965 resultados para 16S-rDNA


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核仁是真核细胞间期核中最明显的结构,其主要功能是作为rDNA 的转录加 工和核糖体亚基合成、组装的场所。这一重要功能是包括原核生物和真核生物在 内的所有细胞生物都具有的,但核仁这一结构却只存在于真核细胞中。那么在从 原核到真核的进化过程中,核仁是如何进化而来,核仁的蛋白成分又是通过怎样 的方式从简单到复杂地组装起来,这些问题到目前为止都还没有得到深入的了 解。随着 “组学”的发展,核仁蛋白基因组的研究逐渐开展起来。越来越多的 核仁蛋白基因组数据为我们从“组学”的角度来探讨核仁的起源及其蛋白网络的 进化组装等问题奠定了基础。 1)本文首先通过比较目前仅有的三种真核生物(人,拟南芥,芽殖酵母) 的核仁蛋白基因组数据库,将三个核仁蛋白基因组共享的直系同源蛋白簇提取出 来构建出真核生物基本核仁蛋白基因组I (EBNP I)。由于拟南芥和芽殖酵母核仁 蛋白数据库明显偏小,为避免它们可能不全而带来的影响,进一步将人的核仁蛋 白基因组与拟南芥和芽殖酵母的全蛋白基因组共享的直系同源蛋白簇提取出来 构建出真核生物基本核仁蛋白基因组II(EBNP II)。EBNP 中的人核仁蛋白质序 列用作搜索序列去BLASTP 原核基因组,并构建同源关系矩阵进行聚类分析。 结果发现核仁蛋白基因组原核起源部分具有复合起源的特性,一部分来源于古细 菌,一部分来源于真细菌。并对EBNP II 中人核仁蛋白进行功能划分和对不同的 功能类群进行了起源分析,结果发现‘与核糖体有关’这一功能类群起源于古细 菌,‘与mRNA 有关’和‘与翻译有关’功能类群可能起源于古细菌,并在真核 阶段招募了大量蛋白成分,‘与染色质有关’这一功能类群可能起源于真细菌, 随后在真核阶段此功能类群招募了大量蛋白成分。 2)本文利用芽殖酵母的蛋白质相互作用数据,通过在原核生物基因组和原 生生物基因组的同源搜索,将芽殖酵母核仁蛋白分成不同进化时期产生的三个部 分:原核起源蛋白,原生生物起源蛋白,酵母特异蛋白。通过分析各部分蛋白质 的GO 注释,结果发现,原核起源蛋白主要行使与核糖体亚基合成与组装等核仁最基本的功能。通过比较各个部分之间以及各部分内蛋白质相互连接情况,结果 发现,芽殖酵母核仁蛋白网络按照不对称原则将招募的新蛋白组装入网络,整个 芽殖酵母核仁蛋白网络以原核起源蛋白所构建的框架为基础,原核起源蛋白起着 核心的作用。

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本文分析了麂属动物及其近缘种的线粒体DNA(Mitochondrial DNA, mtDNA)和核塘体DNA(Ribosomal DNA, rDNA)限制性片段长度多态性(RFLP),建立了麂属动物mtDNA和rDNA的限制性内切酶间谱。据此计算出各个物种的种内及种间的遗传距离,构建了麂属动物的种内及种间的分子聚类图。结果表明,在现生麂类中,黑麂和贡山麂之间的关缘关系最近,其次是费氏麂;印度麂是一个特化的特种,它和黑麂支系(包括费氏麂、贡山麂和黑麂)可能是从小麂的祖先类群中独立分化出来的。在近缘物种中,毛冠鹿与麂属动物的亲缘关系较近。结合前人有关的工作,计算19种鹿科动物之间的遗传距离并绘制它们的分子聚类图。

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对涡鞭毛虫寇氏隐甲藻(Cryp thecodinium cohnii)细胞周期中的核仁进行了电镜连续超薄切片三维重组观察,并进行了Ag-NOR银染的光镜和电镜观察。在整个细胞周期中,寇氏隐甲藻的核仁内都有由核仁染色体发出的染色质索,又由染色质索发出细胞染色质丝进入核仁纤维区中。细胞进入分裂期后,核仁内的染色质索逐渐变粗。在核仁拉长前,核仁内大部分染色质索凝集成为“核仁内染色体”。Ag-NOR染色结果表明,有少量的rDNA也收回到核仁内染色体上,但绝大部分rDNA始终分散地分布在核仁内。核仁染色体象其它染色体一样,也是以一端结合在贯穿细胞核的细胞质管道的壁上,看来也会以同样的方式移到两极。核仁染色体向二极移动,而与核仁染色体相连的rDNA的绝大部分又始终分散地分布在核仁纤维区中,这显然是甲藻核仁拉长并分裂为二的根本原因。核仁内始终存在分散的rDNA也是它们的核仁不瓦解的根本原因。我们观察到,寇氏隐甲藻的染色体不仅连接于细胞质管道壁上,而且还与管道中的微管形成结构上的联系,从而可以认为它们的染色体移动也有微管参与。这点修正了kubai与Ris(1969)的报导。本文根据涡鞭毛虫(甲藻)的核仁在核仁分裂过程中只是拉长和分裂,而并不瓦解和重建的根本原因,探讨了典型有丝分裂过程中核仁的瓦解与重建的起源问题。

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维生素C生产废水有机物浓度高、成分复杂、排放量大,是一种亟待处理的典型工业废水。本研究分别采用实验室规模和中试规模的升流式厌氧颗粒污泥床反应器(UASB)对该制药工业废水的厌氧生物处理工艺进行了较为深入的研究。同时采用两种不依赖于纯培养的分子生物学手段—变性梯度凝胶电泳(DGGE)和扩增核糖体DNA限制性分析(ARDRA)技术揭示了UASB反应器不同运行阶段污泥中微生物群落多样性组成及变化。此外,首次研究了零价铁(Fe0)在厌氧消化过程中对反应器运行及微生物群落结构的影响。 采用城市污水处理厂厌氧消化池絮状污泥和处理啤酒废水的颗粒污泥混合接种,小试中温(35±1℃)UASB反应器在其运行的第65天启动成功。反应器稳定运行阶段,在进水COD浓度为9000mg/L、水力停留时间为12h、容积负荷为13.6 kgCOD/m3.d条件下,其COD去除率稳定在85~90%之间,沼气产率达到4.5 m3/m3.d,沼气甲烷含量平均为72%。中试UASB反应器的接种污泥为厌氧消化污泥,其启动时间相对较长,为90天。在稳定运行期,反应器的进水COD浓度为8000~10000mg/L,水力停留时间和容积负荷分别保持在12~16h和10.6~14.2 kgCOD/m3.d范围,该阶段反应器的平均COD去除率稳定在85%左右,沼气产率平均为5.2m3/m3.d,沼气中甲烷含量为69%。上述结果表明中温UASB工艺用于维生素C生产废水处理是高效、可行的。 与对照反应器相比,添加Fe0的小试UASB反应器的COD去除率和沼气产量分别提高了6.5%和10.2%。同时,磷酸盐平均去除率为79%,比对照提高了64%,目前尚未见类似研究报道。在中试规模的UASB反应器中补充一定量的Fe0可缩短反应器启动时间,促进颗粒污泥的形成,该结果可能具有重要的应用价值。培养试验进一步表明,Fe0可以作为产甲烷菌还原CO2生成甲烷的电子供体。培养实验还表明,当系统中存在硝酸盐(0.40 mM)和硫酸盐(0.26 mM)时,Fe0促产甲烷过程受到一定程度的抑制。 采用细菌通用引物968F/1401R和341F/907R获得的PCR-DGGE指纹图谱均表明UASB反应器不同运行阶段细菌种群结构变化明显。小试和中试稳定期污泥的微生物多样性均高于各自初始接种污泥。产甲烷菌通用引物340F/519R的PCR-DGGE结果显示,虽然接种污泥中产甲烷菌的丰富度系数略低于稳定期,但总体而言,反应器运行期间产甲烷菌的种群组成相对稳定。 通过构建不同处理和不同运行阶段污泥样品的16S rRNA基因文库并对克隆基因进行限制性内切酶消化、测序分析。结果表明,稳定期两个反应器微生物群落结构相似,但与各自接种污泥差异明显。小试UASB反应器接种污泥中细菌的优势菌群分别为变形菌纲的δ亚纲(28.7%)和β亚纲(17.4%),至稳定运行期则演替为革兰氏阳性低GC菌群(21.9%)和变形菌纲的δ亚纲(14.0%)。中试反应器接种污泥Green non-sulfer bacteria(25.9%)和变形菌纲的δ亚纲(16.4%)类群占优势,而稳定期Green non-sulfer bacteria类群(17.9%)、革兰氏阳性低GC菌群(16.2%)和变形菌纲的δ亚纲(15.4%)为优势菌群。 产甲烷菌的优势克隆为SRJ 230、SRJ 26和SRJ 583,前两者分别与Methanosaeta concilii和未培养的Methanobacteria-like克隆Gran7M4的同源性达到97%和98%,后者与Methanomethylovorans. sp同源性为99%。接种污泥中上述类群占总克隆数量的比例较低。小试、中试接种污泥中产甲烷菌分别占7.8%和3.0%,但稳定运行期,该比例明显增加,分别达到21.9%和18.8%。上述结果表明启动期与稳定期污泥产甲烷菌种群组成相对稳定,但各类群数量明显增加。 添加Fe0的UASB反应器稳定运行期污泥中产甲烷菌比例(31.2%)高于对照反应器(24.2%), 革兰氏阳性低GC类群、变形菌纲的δ亚纲比例差异不明显,而变形菌纲β亚纲(6.0%)和Green non-sulfer bacteria(9.2%)的比例均分别低于对照反应器(13.1%和17.1%)。该结果表明,添加Fe0使反应器内微生物群落多样性发生了显著变化。 此外,在添加Fe0的UASB反应器中检测到特异性的克隆SRJ 341和SRJ 320,两者分别同磷酸盐去除和铁氧化有关的克隆子Orbal D41和Clone195的序列相似性达95%和96%。这两个类群可能分别与磷酸盐去除及铁促产甲烷作用密切相关。这一结果尚未见报道。

