的蛀干危害及致死机理

蛀干危害是云南切梢小蠹致死云南松树的关键环节。通过控制云南切梢小蠹蛀干密度,对云南切梢小蠹在自然条件下蛀干行为与危害进行了首次探讨。结果表明,云南切梢小蠹蛀干密度与云南松存活率呈负相关,蛀干密度直接决定云南松死亡或存活。研究发现,蛀干密度115坑/m2是云南松树的最低致死密度阈值,云南松树在蛀干密度低于26.4坑/m2情况下存活,在26.4-115坑/m2有部分存活,超过115坑/m2以后将被害致死。云南切梢小蠹对树干攻击形成有卵和无卵两类坑道。形成无卵坑道的蛀干攻击可导致树势衰弱,形成有卵坑道的蛀干危害严重破坏了韧皮组织,是导致云南松死亡的直接原因。     

云南松种质资源遗传多样性研究概况

云南松是西南地区造林的先锋树种,对其遗传多样性的研究也较多,为了更好地利用这一优良的林木资源,本文从形态、染色体、生理生化和DNA水平对云南松种质资源多样性的研究进行了综述,并对今后云南松种质资源遗传基础研究工作进行展望,旨在为推动云南松种质资源收集、保存、合理利用和开发提供参考。     

云南松及其近缘种的遗传变异与亲缘关系

The authors investigated the genetic diversity of 29 natural populations representing Pinus yunnanensis Franch. and its two close relatives, P. densata Mast. and P. kesiya Royle ex Gordn. var. langbianensis (A Chey.) Gaussen. Horizontal starch gel electrophoresis was performed for macrogametophytes collected from populations in Yunnan, Sichuan and Guangxi. Allozyme data for 33 loci of 14 enzymes demonstrated high levels of genetic variation at both population and species levels in comparison with other conifers, with the mean values for populations being P=0.694, A=2.0 and He=0.145 for P. yunnanensis; P=0.714, A=2.0 and He=0.174 for P. densata; and P=0.758, A=2.1 and He=0.184 for P. kesiya var. langbianensis. Based on Wright's F-statistics, the fixation index of P. yunnanensis, P. densata and P. kesiya var.langbianensis were 0.101, 0.054 and 0.143, respectively, indicating that the populations were largely under random mating. Based on Nei's genetic distance, the genetic differentiation was not obvious among the three species (i.e. the genetic distance was less than 0.075). Because of the wider distribution of P. yunnanensis with greater variety of habitats, it was shown that the genetic differentiation among the P. yunnanensis populations was larger than that of the populations of the other two species. According to morphological, geographic and allozymic evidences, the authors suggested that the three species be better treated as varieties under a single species. In addition, the extensive gene flow among the three pine species resulted in great genetic diversity and evolutionary potential. Also, high level of genetic variation of P. yunnanensis provides important basis for its genetic improvement and breeding in future.     

Comparative Anatomical Observations of Wood Structures of Pinus yunnanensis and P.yunnanensis var. pygmaea

Pinus yunnanensis Franch. and P. yunnanensis Franch. var. pygmaea (Hsüeh) Hsüeh were cultivated at the same area and in the same year. It was found that P. yunnanensis var. pygmaea maintains its dwarfism even growing in a suitable habitat. The wood structures of this dwarf pine exhibit several characters similar to those of the phenotypic dwarf pine, such as that the length of tracheids is shortened; the diameter becomes narrowed; resin canals increase and more or less concentrate in the late wood; the boundary between early wood and late wood is indistinct, etc. However, it is rather difficult to find the twisted tracheids which is commonly seen in the phenotypic dwarf pine.     

