石蒜属植物分支系统学分析

基于37个形态学、解剖学、孢粉学和细胞学性状及解剖学性状之外的28个形态学、孢粉学和细胞学性状,分别对石蒜属进行分支系统学分析,试图建立石蒜属种间的系统发育关系。利用PAUP^*软件分别构建了最大简约树(MP),所得树的拓扑结构是一致的。同时,基于解剖学9个性状,对石蒜、换锦花、忽地笑、江苏石蒜、长筒石蒜、乳白石蒜、夏水仙、红兰石蒜、安徽石蒜、短蕊石蒜、中国石蒜11个种进行系统发育树构建,其结果也是支持上述系统发育树的。系统发育树结构结果表明,石蒜属16种明显聚为两大类:石蒜、玫瑰石蒜、稻草石蒜和江苏石蒜;广西石蒜、红兰石蒜、换锦花、香石蒜、夏水仙、长筒石蒜、安徽石蒜、中国石蒜、忽地笑、乳白石蒜、短蕊石蒜和陕西石蒜。除换锦花、红兰石蒜及江苏石蒜系统发育位置不同之外,大类群的划分与RAPD指纹图谱基本一致。类群一均属于石蒜亚属(Lycoris亚属)。类群二又可以聚为两小类:广西石蒜、红兰石蒜、换锦花、香石蒜、夏水仙归为一类;长筒石蒜、安徽石蒜、中国石蒜、忽地笑、乳白石蒜、短蕊石蒜和陕西石蒜归为一类。前一子类群除广西石蒜外,都属于整齐花亚属(Symman thus亚属)。后一子类群除长筒石蒜与安徽石蒜外,均属于石蒜亚属(Lycoris亚属)。因此,花冠整齐与否是一个重要的分类特征,但作为石蒜属植物亚属的划分依据,没有得到本研究支持。而在本文中,雄蕊与花被片的位置关系可以作为大分类群划分依据,能否依此来对石蒜属植物亚属进行划分,仍需探讨。另外研究表明叶微形态特征在研究种间亲缘关系时,具有一定的作用。而在种间亲缘关系鉴定时,出叶期不应成为重要的依据。同时研究还表明中国石蒜与忽地笑具有非常近的亲缘关系,与形态学研究一致。     

木耳栽培种质资源的数量分类研究

在木耳栽培种质资源农艺性状调查的基础上,应用数量分类学中的Q型聚类分析法对20个木耳菌株进行分类研究,并对14个农艺性状进行R型聚类分析和主成分分析。结果表明：Q型聚类将20个木耳菌株在欧氏距离6.29处依据子实体朵型性状分为簇生型菌株和菊花型菌株两大类群,菊花型类群在欧式距离4.79处依据生育期性状的原基发生类型划分为分散型和集中型两个亚群;R型聚类表明菌丝体性状（1个）、生育期性状（2个）、子实体性状（8个）等11个农艺性状间相关性较强;主成分分析中,发现子实体背面皱褶、耳片数、原基发生时间、子实体朵型、干耳背面颜色等5个性状是14个农艺性状的第1主成分,贡献率高达62.26%,把第1主成分命名为朵型-生育期构成因子,作为种质评价的指标。     

中国石蒜属遗传多样性与亲缘关系的SSR分析

利用SSR-PCR分析中国石蒜属植物的遗传多样性与种间亲缘关系,从46对SSR引物选出18对扩增清晰、多态性好的引物对石蒜属15个种和外类群中国水仙进行了PCR扩增,采用非变性聚丙烯酰胺凝胶电泳和改良的银染法染色,结果表明供试材料具有高度的遗传多样性,多态性位点百分率达97.63%。通过UPGMA法将供试20份材料聚成4类。第I类包括安徽石蒜、长筒石蒜、黄长筒石蒜、忽地笑、中国石蒜、乳白石蒜,其中安徽石蒜与长筒石蒜的亲缘关系很近;第II类包括香石蒜、鹿葱、换锦花、红蓝石蒜和玫瑰石蒜;第III类由石蒜、矮小石蒜、稻草石蒜和江苏石蒜组成;第IV类为外类群中国水仙。分子聚类结果不仅支持乳白石蒜、鹿葱、红蓝石蒜、江苏石蒜、稻草石蒜的杂交起源观点,而且与形态学分类、物种的染色体倍性、核型存在较高的一致性,即除乳白石蒜外,染色体基数接近或等于11、核型含有11t或11t 倍数的物种聚为一大类;染色体基数不等于11、核型为6M+10T的种聚成了另一大类。SSR-PCR容易区分同种不同产地的安徽石蒜或不同花色的长筒石蒜,外形十分相似的石蒜和矮小石蒜,忽地笑和中国石蒜。本研究认为,将安徽石蒜作为一个独立的种不太合适,它可能是长筒石蒜的变种或是以长筒石蒜为亲本的杂交种。     

