花楸属复叶组植物倍性水平及基因组大小变异

为探究花楸属复叶组（Sorbus sect. Sorbus）植物的倍性和基因组大小变异,以水稻品种日本晴（Oryza sativa subsp. japonica ‘Nipponbare’）为内标植物,应用流式细胞术对植物体细胞所含的DNA含量进行测定。结果表明：19种植物的基因组大小为0.648～0.803 pg,有二、三、四倍体3种倍性水平,其中二倍体植物有15种,2C值为1.335～1.607 pg;三倍体仅喜马拉雅花楸（S. himalaica）1种,2C值为2.137 pg;白毛花楸（S. albopilosa）、西康花楸（S. prattii）和假川滇花楸（S. pseudovilmorinii）为四倍体,2C值分别为2.594、2.891、2.751 pg。首次报道了16种花楸属植物的2C值,并报道了5种植物新的倍性水平,表明花楸属植物在种间及种内均存在倍性变化。     

荚莲属观赏植物资源的研究

荚蒾属(Viburnum)植物全世界约有200种,其中有许多种类可供观赏,但国内外仅有少数几种被开发利用。本文介绍了46种荚蒾属植物在中国的应用现状和分布,论述了中国的传统名花——琼花(Viburnum macrocephalum)的植物学性状、栽培变异和品种分类,探讨了琼花的分类学难题;发现并定名了‘大花琼花’(V.macroce-phalum f.keteleeri'Big Flower')新品种;有7种荚莲属植物具有与琼花相似的观赏价值,值得在园林中推广。     

基于流式细胞术的海菜花属植物基因组大小测定

利用改良的裂解液P1,以中国古代莲(Nelumbo nucifera Gaertn.Fruct.et Semin)为外标,采用流式细胞术(FCM)对海菜花属(Ottelia Pers.)6个代表性物种及3个存疑类群的基因组大小(C值)进行测定,并对海菜花属系统发育关系进行评估。结果显示:所测定的材料中,水菜花(Ottelia cordata(Wall.)Dandy)C值最小(6.759 pg),灌阳水车前(O.guanyangensis Z.Z.Li,S.Wu&Q.F.Wang)C值最大(12.929 pg);对基因组大小与该属系统发育树进行比较分析,结果发现该属植物基因组大小与系统发育关系具有一致性;对海菜花属3个存疑类群进行分子系统学研究,结果发现存疑类群与嵩明海菜花(Ottelia acuminata var.songmingensis Z.T.Jiang,H.Li&Z.L.Dao)及灌阳水车前的关系最近,而与水菜花的关系较远,这与基因组大小变异相一致。根据基因组大小进一步推测3个存疑类群很可能为二倍体。本研究结果可为海菜花属植物的系统学研究提供新资料,同时为该属植物基因组学研究提供基础数据。     

花楸属3种植物的基因组大小与叶气孔特征分析

以糍粑沟花楸(Sorbus cibagouensis H.Peng&Z.J.Yin)、大理花楸(S.hypoglauca(Cardot)Hand.-Mazz.)和川滇花楸(S.vilmorinii C.K.Schneid.)为材料,采用流式细胞术对其基因组大小及倍性进行检测分析,同时应用光学显微镜和扫描电子显微镜对其气孔特征进行观察。结果显示,3种花楸属植物的基因组大小和倍性、气孔特征均存在一定差异。糍粑沟花楸、大理花楸和川滇花楸的基因组大小分别为:(1.480±0.039)pg、(1.513±0.041)pg、(2.675±0.065)pg,在此基础上推断糍粑沟花楸和大理花楸为二倍体、川滇花楸为四倍体植物。显微镜观测发现:3种花楸属植物的气孔器均分布于叶的下表皮,气孔不下陷,保卫细胞无“T”型加厚结构,气孔类型为无规则形;糍粑沟花楸和川滇花楸的气孔器外拱盖光滑,而大理花楸气孔器外拱盖具有短棒状蜡质纹饰;3种植物的气孔器大小存在极显著差异。研究结果表明花楸属植物的基因组大小与倍性呈显著正相关,可用于推断植物的倍性;而气孔器大小和密度与倍性的相关性不大,但气孔特性在种间变化显著,可为种的鉴定提供科学的理论依据。     