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对采集自我国不同地区、不同森林生态类型中的,以及现保存于中国科学院沈阳应用生态研究所东北生物标本馆(IFP)、中国科学院微生物研究所真菌标本馆(HMAS)等国内主要标本馆的非褶菌目木材白色腐朽菌,小薄孔菌属(Antrodiella Ryvarden & I. Johans.)、耙齿菌属(Irpex Fr.)、容氏菌属(Junghuhnia Corda. emend. Ryvarden)和齿耳属(Steccherinum Gray)四属真菌标本进行了全面系统的研究。按照现代分类学方法对四属白腐菌进行详细的描述和显微结构绘图,记载了每种的寄主、国内分布及研究标本,并对每种与其相似种的联系和区别进行了讨论。我国范围内共记录及描述小薄孔菌属(Antrodiella)15种,耙齿菌属(Irpex)2种,容氏菌属(Junghuhnia)7种,齿耳属(Steccherinum)12种。其中,共发现新种4个,分别是:柄生小薄孔菌Antrodiella stipitata H.S. Yuan & Y.C. Dai,柏生小薄孔菌Antrodiella thujae Y.C. Dai & H.S.Yuan,亚圆孢齿耳菌Steccherinum subglobosum H.S. Yuan & Y.C. Dai和尖囊齿耳菌Steccherinum subulatum H.S. Yuan & Y.C. Dai;发现中国新记录种4个,分别是:柔韧小薄孔菌Antrodiella duracina (Pat.) I. Lindblad & Ryvarden,日本容氏孔菌Junghuhnia japonica Núñez & Ryvarden,集刺齿耳菌Steccherinum aggregatum Hjortstam & Spooner和圆孢齿耳菌Steccherinum hydneum (Rick) Maas Geest.。对四属中的代表性种类和重要种类进行了rDNA ITS片段序列测定,利用系统发育分析软件PHYLIP3.6对Antrodiella属和Steccherinum属中的种类进行系统发育分析,并探讨了Antrodiella等上述四属间的系统发育关系。结果表明,与Irpex相比,Junghuhnia和Steccherinum 与Antrodiella具有更近的亲缘关系。Irpex和Steccherinum两个属虽然都具有齿状子实层体结构,但其亲缘关系较远。

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急流牙甲族Sperchopsini属于鞘翅目Coleoptera牙甲科Hydrophilidae的水牙甲亚科Hydrophilinae,共包括五属,即水龟虫属 Hydrocassis、革牙甲属 Ametor、Sperchopsis、Anticura、Cylomissus,世界共计有25种,我国分布有2属18个种。 本文回顾了水甲虫、牙甲科以及急流牙甲族的研究简史;综述了水甲虫在分类学、保护生物学、形态学、遗传学、分子生物学等方面研究进展,总结了水甲虫与生态因子的关系以及水甲虫作为生态系统健康指示物的可行性。还简要介绍了昆虫分子系统学,以及细胞色素氧化酶亚基I(COI)和rDNA内部转录间隔区(ITS)在昆虫学研究中的应用。 通过对收集到的700余号急流牙甲族的标本观察和分类研究,发现了一新种(内蒙水龟甲Hydrocassis mongolica sp.nov.)。并且对已知全部种类重新作了描述,特别是长茎革牙甲 Ametor elongatus雄性外生殖器部分,首次对7个种类(长茎革牙甲 Ametor elongatus、粗革牙甲 Ametor scabrosus、帝水龟甲 Hydrocassis imperialis、伪舟水龟甲Hydrocassis pesudoscapha、条纹水龟甲Hydrocassis scapulata、舟水龟甲 Hydrocassi scapha、四川水龟甲Hydrocassis sichuana)的雌性个体进行了描述。编制了急流牙甲族的分属、分种检索表。 采用支序分类学的方法对中国急流牙甲族种类的系统发育关系进行探讨。结果显示革牙甲属内的A. latus、A. rudesculptus、A. rugosus 及A. scabrosus 构成单系(不包括A. elongates),支持皱革牙甲A. rugosus和A. latus属于革牙甲属。水龟虫属内H. anhuiensis、H. baoshanensis、H. lacustris、H. pseudoscapha、H. scaphoides、H. scapulata、H. sichuana、H. taiwana、H. uncinata、H. schillhammeri构成一个单系。水龟虫属包括两大类群,一类群包括H. anhuiensis、H. lacustris、H. scapulata、H. sichuana 、H. taiwana,另一类群包括H. baoshanensis、H. scaphoides、 H. schillhammeri 、H. uncinata。两类群的不同之处在于后一类群的阳基侧突上有一齿状凸起。 测序了H. scapulata、H. sichuana和H. mongolica雌雄各一个个体的COI和ITS2序列。全部的COI基因序列为828bp,编码275个氨基酸。H. scapulata的ITS2序列有446bp,H. sichuana的有456bp,H. mongolica的有455bp。用MEGA 3.1计算比对距离(pairwise distances)和构建邻近系统树。结果显示对于COI,种内的比对距离分别是0(H. scapulata)、0.008(H. mongolica)、0.004(H. sichuana),种间的比对距离在0.024-0.045之间。对于ITS2,种内的比对距离分别为0.005(H. scapulata)、0(H. mongolica)、0.007(H. sichuana),种间的比对距离在0.028-0.047之间。H. sichuana和新种间的比对距离在0.024-0.037(COI)和0.044(ITS2)。比对距离揭示出种内低于0.008,种间在0.024-1.078之间。因而,它们之间应该是种间关系而不是种内的关系。COI数据集和ITS2数据集所构建的系统树存在一定的差异,前者显示四川水龟甲和条纹水龟甲是姐妹种,后者显示新种和条纹水龟甲是姐妹种。总之,在内蒙古自治区发现的为一新的物种。

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微生物修复是石油污染土壤修复的主要方法之一,但是对修复过程中微生物的检测却是其主要限制因素,传统的检测方法存在很大的局限性,而荧光原位杂交技术结合了分子生物学的精确性和显微镜的可视化信息,可较为精确快速的对微生物进行定性和定量测定。 实验中利用辽河油田污染土壤中筛选纯化的高效石油降解菌,以原油为碳源,考察不同菌株处理后的去除率变化。发现有8株菌:B101、B381、B0502、B25 、B64、B2001、B2003、B18,在14 d内对石油的降解率都在20%以上,且族组分分析结果显示,被降解部分主要是烷烃和芳烃。经鉴定,此8株菌均为杆菌。 同时,对5株石油降解菌标准菌株(铜绿假单胞菌、巨大芽孢杆菌、枯草芽孢杆菌、苏云金芽孢杆菌和地衣芽孢杆菌)在基因库中比对,核苷酸同源性显示其相似性均在98%以上,因此针对其16S rRNA设计寡核苷酸探针。 将上述5种探针应用于荧光原位杂交实验,分别作用于8株降解菌和5株标准菌株,得出5种探针均符合特异性标准,仅地衣芽孢杆菌探针与B381之间有特异性荧光反应。添加B381(地衣芽孢杆菌)于泥浆反应器中降解石油烃。鉴于石油污染土壤的复杂组成,检测泥浆反应器中地衣芽孢杆菌的FISH条件优化结果为:样品固定时间17 h,杂交温度46 ℃,杂交时间3 h,杂交液中去离子甲酰胺浓度35%,冲洗缓冲液中与去离子甲酰胺对应的NaCl的浓度88 mmol∙L-1。运用上述FISH技术监测生物泥浆反应器中地衣芽孢杆菌量的变化,得出地衣芽孢杆菌的浓度在第5天达到最大,同时对泥浆反应器中去除率进行测定,前5天菌对原油的去除速率也最高,前8 d是石油烃被去除的主要作用阶段。微生物的数量变化和原油的去除率进行比较,两者的变化情况符合微生物降解石油的趋势,为监测含油污泥中微生物的变化提供了一种可行的技术。