中国石蒜属种间亲缘关系ITS序列分析

本文利用核糖体DNA内转录间隔区(ITS)序列对石蒜属13个种(含变种)的亲缘关系进行分析。结果表明,各样品的ITS1长度为259~260 bp,ITS2为230 bp,分别有多个特异性信息位点。以ITS序列为依据对石蒜属植物亲缘关系进行分析,表明石蒜属13个种可分为三大类,其中类Ⅰ包括中国石蒜、地笑、安徽石蒜和长筒石蒜,核型为M+T型;类Ⅱ包括矮小石蒜、换锦花、玫瑰石蒜和红蓝石蒜,核型为ST型;类Ⅲ包括稻草石蒜、乳白石蒜、短蕊石蒜和两种人工杂交种,核型为ST+M+T。系统进化树与核型分析结果相似,第Ⅲ类可能为自然杂交种。     

应用HPLC图谱进行石蒜属种间关系与分类研究

利用高效液相色谱(HPLC)对石蒜属及其近缘植物中国水仙共17份样品的生物碱进行检测,以各样品生物碱色谱峰的相对保留时间为变量,采用SPSS12.0中的Q型聚类法,得到树形图。聚类分析结果显示,17份样品聚成3类:第Ⅰ类包括长筒石蒜、安徽石蒜、鹿葱、换锦花、中国石蒜、香石蒜、乳白石蒜、红蓝石蒜8个种;第Ⅱ类由石蒜、稻草石蒜、江苏石蒜、忽地笑、玫瑰石蒜、矮小石蒜组成;中国水仙单独成第Ⅲ类。聚类结果与传统分类结果有较好的一致性,并支持鹿葱、玫瑰石蒜、安徽石蒜杂交起源的观点。外形相似的忽地笑与中国石蒜,矮小石蒜与石蒜HPLC图谱明显有别,表现出较远化学亲缘关系。表明HPLC化学图谱可用于石蒜属及其近缘植物中国水仙的分类和鉴别研究,并为石蒜属植物指纹图谱研究和质量控制提供重要参考。     

基于表型性状的芍药不同品种群亲缘关系分析

芍药品种变异丰富,表型性状的研究对各品种进行科学分类及亲缘关系的研究具有重要意义。本研究以芍药DUS测试指南(2012版)为依据,以不同品种群的47个芍药品种为研究对象,选取了株高、分枝能力、茎秆颜色等33个表型性状(二元性状9个,数量多态性状3个,定性多态性状21个)进行了R型聚类分析、主成分分析和Q型聚类分析。结果表明:基于33个表型性状的聚类结果可以较好地区分芍药不同品种群的品种,其中国内品种与大多数国外品种亲缘关系较远;杂种芍药品种群的品种由于多亲本参与,起源复杂,聚类结果比较分散;伊藤品种群与杂种芍药品种群存在较近亲缘关系。本研究与前人利用形态和分子标记进行品种分类的结果基本一致,能够较准确反映品种间、品种群间的亲缘关系。     