长三角及邻近地区138种草本植物DNA C-值测定及其生物学意义

为了评估DNA C-值和基因组大小(genome size)在植物入侵性评估中的价值,应用流式细胞仪测定了长三角及邻近地区138种草本植物的核DNA含量,其中111种为首次报道。在此基础上比较了不同植物类群这两个值的差异,特别是入侵性与非入侵性植物这两个值的差异。结果表明:(1)138种草本植物平均DNA C-值为1.55 pg,最大者是最小者的37.17倍。127个类群平均基因组大小为1.08 pg,最大者是最小者的34.11倍;(2)统计了菊科(Asteraceae)、禾本科(Poaceae)、石竹科(Caryophyllaceae)、十字花科(Brassicaceae)、玄参科(Scrophulariaceae)、蓼科(Polygonaceae)、唇形科(Labiatae)和伞形科(Umbelliferae)的DNA C-值和基因组大小,发现禾本科植物的这两个值显著地大于其他7个科(P0.01)。单子叶的DNA C-值和基因组极显著地大于双子叶植物(P0.01);(3)杂草比非杂草具有更低的DNA C-值(P0.01)和基因组大小(P0.001);与DNA C-值相比,基因组大小在这两个类群之间的差异更为明显(P0.001),这种现象也体现在菊科植物中。随着基因组(X1)和DNA C-值(X2)由大变小,植物的杂草性(入侵性,Y)由弱变强,两者关系分别符合:Y=2.2334-1.2847 ln(X1)(r=0.4612,P0.01)和Y=2.4421-0.7234 ln(X2)(r=0.2522,P0.01),DNA C-值和基因组大小可以作为植物入侵性评估的一个指标;(4)多倍体杂草的基因组极明显地小于二倍体杂草(P0.01),前者为后者的0.63倍。在非杂草中,多倍体基因组比二倍体的略小,前者仅为后者的0.84倍,差异不显著(P0.5)。菊科植物中多倍体杂草的基因组也显著地小于二倍体杂草(P0.1)。基因组变小和多倍体化相结合,进一步增强了植物的入侵性。在多倍体植物入侵性评估中,基因组大小比DNA C-值更有价值。     

山茶属植物ITS的多态性——一个广泛逃离一致性进化的实例

利用位于45S rDNA内转录间隔区（ITS）的3对SSR引物, 对山茶属（Camellia L.）的40个物种进行PCR扩增, 检测3个SSR位点的多态性, 研究物种倍性与多态性之间的关系。实验结果显示, 37个种（占92.5%）的ITS片段存在个体内长度多态性, 在这些种类的个体内至少有2–6类ITS拷贝, 表明山茶属植物的ITS片段存在广泛的非一致性进化; ITS序列上存在易于滑动的SSR位点, 并且其基因组中有较多位于不同染色体上的rDNA位点, 这很可能是山茶属植物ITS片段存在广泛多态性的原因。然而, 研究中没有发现多倍体种类ITS片段的多态性显著高于二倍体种类。山茶属植物ITS片段的多态性提示该属植物的rDNA可能存在更为复杂的进化模式, 在利用ITS片段解决该属植物的系统分类问题时应更为谨慎。     