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本文研究了地理位置、海拔、坡向、树龄和林型与旱冬瓜共生Frankia的关系,同时研究了用旱冬瓜根瘤接种其它放线菌根植物后,Frankia的16S rRNA基因的变化。结果发现:1.云南旱冬瓜共生Frankia存在丰富的基因多样性,云南14个市县旱冬瓜的共生Frankia存在7种基因类型,其香农维纳指数为2.6395nit。 2.云南旱冬瓜共生Frankia的基因多样性与纬度有一定的关系,而与经度关系不密切。3.在不同基因型的Frankia中,有的对海拔适应范围较广,有的较窄。4.地理位置和海拔属于大环境,它们形成了云南旱冬瓜共生Frankia的主要基因类型,而海拔、坡向、树龄属于小环境,它们形成云南省旱冬瓜共生Frankia亚基因类型。5. Frankia的基因多样性是生态适应和生态进化共同作用结果。6.滇中和滇西是云南旱冬瓜共生Frankia的两个分布中心和多样化中心,它们向南扩展后Frankia基因多样性降低。7.Frankia基因多样性呈现出地理马赛克现象,而不是地理镶嵌。8.在云南,旱冬瓜中共生的Frankia是共生于其它放线菌根植物的种子储备库。本文提出应该对丰富的Frankia基因多样性进行保护,建立云南旱冬瓜与共生Frankia的数据库;提出进一步研究快速检测旱冬瓜-Frankia和不同基因型Frankia的分子探针研究的构想。

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本文应用nifD-nifK IGS及16S-23S rDNAIGSPCR-RFLP方法,系统研究了分布于云南横断山的旱冬瓜以及吉林长白山的西伯利亚赤杨、色赤杨和东北赤杨根瘤内Frankia菌的遗传多样性。该研究可加深对Frankia菌起源与进化的认识,并为保护和利用这一固氮共生资源提供科学依据。从113株赤杨的根瘤样品中共检测到48种基因型的Frankia菌株。首次确切报道了自然条件下不同基因型Frankia菌可与同一宿主植株同时共生,并且这种混乱性在横断山区普遍存在。通过对Frankia菌群体遗传结构的分析,查明云南省横断山旱冬瓜Frankia菌群体内遗传变异水平由高到低的顺序是苍山群体、高黎贡山群体、鸡足山群体、来凤山群体和无量山群体。酶切带型9为云南横断山旱冬瓜Frankia菌群体中最古老的类型;大部分(75.63%)遗传变异发生在Frankia菌的各群体内,同一气候区的Frankia菌群体有较近的亲缘关系。旱冬瓜Fran辰a菌遗传多样性特点与横断山气候特征及冰川运动历史密切相关。宿主赤杨的进化地位不同,其共生Frankia菌的群体遗传多样性水平也不同。古老的旱冬瓜共生Fran舫“菌群体内遗传分化最大,分化最晚的东北赤杨共生Frankia菌群体内遗传变异最小;属同一生活型的西伯利亚赤杨和色赤杨共生Fronkia菌间存在着较近亲缘关系;早冬瓜Fran舫。菌群体可能为其它赤杨共生Fran舫“菌提供祖先,因此认为赤杨与其共生Frankia菌间存在着协同进化。

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本文综述了放线菌分类学研究的意义和进展,分析了放线菌分类学研究特点及发展趋势;同时综述了嗜盐、嗜碱放线菌的研究进展,分析了嗜盐和嗜碱放线菌研究的重要性和意义。通过对采自渤海沿岸盐场、青海盐湖、张北盐湖、曲周、保定等地盐碱和高盐的样品进行嗜盐和嗜碱放线菌的分离,建立了适于嗜盐和嗜碱放线菌的分离培养条件;找到了广适性的嗜盐放线菌培养用培养基;发现了嗜盐放线菌多数耐碱的规律。采用形态培养特征、生理生化测定、细胞化学组分分析、DNA G+C mol%测定以及DNA同源性分析和165 rDNA序列为基础的系统发育分析等相结合的多相分类技术对分离得到的部分典型菌株系统地进行了分类研究,从表型、基因型和系统发育三个层次对其分类地位进行了确定。本研究发现嗜盐放线菌新属新种1个,为波状盐场放线菌新属新种(Actinoosalterria undulata gen.nov.sp.nov),嗜盐放线菌新种4个,分别是:沧州拟诺卡氏菌(Nocardiopsl's cangzhouensis sp.nov.)、塘沽拟诺卡氏菌(Nocardiopsis tangguensis sp.nov)、茶卡拟诺卡氏菌(NocardioPs沽chakaensis)和盐场链霉菌(Streptomyces salinarum sP.nov.);发现嗜碱放线菌新种2个,分别是;布尔津拟诺卡氏菌(NocardioPsis buerjinensis sp.nov.)和城墙拟诺卡氏菌(Nocardiopsis rampartis sp.nov.);另有2株嗜碱放线菌鉴定为达松维尔拟诺卡氏菌,2株嗜碱放线菌鉴定为产气味拟诺卡氏。论文研究中还初步建立了放线菌磷酸类脂高效液相色谱测定的方法与测定条件。

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对隆肛蛙属的物种构成进行了订正,建立新属肛刺蛙属Yerana gen. nov.;订正后的隆肛蛙属现仅隶2种, 即隆肛蛙F. quadrana和太行隆肛蛙F. taihangnicus。运用形态学分析探讨了隆肛蛙属物种及种群的形态差异和分类关系,通过分子系统学研究探讨了隆肛蛙属物种及种群的分类和系统发育关系,运用动物地理学方法结合系统发育关系探讨了隆肛蛙属种群的地理分布格局成因与历史过程。主要结果和推论如下: 1.隆肛蛙属物种构成的订正及一新属建立 建立新属肛刺蛙属,将隆肛蛙属中的原叶氏隆肛蛙F. yei归隶新属肛刺蛙属并更名为叶氏肛刺蛙Y. yei,,新属建立的主要依据为:(1)雄性肛部隆起,肛孔下方有两个布满黑刺的大的白色球形隆起,具单咽下内声囊, 第一指具婚刺;(2)形态量度分析表明叶氏肛刺蛙与隆肛蛙和太行隆肛蛙的形态差异远大于后两者之间的差异;(3)叶氏肛刺蛙的分布区与隆肛蛙和太行隆肛蛙的分布区距离较远且呈隔离状态;(4)分子系统学研究资料(Jiang et al.,2005)证明叶氏肛刺蛙与隆肛蛙和太行隆肛蛙非单系发生;叶氏肛刺蛙在第二支中位于基部。因此,隆肛蛙属现仅隶2种,即隆肛蛙和太行隆肛蛙。 2.隆肛蛙属种群形态学研究 对隆肛蛙属中隆肛蛙和太行隆肛蛙的15个地理种群565只标本的28项形态性状进行了测量,运用典型判别分析法对其分析的结果表明:(1)太行隆肛蛙与隆肛蛙形态差异明显,支持其为不同的物种;(2)原隆肛蛙河南伏牛山种群和山西中条山种群应为太行隆肛蛙的地理种群;(3)隆肛蛙不同地理种群之间形态差异明显,其中四川安县种群、陕西周至种群和湖北利川种群与模式产地重庆巫山种群的差异可能达到了亚种或亚种以上分化水平。对隆肛蛙属量度分析的15个种群进行定性形态分析表明其分为三种形态型,对应隆肛蛙、过渡型和太行隆肛蛙,其变异特征主要为内跗褶、雄性肛部隆起及疣粒分布、第五趾外侧缘膜等,这与量度分析结果相似。 3.隆肛蛙属种群分子系统学研究 测定隆肛蛙属Feirana的2种19种群的线粒体12S rRNA和16S rRNA基因片段、ND2基因的DNA序列,比对后共计1953bps。(1)遗传多样性与距离分析:结果表明,隆肛蛙属种群具很高的遗传多样性,19个种群样品表现出19种单倍型(遗传多样性指数Hd=1.0); ND2基因的进化信息含量远高于12SrRNA和16SrRNA。隆肛蛙属2种群组内的种群间的遗传距离远小于两种群组间的距离,种群在不同基因上的遗传距离表现的关系与对应的系统树一致。(2)系统发育关系分析:结果表明,不同基因片断基于不同方法构建的隆肛蛙属种群系统发育树结构基本一致,基本表明隆肛蛙属种群为单系发生;它们在系统树中分为两大支,分别对应于隆肛蛙和太行隆肛蛙;支持中条山种群(沁水、历山和济源种群)和伏牛山种群(栾川和内乡种群)为太行隆肛蛙的地理种群,而原隆肛蛙秦岭中东段的部分种群(柞水、宁陕、长安大坝沟种群)也应为太行隆肛蛙的地理种群。(3)亚种分化分析:根据遗传距离分析和系统发育关系分析结果,并考虑形态上的差异情况以及地理分布信息,隆肛蛙所隶种群组可分为2亚种,即隆肛蛙指名亚种F. quadrana quadrana包括四川盆地东缘大巴山东段-巫山-武陵山北麓种群和秦岭中段(周至板房子和长安广货街)种群,他们在系统关系树上聚为一支;安县亚种F. quadrana anxianensis包括四川盆地西缘岷山东麓-龙门山-大巴山和秦岭西段的种群(安县、青川、文县、南江和凤县种群),他们在系统关系树上聚为一支。