RAPD技术在玉米亚属植物分类研究中的应用

对玉兰亚属的17个种进行RAPD标记实验的结果表明,RAPD标记在玉兰亚属内具有很高的多态性,证明RAPD标记可作为木兰科低等级分类单元的分类依据,聚类分析结果显示,分布于美洲的渐叶木兰与其它分布于亚洲的种类明显分开,滇藏木兰与亚洲的其余15个种也具有较远的亲缘关系,其余各个种各自聚类,种间均有着不同的遗传距离,RAPD及分子序列测定分析结果均不支持玉兰亚属以萼片状花被片,开花时间,花被片颜色作为分组的依据,建议玉兰亚属以地理分布特征作为分组依据,建立亚洲组与美洲组两个类群。     

石蒜属种间亲缘关系RAPD分析

采用RAPD标记构建了石蒜属Lycoris植物13个种的指纹图谱。从520个随机引物中筛选出清晰且多态性高的41个引物,共产生了350条DNA片段,分子量在0.3-3.0kh之间,其中253条谱带具有遗传多态性,约占72．3％,平均每个引物扩增的DNA片段数为6．2条。采用TFPGA数据分析软件,计算Nei氏相似性系数和遗传距离,建立了UPGMA聚类图。结果表明：石蒜属13个种明显聚为两大类,即具有单型核型结构（I型）,染色体基数为x=11的5个物种：玫瑰石蒜L.rosea,红蓝石蒜.L.haywardii,稻草石蒜L.straminea,换锦花L.sprengeri和石蒜L.radiata聚为一类;具有两型核型结构（V型和I型）8个物种即江苏石蒜L.houdyshelii,乳白石蒜L.albiflora,中国石蒜L.chinensis,长筒石蒜L.longituba,安徽石蒜Lanhuiensis,夏水仙L.squmigera,短蕊石蒜L.caldwellii和忽地笑L.aurea聚为一类。其中玫瑰石蒜和红蓝石蒜的亲缘关系最近,石蒜和忽地笑的亲缘关系较远,与细胞学的研究结果相吻合。通过RAPD分析,对玫瑰石蒜,红蓝石蒜和稻草石蒜是否天然杂交起源以及乳白石蒜,稻草石蒜和江苏石蒜的分类地位进行了探讨。     

长筒石蒜种质资源的RAPD及ISSR研究

借助RAPD及ISSR分子标记对长筒石蒜的种质资源进行了初步的研究,结果表明：RAPD扩增得到的77个位点中,53个位点具有多态性,约占总数的68．8％;ISSR扩增得到的67个位点中,其中62个位点具有多态性,约占总数的92．5％。因此,长筒石蒜遗传多样性是十分丰富的,可以作为育种材料储备种质资源。从UPGMA聚类图来看,依据花色区分的3种类型,被聚在一起,表明亲缘关系较近。因此,在未来的长筒石蒜种质资源利用中,不同花色的长筒石蒜可以作为品系进行开发。     

中国海菜花属植物的性状分析

本文对中国海菜花属全部已知分类群的84个形态学、生物学和生态学性状,进行了R分析和主成分分析。R分析结果表明,被研究的性状可明显地划分为若干组高度相关的性状,它们或表明本属向次生性陆生和异花传粉方向演化,或具重要的分类价值。主成分分析结果表明,仅前16个主成分几乎可保留84个性状的全部信息量,这说明在中国海菜花属分类研究中所选性状很合理;前3个主成分可保留总信息量的76.56%,说明在三维空间内能较好地反映中国海菜花属所有已知分类群间的相对位置。     

安徽产石蒜属植物三种酶同工酶的分析

采用聚丙烯酰胺凝胶电泳技术分离同工酶,首次分析了安徽产石蒜属６种植物十一个居群的过氧化物酶、酯酶、苹果酸脱氢酶三种酶同工酶,比较了居群间酶谱差异,并用数量分类方法,对酶谱资料进行了聚类分析（ＵＰＧＭＡ法）。结果表明：１、过氧化物酶、酯酶同工酶酶谱均显示出居群间的差异,而苹果酸脱氢酶同工酶酶谱居群间共性很大。２、酶谱特征显示,三种酶系统在居群间或居群间的差异,但种间居群的酶谱差异明显大于种内居群的差     