燕麦属细胞遗传学研究进展

整理燕麦属(Avena L.)细胞遗传学研究文献,总结相关研究进展。燕麦属有7组29种植物,分属5个基因组类型(A、C、AB、AC、ACD)。基于荧光原位杂交技术和种间杂交实验表明,A、C基因组染色体结构差异较大,A基因组二倍体物种具有等臂染色体,C基因组二倍体物种具有不等臂染色体。燕麦属植物D基因组和A基因组间分化程度较小,B基因组有可能是A基因组的变型——A′基因组。普遍观点认为A基因组二倍体物种可能是燕麦属六倍体物种母系亲本,砂燕麦(A.strigosa)为该属多倍体物种A基因组祖先的假说备受争议,有学者认为加那利燕麦(A.canariensis)可能是多倍体物种A或D基因组的供体。燕麦属多倍体物种基因组互换及染色体重排事件,增加燕麦属种间亲缘关系、多倍体物种基因组起源研究的困难。结合基因组学、分子细胞遗传学技术,有望为上述问题提供新证据。     

4种人参属植物基因组大小的测定

人参属（Panax）植物是重要的药用植物资源。以水稻（Oryzasativa）为内标,利用流式细胞术测定了三七（Panaxnotoginseng）、屏边三七（Panaxstipuleanatus）、越南三七（Panaxvietnamensis）及假人参（几n似pse“doginseng）4种人参属植物的基因组大小。结果表明,4种植物的基因组大小各不相同,其中。三七的最大,而屏边三七的最小。本组数据将为该属植物的基因组学研究以及种群进化研究提供基础数据参考。     

荚蒾属植物花期物候及生长对引种地年际气候波动的响应

专属引种植物的物候及生长研究能够掌握特定物候相在专属水平上的阈值,并为评估引种专属的适应潜力提供参考。通过对中国科学院植物研究所北京植物园内引种多年的9种荚蒾（Viburnum）的花期及2种荚蒾的生长动态进行观测,分析讨论了花期对冬春两季异常低温的响应及营养与生殖生长的关联机制。结果表明：2009–2010年冬春异常低温后,荚蒾始花期的整体延迟是由春季环境热量供应不及时所致,种间延迟程度的差异则与原产地的气候有紧密联系：分布于寒温带地区的欧洲绣球（V.opulus）和修枝荚蒾（V.burejaeticum）延迟天数最少（分别为10和12天）,分布于我国亚热带的琼花（V.macrocephalum）和桦叶荚蒾（V.betulifolium）延迟天数最多（分别为21和26天）。荚蒾花前有效积温介于39–368°C之间。经历异常低温后,花前有效积温呈上升和下降两种格局,与物种冷量和热量的内在需求有关。荚蒾属植物的生殖与营养生长呈现两种关联方式,早花种类开花座果伴随着营养生长的竞争,晚花种类花后即出现营养生长的支持,对果实发育的保障性较强。     

黄藤染色体核型及基因组大小分析

为探究黄藤(Daemonoropsjenkinsiana)染色体核型和基因组的大小,采用体细胞染色体常规制片法与显微摄影技术相结合的方法,对黄藤染色体进行了核型分析,同时以番茄(Lycopersicon esculentum)为内标,应用流式细胞术对黄藤叶片基因组大小、DNA含量和DNA倍性进行了测定。结果表明,黄藤茎尖是理想的染色体制片材料;黄藤的染色体数为2n=24,核型公式为K(2n)=1M+17m+5sm+1st,核型类型为2C;核型不对称系数61.20%;黄藤的DNA含量为1.57 pg,基因组大小为1 539.53 Mb,黄藤的DNA倍性为二倍体(2n)。这是首次报道黄藤的核型和基因组大小,为深入开展黄藤属及其近缘属植物的核型和基因组比较分析提供了参考依据。     

The structure and roles of sterile flowers in Viburnum macrocephalum f. keteleeri (Adoxaceae)

The formation and ecological roles of sterile flowers in flowering plants are interesting issues in floral biology and evolution. Here, we investigated the morphological and anatomical characteristics of both fertile and sterile flowers of Viburnum macrocephalum f. keteleeri, a self-incompatible and insect-pollinated shrub, during different developmental stages of flowers. In addition, pollinator visitation rates and fruit set were determined in intact inflorescences and those with sterile flowers removed. The results indicate that sterile and fertile flowers were developmentally similar during early developmental stages, and that development of the flower types diverged about 15 days before flowering. In addition, pollinator visitation rates, number of pollen grains on stigmas and fruit set were significantly higher in inflorescences with sterile flowers than those without sterile flowers. The results suggest that sterile flowers of this species evolved from fertile flowers under long-term selective pressure, and play a crucial role in enhancing reproductive success through effectively attracting pollinators to the plant and thus enhancing fruit set.     