太行隆肛蛙所隶种群组也可分为2亚种,即太行隆肛蛙指名亚种F. taihangnicus taihangnicus包括中条山的种群(沁水、历山和济源种群)和中东秦岭的部分种群(柞水、长安大坝沟和宁陕种群),他们在系统关系树上聚为一支;太行隆肛蛙伏牛亚种F. taihangnicus funiuensis,为伏牛山地区的种群(栾川和内乡种群),他们在系统关系树上聚为一支。 4.隆肛蛙属种群动物地理学研究 隆肛蛙属19种群的分歧年代分析: 以长江巫山段和黄河三门峡段的形成历史时期为参考点,根据已测隆肛蛙属19种群及其外群包括N. pleski、P. yunnanesis、P. robertingeri、F. limnocharis的1953bps DNA序列构建分子钟,获得各支系的分歧年代。结果表明:①棘蛙族在70Ma左右开始其独立演化历程,这与Roelants et al.(2004)的分析结果~60±15Ma左右开始分化基本一致,后者印证了本文的分子钟。②隆肛蛙属的起始分化年代较早,隆肛蛙和太行隆肛蛙两种群组的最近祖先种群大概在46Ma~50Ma左右;隆肛蛙和太行隆肛蛙种群组内的种群分化年代相对两种群组间晚得多, 隆肛蛙种群组内两亚种分化起始年代约为10Ma左右,而太行隆肛蛙种群组内两亚种分化起始年代约为6Ma。 隆肛蛙属种群分布格局形成过程分析: ①隆肛蛙属的系统关系与地理分布格局密切相关,大部分系统分支分级与地理距离成正比;②隆肛蛙属最近祖先种群的分化中心可能位于秦岭中部地区, 隆肛蛙属的种群分布格局的形成表现为隔离分化与扩散相结合的机制,由隔离分化产生的隆肛蛙祖先种群主要从秦岭中部向西南方向扩散,后隔离分化为两亚种;太行隆肛蛙祖先种群向东北方向扩散也分化为两亚种。 隆肛蛙属种群分布区域地质历史的探讨:本文所建分子钟和种群分化方式印证了该区域的几次主要地质事件,包括岷山-龙门山-西秦岭等地区的快速差异隆起、第四纪冰期等。 The specific composition of the genus Feirana should be revised. A new genus Yerana gen. nov.(Ranidae:Dicroglossinae)was established based on morphological data-set and molecular phylogeny, as a result, only two species F. quadrana and F. taihangnicus are classified into Feirana now. Morphological differences and taxonomy of populations of Feirana were investigated based on morphological and morphometric data; phylogenetic relationships and taxonomy of populations of Feirana were elucidated using molecular data, and then the proceeding of the distribution pattern of populations of Feirana were discussed. The main results and conclusions and proposals were presented as following: 1. Revising of the specific composition of the genus Feirana and establishment of a new genus The new genus Yerana, only containing the type species Y. yei, was established based on the following evidences: (1) In adult male, distinct up-heaved circular vesicle presents around the anal, and under anal there are two white balls on which black spines exist, black horny spines scatter on the upper side of first finger, and internal single subgular vocal sac presents; (2) there is obvious morphometric differences between Yerana and Feirana; (3) Yerana is distributed far from Feirana; (4) evidences of molecular phylogeny(Jiang et al.,2005)suggested that Yerana take a special phylogenetic clade which is different from other genus included in the tribe Paini. As a result, there are only two species in Feirana, i.e., F. quadrana and F. taihangnicus. 2. Morphological research of populations of Feirana Twenty-eight characters of 565 individuals of 15 populations of the genus Feirana were measured, the results of Canonical Discriminant analysis of the morphometric data-set indicated that: (1) there are very prominent differences between the two species F. quadrana and F. taihangnicus. The validity of species F. taihangnicus was approved here; (2) Mt. Funiu population and Mt. Zhongtiao population should belong to the species F. taihangnicus; (3) Obvious differences exist among 12 populations of F. quadrana, the differentiation among Zhouzhi population, Anxian population, Lichuan population, and Wushan population together with the others probably reach sub-specific or specific level. Result of morphological comparison between 15 different populations show that 3 morphological types are recogenized in according with F. quadrana, F. taihangnicus and intergradation, this result conform to the result of morphometric analysis. 