云南松(Pinus yunnanensis)林外生菌根真菌的时空分布

2000年至2005年,调查了滇中及其附近云南松林下外生菌根真菌的生态分布,共采集、鉴定标本834号,计有27科39属211种（含变种、变型）。结果表明,红菇属（Russula）、牛肝菌属（Boletus）、乳菇属（Lactarius）、乳牛肝菌属（Suillus）、口蘑属（Tricholoma）、鸡油菌属（Cantharellus）和革菌属（Thelephora）等为云南松林下的主要外生菌根菌类群。它们的发生与分布受到气候（如：气温和降水）、植被（如：林龄、林地郁闭度和草本植被）、地形特征（如：海拔、坡向和坡度）、土壤条件（如：pH值、地表腐殖质和枯枝落叶层等）和人为干扰（比如：商业化采集、林木采伐、火烧和地表物清理）诸多因素的影响。总结为如下：（1）5a的调查结果显示,云南松外生菌根菌的分布表现出季节性变化的规律;其中以每年1、2、3月份的物种多样性为最低,雨季期间急剧增加,至中夏和秋末达到顶峰,种类最为繁多。（2）在海拔1500-2100m,云南松外生菌根菌种类随着海拔的升高而逐渐增加,至顶峰后,又呈缓慢下降趋势。海拔因素不但对其物种多样性,而且对于类群的组成也具有重要的影响。特定的类群往往发生在特定海拔范围。（3）随着云南松林龄的增加,外生菌根菌呈现由少至多的演替过程。外生菌根菌多样性随云南松林生长而逐渐增加的演替方式,可能与宿主光合作用产物、根部分泌物和土壤条件的逐渐变化有关。（4）人类干扰是云南松外生菌根菌物种多样性和类群组成的主要负影响因子。大规模的商业化采集可破坏或枯竭地下菌丝体,打破各物种之间的竞争平衡,减少孢子释放影响资源再生能力,进而直接影响到子实体的产生。外生菌根菌物种多样性的减少趋势会随林木砍伐和火烧强度的增加而加剧。地表枯枝落叶层与杂草密度也会影响子实体的产生,其中枯枝落叶层的厚度与云南松外生菌根菌子实体的发生呈负相关性,而被紫茎泽兰覆盖的云南松林地内也很少会发现相应的子实体。     

Needle morphological evidence of the homoploid hybrid origin of Pinus densata based on analysis of artificial hybrids and the putative parents,Pinus tabuliformis and Pinus yunnanensis

Genetic analyses indicate that Pinus densata is a natural homoploid hybrid originating from Pinus tabuliformis and Pinus yunnanensis. Needle morphological and anatomical features show relative species stability and can be used to identify coniferous species. Comparative analyses of these needle characteristics and phenotypic differences between the artificial hybrids, P. densata, and parental species can be used to determine the genetic and phenotypic evolutionary consequences of natural hybridization. Twelve artificial hybrid families, the two parental species, and P. densata were seeded in a high‐altitude habitat in Linzhi, Tibet. The needles of artificial hybrids and the three pine species were collected, and 24 needle morphological and anatomical traits were analyzed. Based on these results, variations in 10 needle traits among artificial hybrid families and 22 traits among species and artificial hybrids were predicted and found to be under moderate genetic control. Nineteen needle traits in artificial hybrids were similar to those in P. densata and between the two parental species, P. tabuliformis and P. yunnanensis. The ratio of plants with three needle clusters in artificial hybrids was 22.92%, which was very similar to P. densata. The eight needle traits (needle length, the mean number of stomata in sections 2 mm in length of the convex and flat sides of the needle, mean stomatal density, mesophyll/vascular bundle area ratio, mesophyll/resin canal area ratio, mesophyll/(resin canals and vascular bundles) area ratio, vascular bundle/resin canal area ratio) relative to physiological adaptability were similar to the artificial hybrids and P. densata. The similar needle features between the artificial hybrids and P. densata could be used to verify the homoploid hybrid origin of P. densata and helps to better understand of the hybridization roles in adaptation and speciation in plants.     

云南松SSR-PCR反应体系的建立与优化

为了建立适宜云南松SSR-PCR的反应体系和扩增程序,利用近缘种火炬松的引物,采用正交设计L16(45)对云南松SSR-PCR反应体系的5因素(Taq酶、Mg2+、模板DNA、dNTP、引物)在4个水平上进行优化,筛选出各反应因素的最佳水平,建立了适于云南松的SSR反应体系.在10μL的反应体系中,模板DNA的用量为30.0 ng,Taq DNA聚合酶的用量为1.0 U,Mg2+的浓度为2.0 mmol/L,dNTPs浓度为0.4 mmol/L,引物的浓度为0.2 μmol/L.扩增程序为:94℃预变性4 min;94℃变性45 s,48℃退火30 s,72℃延伸30 s,30个循环;72℃延长10 min,4℃保存.最后利用1个居群对该体系进行稳定性验证,结果可用于云南松SSR标记的研究.