安徽产石蒜属植物三种酶同工酶的分析

采用聚丙烯酰胺凝胶电泳技术,首次分析了安徽产石蒜属11个居群6种植物的过氧化物酶、酯酶、苹果酸脱氢酶三种酶同工酶,初步探讨了种间亲缘关系。从分子水平上为石蒜属的分类及系统发育研究提供了有价值的资料。     

Identification and genetic variation among Hibiscus species (Malvaceae) using RAPD markers

Germplasm identification and characterization is an important link between the conservation and utilization of plant genetic resources. Traditionally, species or cultivars identification has relied on morphological characters like growth habit or floral morphology like flower colour and other characteristics of the plant. Studies were undertaken for identification and determination of genetic variation within the two species of Hibiscus and 16 varieties of Hibiscus rosa-sinensis L. through random amplified polymorphic (RAPD) markers. Primer screening was made by using the DNA of variety "Prolific". Genetic analysis was made by using ten selected decamer primers. A total of 79 distinct DNA fragments ranging from 0.3 to 2.5 kb were amplified by using ten selected random decamer primers. The genetic similarity was evaluated on the basis of presence or absence of bands. The cluster analysis indicated that the 16 varieties and two species formed one cluster. The first major cluster consisted of three varieties and a second major cluster consisted of two species and 13 varieties. The genetic distance was very close within the varieties and also among the species. Thus, these RAPD markers have the potential for identification of species/varieties and characterization of genetic variation within the varieties. This is also helpful in Hibiscus breeding programs and provides a major input into conservation biology.     

Genetic variations in the chloroplast genome and phylogenetic clustering of Lycoris species

The genus Lycoris of Amaryllidaceae comprises approximately 20 species that are distributed only in the moist warm temperate woodlands of eastern Asia. The objectives of this study were: (1) to clarify the phylogeny of the Lycoris species by using the definitive DNA sequencing method and (2) to examine the possible maternal donor of the hybrid origin Lycoris species and the Japanese triploid strains of Lycoris radiata var. radiata. The nucleotide sequence of the maturase K (matK) gene and the noncoding intergenic spacer (IGS) between the atpB and rbcL genes in the chloroplast genome were determined in a total of 27 strains of 11 species of the genus Lycoris. Variation among taxa was mainly due to nucleotide substitution, although deletions and an insertion were found in the IGS. For two chloroplast regions, the phylogenetic trees showed essentially similar topology, indicating the existence of four clades, I, II, III, and IV. For all the species except L. radiata, intraspecific variation was smaller than interspecific variation. For L. radiata, triploid strains were divided into clades I and II, and diploid strains were divided into clades I and IV. This implies that the diploid species of L. radiata var. pumila is a probable ancestral species. The clustering indicated that the chloroplast genome has not evolved in parallel with the karyotype in genus Lycoris. Regarding the hybrid origin species, the maternal parents of L. squamigara, L. albiflora and L. rosea were revealed to be L. longituba, L. radiata and L. radiata var pumila, respectively. We also suggest that a diploid strain of L. radiata var. pumila in clade I might be a candidate of the maternal donor of the Japanese triploid strains. A possible model of the maternal donor of Lycoris species is proposed.     

中国黄杨属植物数量分类的研究

本文采用系统聚类分析方法对中国黄杨属植物20种、3亚种和2变种进行了分类学研究,研究结果表明：营养器官的32个特征性状、繁殖器官的35个特征性状和总的67个特征性状的系统聚类结果与该属植物形态分类结果相吻合,从而为该属植物新分类群的建立,种、亚种和变种的鉴定以及某些划分不合理的种群纠正提供了一种新的科学依据和手段。     