3. Molecular phylogenetic study on populaions of Feirana Fragment of 12SrRNA and 16SrRNA genes, and ND2 gene of 19 populations of two species of Feirana were sequenced and aligned, from which 1953 bps were received. (1) analyses of genetic distance and hereditary diversity indicated that: genetic distance between populations in each group were less than distance between two groups of Feirana, 19 haplotypes were recognized from 19 samples of 19 populations, so the hereditary diversity of populations of Feirana was very high (Hd=1.0), phylogenetic information in ND2 gene is more than fragment sequence of 12SrRNA and 16SrRNA genes. (2) Result of molecular phylogeny indicate that the phylogenetic trees constructed using different methods based on different sequence data sets showed the revised genus Feirana is monophyletic since the 19 populations of Feirana were firstly clustered together as one large clade, which was further clustered into two major clades, corresponding to F. quadrana(GroupⅠ) and F. taihangnicus(GroupⅡ), respectively. So populations of Qinshui and Lishan in Mt. Zhongtiao, populations of Luanchuan and Neixiang in Mt. Funiu, and populations of Zhashui, Dabagou of Chang’an and Ningshan in eastern Mt. Qinling should belong to the species F. taihangnicus; (3) Subspecific differentiation. on the basis of genetic distance, phylogenetic trees and geographical distribution, F. quadrana should have two subspecies, i.e., F. quadrana qudadrana, consisting of the populations Guanghuojie of Chang’an and Zhouzhi in Mid-Mt. Qinling, populations in Wushan area and northern Mt. Wuling (Lichuan), and F. qudadrana anxianensis, consisting of the populations in eastern Mt. Ming shan-Mt. Longmen-western Mt. Daba-western Mt. Qinling (Anxian, Qingchuan, Wenxian, Nanjiang and Fengxian); F. taihangnicus should also has two subspecies, i.e., F. taihangnicus taihangnicus, consisting of the populations in Mt. Zhongtiao and eastern Mt. Qinling, and F. taihangnicus funiuensis, consisting of the populations in Mt. Funiu. 4. Zoogeography of populaions of Feirana Analysis for divergent time of 19 populations of Feirana: Using the dates of run-through of Wushan segment of Changjiang River as the time when the population of Lichuan started differentiated from the populations of Wushan and Shennongjia, and the dates of Sanmenxia segment of Yellow River as the time when the populations in Mt. Zhongtiao started differentiated from the population of Dabagou in Chang’an, molecular clock was established using sequences with 1953 bps of 19 populations of Feirana and outgroup including N. pleski, P. yunnanesis, P. robertingeri, F. limnocharis in order to estimate divergent time of all clades. Result of that indicated that: ① the tribe Paini started to evolve independently at about 70Ma when is in consistent with that estimated by Roelants et al.(2004)with result of about ~60±15Ma, they were corroborated by each other, this confirms the validity of this molecular clock; ② divergent time for speciation of Feriana is early, ancestral populations of F. quadrana and F. taihangnicus were found about 46Ma~50Ma; differentiation of populations within species is greatly late to the divergence of the two species, divergent time for F. quadrana is 10Ma and divergent time for F. taihangnicus is 6Ma. Proceeding of distribution pattern of Feirana. Phylogenetic relationships of populations of Feirana matched quite with distribution pattern of them, the relationships among clades showed in phylogenetic trees is direct ratio to geographical distance of them; the estimated date of speciation between two species of Feirana was as early as speciation of Paa yunnanesis and Nanara pleski; middle part of Mt. Qinling is the center of speciation of Feirana, combination of mult-events of dispersal and vicariance are probably the mechanism of speciation of Feirana, F. quadrana colonized the mid-Mt. Qinling and then differentiated into two subspecies in southwest direction, ancestral population of F. taihangnicus colonized the mid-Mt. Qinling and then differentiated into two subspecies in northeast direction. On geological history of the distribution of Feirana. According to molecular clock and speciation model of populations of Feirana, some geological events are confirmed, including special rise of Mt. Minshan- Mt. Longmen-western Mt. Qinling, glacial age.

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角蟾科(Megophryidae)是以角蟾属(Megophrys Kuhl and Van Hasselt, 1822)为模式属而建立的,隶于无尾目(Anura),变凹型亚目(Anomocoela)。角蟾科包括2 亚科11 属142 种,分布于东洋界,从巴基斯坦、中国西部向东直到菲律宾和苏达群岛;中国有9 属75 种分布于华中和华南地区。角蟾科被认为是原始的两栖动物之一,其分类学、系统学、生态学、动物地理学的研究均深受中外科学家的瞩目。近年来,通过形态学、古生物学、细胞学、生态学、支序系统学的研究,角蟾科的分类与系统学研究取得了较大进展。与成体形态和分子系统学研究结果相比较,蝌蚪的研究存在更多的问题和挑战,尚需深入研究:(1)角蟾科蝌蚪的形态多样性分析;(2)角蟾科的系统发育关系与蝌蚪的演化,以及口漏斗的起源;(3)角蟾科蝌蚪表型分化与栖息环境和觅食行为的适应演化。针对上述问题,本文对角蟾科9 属30 种蝌蚪的形态特征,包括外部宏观形态和口器外部结构特征、口器内部显微结构、唇齿和角质颌的亚显微结构作了深入细致、多层次的比较研究;通过12s rRNA 和cytochrome b 基因构建最大简约树,采用贝叶斯系统发育进行分析,蝌蚪型的演化采用祖先性状的重建方法分析;得到如下结论:1)初步将角蟾科蝌蚪分为4 种类型;并且建立了2 种新的角蟾科蝌蚪类型。A 型:拟髭蟾型蝌蚪,该型蝌蚪包括拟髭蟾属、髭蟾属、齿蟾属和齿突蟾属的物种;B 型:新类型,掌突蟾型蝌蚪,该型蝌蚪在本文中包括掌突蟾属、小臂蟾属的物种;C 型:新类型,短腿蟾型蝌蚪,一种特化类型,该型蝌蚪在本文中仅包括短腿蟾属的物种;D 型:角蟾型蝌蚪,该型蝌蚪在本文中包括无耳蟾属、小口拟角蟾属和异角蟾属的物种。2)对角蟾科的分类进行了修订:(1)支持角蟾科两个亚科的分类系统;(2)角蟾亚科包括拟角蟾属、异角蟾属、无耳蟾属和短腿蟾属;该亚科形态差异小,系统学关系比较复杂,暂不作族级分类的再划分;(3)拟髭蟾亚科分为2 个族:拟髭蟾族,该族物种具有类型A 的蝌蚪,包括4 个属:拟髭蟾属、髭蟾属、齿蟾属、齿突蟾属;掌突蟾族,该族物种具有类型B 的蝌蚪,包括2 个属:掌突蟾属和小臂蟾属。3)结合分子系统进化关系探讨了4 种蝌蚪类型的演化。(1)角蟾科蝌蚪的最近共同祖先来自于一类具有拟髭蟾型蝌蚪性状的蝌蚪;(2)掌突蟾型蝌蚪和角蟾亚科的蝌蚪是由具有拟髭蟾型蝌蚪性状的祖先蝌蚪分别演化而来;(3)短腿蟾型蝌蚪是角蟾型蝌蚪的一种特化类型;(4)外群蝌蚪具有与拟髭蟾型蝌蚪相似的性状,进一步印证了类拟髭蟾型蝌蚪是角蟾科蝌蚪的最近共同祖先的假说;(5)具有口漏斗的蝌蚪类型是由不具口漏斗的蝌蚪类型演化而来,在角蟾科中口漏斗是一种衍生性状。4)分析了角蟾科四种蝌蚪类型与栖息环境的适应演化。(1)角蟾科蝌蚪的口部和体形的变化反映了该科蝌蚪由缓流向类似静水生境的回水凼的渐变式适应,角蟾科蝌蚪的形态显示了多方面的适应变化;(2)随着蝌蚪类型由A 向D的演化,当水速较大时,拟髭蟾型的蝌蚪营流水攀吸型生活方式;当水速递减时,掌突蟾型蝌蚪营流水附着型生活方式;当水速进一步递减时,具有较小口漏斗的短腿蟾型蝌蚪和具有大漏斗的角蟾型蝌蚪营流水浮泳型生活。角蟾科蝌蚪对于水流递减的适应演化说明蝌蚪的生态学适应是具有进化意义的;(3)蝌蚪口器内部结构的分化揭示了蝌蚪和食性的适应关系,蝌蚪以口部的唇齿与角质颌刮取或吞吸水中的物质,然后,通过口乳突有选择地过滤进入口腔中食物。拟髭蟾亚科蝌蚪的唇齿多而窄,唇齿间距宽,颌鞘粗而稀,反映了其植食性为主的特点;它们的舌前乳突一般为指状,在口腔入口处所占面积小,其机械过滤的作用很多被唇齿和角质颌分担了;而角蟾亚科的蝌蚪,其角质颌弱,其舌前乳突一般为匙状,几乎填满了口腔入口处,因此舌前乳突起了主要的机械过滤作用。The family Megophryidae is the largest and most diverse families inArchaeobatrachia, and most of its species occur in India, Pakistan, and eastward intoChina, Southeast Asia, Borneo and the Philippines to the Sunda Islands. Currently thefamily includes 142 species have been grouped into two subfamilies, Megophryinaeand Leptobrachiinae. The mountains of central and southern China are rich in speciesof Megophryidae, 75 species belong to 9 genera and two subfamilies.The family was supposed to be ideal materials of studies in many fields of biology,such as taxonomy, evolution, systematics, ecology, and biogeography. Recently, therehave a great development in taxonomy and systematics of megophryids throughstudied by morphology, paleontology, cytology, ecology, and cladistics. However,larvae of megophryids were generally unknown, although the tadpoles might be veryimportant for above studies.In this paper, we examined the evolutionary scenario of the tadpoles’ morphologyin the context of a phylogenetic framework. Our objectives are (1) to evaluate thedivergence of larval body shape and oral discs in the family Megophryidae, (2) toexplore the evolutionary trends of the larvae in megophryidae, and test if thefunnel-shaped oral disc is apomorphic, and (3) to explore the relationship of the larvalstructure, diet and microhabitat.We examined larval morphology of 30 megophryid species, the larval body shape,oral discs, the buccopharyngeal cavity, and jaw sheaths and denticles of the Chinesemegophryid frogs were re-examined. We constructed a phylogeny of the species on thebasis of published mitochondrial cytochrome b and 16S rRNA gene segments usingpartitioned Bayesian analyses. Furthermore, hypothetical changes of larval morphologywere inferred using parsimony principle on the phylogeny. The results showed that:1) Four tadpole types in Megophryidae. The larval morphological charactersseries in Chinese megophryids fall into four general categories according to the bodyshape and oral discs: (A) Leptobrachiini type, species from genera Leptobrachium,Oreolalax, Scutiger and, Vibrissaphora share this type of tadpoles. (B) Leptolalax type,species of genus Leptolalax have this type of tadpoles. (C) Brachytarsophrys type,species of the genus Brachytarsophrys have this type of tadpoles. (D) Megophryinitype, species of the genera Atympanophrys, Ophryophryne, and Xenophrys share this type of tadpoles. Of which B and C are two novel types.2)Taxonomic implications. The present study leads us to reconsider the generalclassification of tribes attributed to members of Megophryidae. More specifically,concerning the phylogenetic relationships and the two novel tadpole types describedherein, we propose a provisional taxonomy for the family but suggest that further taxasampling of other megophryids be performed to confirm this taxonomic change. TheMegophryidae is composed of two subfamilies (Leptobrachiinae and Megophryinae).The Leptobrachiinae was recogonized the two tribes: (1) tribe Leptobrachiini sensuDubois, corresponding to the tadpole of type A, including four genera, i.e.,Leptobrachium, Oreolalax, Scutiger and, Vibrissaphora; (2) tribe Leptolalaxini,corresponding to the tadpole of novel type B, including two genera, i.e., Leptolalaxand Leptobrachella. However, the relationships among the genera of Megophryinaewere largely unresolved, they recognized no monophyletic groups above the generalevel. A more thorough sampling will likely foster a better taxonomic solution.3) The larval evolutionary scenario in Megophryidae.Type A is characteristicof normal-mouthed with multiple tooth rows, representing the tadpole type of theMRCA of Chinese megophryids. Type B is characteristic of normal-mouthed withreduced tooth rows, prolonging labium, and integumetary glands. Type C ischaracteristic of no