Evaluation of bamboo genetic diversity using morphological and SRAP analyses

Bamboo is an important member of the giant grass subfamily Bambusoideae of Poaceae. In this study, 13 bamboo accessions belonging to 5 different genera were subjected to morphological evaluation and sequence-related amplified polymorphism (SRAP) analysis. Unweighted pair-group method of arithmetic averages (UPGMA) cluster analysis was used to construct a dendrogram and to estimate the genetic distances among accessions. On the basis of morphological characteristics, the 13 accessions were distinctly classified into 2 major clusters; 3 varieties, PPYX, PGNK, and PLYY were grouped as cluster A, and 10 accessions were categorized under cluster B. Similarity coefficients ranging from 0.23 to 0.96 indicated abundant genetic variation among bamboo varieties. Approximately 38 SRAP primer combinations generated 186 bands, with 150 bands (80.65%) showing polymorphisms among the 13 accessions. Based on SRAP analysis, 13 bamboo accessions were grouped into 3 major clusters. Five species comprised Cluster I (PASL, PLYY, PTSC, SCNK, and BMAK), which belongs to genus Phyllostachys. Cluster II consisted of 5 varieties, PASL, PLYY, PTSC, SCNK, and BMAK; Cluster III included 3 varieties, PGNK, PLSY, and BMRS. Comparison of the results generated by morphological and SRAP analyses showed that the classification based on SRAP markers was more concordant to the taxonomic results of Gamble than that performed using morphological characters, thus suggesting that SRAP analysis is more efficient in evaluating genetic diversity in bamboos compared to morphological analysis. The SRAP technique serves as an alternative method in assessing genetic diversity within bamboo collections.     

基于叶绿体DNA atpB-rbcL区序列探讨石蒜属种间系统发育关系

摘要：为了探讨石蒜属（Lycoris Herb.）的种间系统发育关系,对石蒜属95个材料包括15种、4变种及2个人工杂种的叶绿体 DNA atpB-rbcL间隔区进行了测序,结合花部形态和核型特征,探讨了石蒜属种间系统关系及其可能的杂交起源,结果表明：在系统发育树上亲缘关系近的材料聚在一起,其中矮小石蒜（L. radiata var. pumila）和换锦花（L. sprengeri）与2个人工杂交种（Hybrid 1、Hybrid 2）、麦秆石蒜（L. straminea）、江苏石蒜（L. houdyshelii）、短蕊石蒜（L. caldwellii）和乳白石蒜（L. albiflora）具有密切的亲缘关系。atpB-rbcL序列揭示的石蒜属种间关系与染色体核型的分类结果部分一致,主要表现在具有近端部着丝粒(A)染色体的种与具有中部(M)和端部(T)着丝粒染色体的种各成一支,与形态和染色体分类结果一致;不同之处在于具有中部、端部和近端部着丝粒染色体的种分散在两个主要分支内,进一步验证了具有中部、端部和近端部3种着丝粒类型染色体组的石蒜如麦秆石蒜、江苏石蒜、短蕊石蒜和乳白石蒜等是杂交起源的假设,结合2个人工杂交种分析,揭示了短蕊石蒜和乳白石蒜的近端部着丝粒染色体来源于换锦花;麦秆石蒜和江苏石蒜近端部着丝粒染色体来源于矮小石蒜。     

Analysis of genetic diversity and relationships among genus Lycoris based on start codon targeted (SCoT) marker

Genetic diversity and relationship of Lycoris species were investigated using SCoT marker analysis. Of 57 SCoT primers screened, 23 SCoT primers were identified to be high polymorphism. A total of 154 DNA bands with size varied from 0.2 kb to 2.5 kb were amplified, and 131 (82.5%) of them were polymorphic. The average number of polymorphic DNA band per primer was 5.7. Based on Nei's similarity coefficients and genetic distances, total of 43 accessions from 14 species of the genus Lycoris tested were clustered into four groups. Group I consisting of 17 accessions was further divided into two subgroup (Ia and Ib). Subgroup Ia included four species with red flower and 22 (2n) chromosomes. Subgroup Ib contained Lycoris haywardii and Lycoris albiflora which were natural hybrids with oyster white flower. Group II consisted of three species with yellow flower and 16 (2n) chromosomes. Group III was composed of Lycoris Squamigera, Lycoris incarnata and all of hybrids whose flower color was variegated. Group IV only has one species (Lycoris sprengeri) whose petal was a mixture of pink and blue. Notably, the polymorphism generated by SCoT was associated with flower color and chromosome number in this genus plants. The present data provide high-valued information for the management of germplasm, genetic improvement, and conservation of the genetic resources of Lycoris species, important horticulture and medical plants.