labial teeth and smaller umbeliform oral disc. Type D ischaracteristic of no labial teeth, enlarged umbeliform oral disc, representing the tadpoleof the MRCA of subfamily Megophryinae. A previous hypothesis, referring tofunnel-shaped oral discs as an apomorphy, is supported.4) The larval adaptation to habitats in Megophryidae. Tadpoles generallyadhere to substrates using their mouths, and the microhabitat that the tadpoles occupyreflects the degree of adhesion and oral complexity. The morphological changes inmegophryid tadpoles virtually allow a progressive adaptation to a changing habitatfrom faster water to slower water. Within the tadpoles of Type A to type D, the TOTbecomes smaller and smaller, and the oral disc orientates from anteroventral toumbelliform upturned, and eye position orientates from dorsal to lateral, and the trunkis more and more depressed and tail becomes relatively longer and slender. Within therunning water, the normal-mouthed with multiple tooth rows of Leptobrachiini tadpoles are correlated with lotic-suctorial, benthic feeders with anteroventral oraldisc and the largest body. With the water’s velocity decreasing, the lotic-adherentfeeders of Leptolalax tadpoles have tube-shaped labium with reduced tooth rows andintegumetary glands. And then, the smaller umbeliform in Brachytarsophrys tadpolesand the enlarged umbeliform oral disc in the Megophryini tadpoles are inhabitmicrohabitats of non-flowing backwaters of rivers, indicative of adaptive traits oflotic-neustonic surface feeders. The scheme of megophryid tadpoles andmicrohabitats provided the first clear evidence which congruent with the hypothesis ofAltig and Johnston (1989). The ecological divergence plays a general role in thedivergence and evolution of megophrid larvae. There is a definite correlation amongthe buccopharyngeal cavity, diet and feeding mechanisms, the tadpole graze orswallow the food particles, then through papillae which like a sieve and sort out foodparticles to the oesophagus. The tadpole of Leptobrachiinae possess multiple toothrows, wide intertooth distance as well as thick and sparse jaw sheath, these tadpolesinhabit bottom of the streams and graze on epiphyton or major detritus of organicmatter on the substrates, their prelingual papillae like single finger, the mechanicalpurpose of papillae served share in by tooth and jaw. The tadpoles of Megophryinaeoccur near the water surface of small streams and are the filter feeder, their dietincludes plankton and organic debris floating on the water surface, those tadpolepossess weak jaw, their prelingual papillae like spoon, the mechanical purpose ofpapillae served mostly for sieve.

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小鲵属为亚洲特有的有尾两栖类,是小鲵科之模式属。现记载小鲵属动物有29种,占全科物种数一半以上(Frost, 2007),为小鲵科第一大属。该属分布跨越古北界和东洋界,分布于中国、朝鲜、韩国、日本等地区,其系统学研究一直以来颇为中外学者所关注。澄清该属的物种分类问题,阐明其种间的系统发育关系对整个小鲵科的系统演化与分布格局关系的研究具有关键性意义。 本论文以中国及周边地区的小鲵属物种为主要对象,主要利用分子生物学实验与生物信息学途径相结合的手段,运用支序系统学与分子进化生物学理论及分析方法,展开系统发育的研究。在此基础上诠释现存的分类问题,并探讨该属系统发育关系。 研究材料上,本研究采用野外采集与网络下载数据相结合的方法,获取了较为全面的小鲵属物种DNA序列资料。技术手段上,选取了线粒体DNA的Cytb、12S、16S、NADH 2、COI等多个基因部分片段序列,对小鲵属开展了较为全面系统的研究。分析方法上,针对小鲵属物种各类群的具体情况,运用了处于领域前沿的多种分析方法。应用PAUP、MrBayes、Modeltest、Mega等软件,采用了最大简约法(MP)、邻接法(NJ)、贝叶斯推断(BI)及K2P遗传距离分析等方法。 本研究对小鲵属进行了较为全面的系统发育研究,弥补了有关小鲵属系统发育研究的不足,并得出了以下结果: (1)关于豫南小鲵Hynobius yunanicus的有效性,基于细胞色素b序列的系统发育关系联合形态和染色体组型等证据证明了豫南小鲵是商城肥鲵的同物异名。 (2)获得了较为全面的小鲵属物种系统发育树,并以此解释了北海道滞育小鲵、东北小鲵、中国小鲵与义乌小鲵等存在的分类问题。 (3)本研究利用DNA条形码技术对小鲵属及小鲵科物种进行了鉴定,再次证明豫南小鲵为商城肥鲵的同物异名;并认为猫儿山小鲵与挂榜山小鲵为同物异名。 综上,本研究较为完整地勾勒了小鲵属的系统发育关系全貌,并对小鲵属物种的起源进行了推测。 Hynobius, the type genus of the Family Hynobiidae, is the only exclusively Asian salamander genus. This genus which contains 29 species (beyond half of total Family), is the key group in Hynobiidae. The genus distributed across Palaearctic and Oriental Realm, and was found in China, Korea, and Japan. Systematics of genus Hynobius draws attention of researchers all the times. Resolving the taxonomic and phynogenetic questions of Hynobius is very important to the evolutionary research of Family Hynobiidae. Firstly, studies on systematics of genus Hynobius based on morphology, karyotype and molecular phylogeny of Hynobius are reviewed along with existing questions of this genus. The sequential reaserch project of phylogenetics is perspectively outlined. Using molecular data, we compared Hynobius yunanicus with a sympatric species Pachyhynobius shangchengensis. Our cytb sequences associating with karyotypic and morphological data supportted that H. yunanicus is not a valid species, but a synonym of P. shangchengensis. Because of phenotypic plasticity, some morphological characters are not even suitable for identifying hynobiids. The taxonomy of hynobiids is still controversial to a certain extent (Zhao et al. 1993; Fei, 1999; Chen et al. 2001; Zeng et al. 2006) and needs to be resolved by a new method. Here we examined the utility of COI barcoding for the discrimination of hynobiids. Meantime, the taxonomy of this Family was looked-over again. Our result show that the DNA Barcoding based on COI is easier and more rapidly than classic methods. And the DNA Barcodes data supported the actual taxonomy of Hynobiidae. Based on the achievements of our research, the phylogeny of Hynobius was reconstructed including some new species (H. maoershanensis, H. guabangshanensis, etc). Besides the phylogenetics of Hynobius was outlined, some questions and the hypothesis about the origin of genus Hynobius was put out.

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为了从分子水平对中国药用石斛及其混伪品进行鉴定,本文选取了核rDNA ITS 序列和叶绿体DNA 的matK 基因序列进行研究。采用改良的CTAB 法提取石斛的基因组DNA,PCR 产物直接测序法对17 种(共32 份)药用石斛的核糖体内转录间隔区ITS 全序列进行测定,克隆测序法对12 种(共22 份)药用石斛的叶绿体的matK 基因序列进行测定,运用BioEd it,MEGA4.0 等生物软件分析了石斛属植物的rDNA ITS 序列及叶绿体的matK 基因序列的特征,比较了石斛属间、种间、种内不同居群(品种)间的序列碱基差异及遗传距离,应用邻接法构建分子系统树。主要研究结果如下: (1)建立了17 种(共32 份)药用石斛rDNA ITS 区碱基全序列数据库,其中,ITS1 的长度为228~234 bp,GC 含量为45.7%~53.0%,变异位点167 个,占总位点67.34%,信息位点106 个,占总位点42.74%,ITS2 长度为241~247 bp,GC含量为44.8%~55.7%,变异位点165 个,占总位点66.27%,信息位点115 个,占总位点46.18%。 (2)建立了12 种(共22 份)药用石斛的叶绿体matK 基因全序列数据库,叶绿体matK 基因长1410 bp,变异位点51 个,信息位点11 个。除了存在碱基替换的遗传变异外,还存在碱基的插入和缺失。 (3)通过ITS 序列比较分析了各材料间的遗传距离和碱基差异,属间的遗传距离为0.295,石斛种间的平均遗传距离为0.142,碱基相差2~156 个,种内各居群间的平均遗传距离为0.002,碱基相差1~2 个。属间的遗传距离大于种间的遗传距离,种间的遗传距离大于种内不同居群(品种)间的遗传距离。 (4)根据分析石斛叶绿体的matK 基因序列得到,外类群(密花石豆兰)与石斛属间最小遗传距离为0.027,石斛种间的平均遗传距离为0.008,种间最大的遗传距离0.014, 最小的遗传距离为0.003,碱基相差8~20 个。种内不同居群(品种)遗传距离为0.001,相差1~5 个碱基。 (5)利用17 种石斛的全序列数据库及遗传分析软件,通过对待检种rDNA I TS区进行序列测定,成功地对10 个待检种进行了鉴定,并且在原植物开花后得到了验证。 (6)运用12 种石斛的matK 基因全序列数据库及遗传分析软件,成功地对4个待检种进行了鉴定,同样在原植物开花后得到了验证。 (7)本文利用石斛的核糖体内转录间隔区ITS 序列和叶绿体的matK 基因序列数据库分别构建了NJ 树,外类群与石斛属间石斛种间以及种内不同居群(品种)间均能在NJ 树中明显分化开来,二者构建的分子系统树一致,为石斛的分子鉴定提供了依据。 In order to identify Chinese Herba Dendrobii and its adulterant species on molecular level, we studied the sequences of rDNA ITS and chloroplast matK gene. Genomic DNA of Dendrobium was extracted using the modified cetyltrimethyl ammonium bromide (CTAB) method. The PCR products of the rDNA ITS sequences of Dendrobium (32 materia ls) were purified and then sequenced. The PCR products of chloroplast matK gene of Dendrobium (22 materia ls) were purified, cloned and then sequenced. The characteristic of the sequences and the genetic dista nce were compared between Bulbophyllum odoratissimum and Dendrobium, Dendrobium interspecies, and different populations. Phylogenetic trees were constructed using the NJ method by the biology softwares including BioEd it, MEGA4.0 etc. The ma in results as follows: (1) It was built up that the database of rDNA ITS sequences of 17 species of Herba Dendrobii (32 materia ls). The ITS1 was 228~234 bp, the GC content accounting for 45.7%~53.0%. Its variable sites were 167, accounting for 67.34%. The Parsim-Informative positions were 106, accounting for 42.74%. The ITS2 was 241~247 bp, the GC accounting for 44.8%~55.7%. The variable sites were 165, accounting for 66.27%. The Parsim-Informative positions were 115, accounting for 46.18%. (2) The database of the chloroplast matK gene sequences was built up, which contained 12 species of Herba Dendrobii (22 materia ls). The matK gene sequences were about 1410bp in length. There were 51 variable sites and 11 Parsim-Informative sites. And there were nucleotides insertions and deletions in some species , in addition to the nucleotides substitutions. (3) The rDNA ITS sequences were compared and analyzed by the biology softwares. The genetic dista nce between Bulbophyllum odoratissimum and Dendrobium was 0.295. The avera ge genetic dista nce was 0.142 between Dendrobium species, and there were 2~156 variable nucleotides. The avera ge genetic dista nce between different populations was 0.002, and there were 2~156 variable nucleotides. The genetic dista nce between Bulbophyllum odoratissimum and Dendrobium was greater tha n that of Denrobium interspecies. Meanwhile, the genetic dista nce between Denrobium species was also greater tha n that of different populations (variaties). (4) The characteristics of the chloroplast matK gene sequences were obtained after analyzing by the biology softwares. The minima l genetic dista nce was 0.027 between Bulbophyllum odoratissimum and Dendrobium . The ma xima l genetic dista nce was 0.014 between Dendrobium species, and there were 20 variable nucleotides. The minima l genetic dista nce between populations was 0.003, and there were 8 variable nucleotides.The genetic dista nce between populations was 0.001, and there were 1~5 variable nucleotides. (5) The molecular Phylogeny tree was constructed on the database of rDNA ITS the sequences of 17 species of Herba Dendrobii using the biology softwares. Then we authenticated 10 materia ls on molecular level. What’s more, they had been proved when these pla nts flowered. (6) The molecular Phylogeny tree was built up on the database of chloroplast matK gene sequences of 12 species of Herba Dendrobii with the biology softwares.Then 4 materia ls were authenticated on molecular level. Moreover, they had also been proved when these pla nts were in flower. (7) The Phylogenetic trees were separately constructed on the sequences of rDNA ITS and chloroplast matK gene B. odoratissimum and Dendrobium all could be distinguished on the Phylogenetic trees. Meanwhile, the Phylogenetic trees based on two groups of sequences were coincident. rDNA ITS and matK gene sequence could be used as molecular markers for authentication of Herba Dendrobii.