Genome size and karyotype length in some interstitial polychaete species of the genus Ophryotrocha (Dorvilleidae).

Interstitial polychaetes of the genus Ophryotrocha are very small, progenetic, and morphologically very similar. These worms have been widely used in evolutionary biology and sexuality studies. To have a better insight into the karyological evolution of this genus, we measured the total karyotypic length and the 2C nuclear DNA content of the nine best-known species of this genus. No interspecific differences were observed in karyotypic lengths, apart from that of O. gracilis, which was significantly greater than the karyotypic length of five of the nine species. The genome size (i.e., 1C DNA content calculated from 2C DNA content) in eight of the nine species is about 0.4 pg, irrespective of the chromosome number. A group of four gonochoric and morphologically indistinguishable species, with 2n = 6 metacentric chromosomes, appears to be heterogeneous with regard to its DNA content, because one of the species, O. macrovifera, has a genome twice the size of that of the other three species. A hermaphroditic species, O. hartmanni, has a genome three times that size. No correlation has been observed between genome size and body size, egg cell diameter, or time interval from egg fertilization to sexual maturity. The basic genome size of 0.4 pg is among the lowest recorded in invertebrates. Hypotheses about selective pressures that maintain such a low amount of nuclear DNA in this genus are discussed.     

Estimation of Genome Size of Four Panax Species by Flow Cytometry*

Ginseng genus Panax, a member of family Araliaceae, consists of about 11 species in total. Most species of this genus are applied as tonic and medicinal plant resources. In this article, the genome size (C Value) of four ginseng species was estimated by flow cytometry using Oryza sativa as the internal reference. The results revealed that the C Values of four species are different from each other, and the C Value of Pnotoginseng is the largest, while the C Value of Pstipuleanatus is the smallest one.     

A survey of Penstemon's genome size

Penstemon is the largest genus in North America with more than 270 reported species. However, little is known about its genome size. This information may be useful in developing hybrids for landscape use and for gaining insight into its current taxonomy. Using flow cytometry, we estimated the genome size of approximately 40% of the genus (115 accessions from 105 different species). Genome sizes for both reported and probable diploids range from P. dissectus 2C = 0.94 pg (1C = 462 Mbp) to P. pachyphyllus var. mucronatus 2C = 1.88 pg (1C = 919 Mbp), and the polyploids range from P. attenuatus var. attenuatus 2C = 2.35 pg (1C = 1148 Mbp) to P. digitalis 2C = 6.45 pg (1C = 3152 Mbp). Chromosome counts were done for ten previously published and four previously unreported Penstemon species (P. dissectus, P. navajoa, P. caespitosus var. desertipicti, and P. ramaleyi). These counts were compiled with all previously published chromosome data and compared with the flow cytometry results. Ploidy within this study ranged from diploid to dodecaploid. These data were compared and contrasted with the current taxonomy of Penstemon and previously published internal transcribed spacer and chloroplast DNA phylogenetic work. Based on genome size and previous studies, reassigning P. montanus to the subgenus Penstemon and P. personatus to the subgenus Dasanthera, would better reflect the phylogeny of the genus. Furthermore, our data concur with previous studies suggesting that the subgenus Habroanthus be included in the subgenus Penstemon. The DNA content of subgenus Penstemon exhibits high plasticity and spans a sixfold increase from the smallest to the largest genome (P. linarioides subsp. sileri and P. digitalis, respectively). Our study found flow cytometry to be useful in species identification and verification.     

Genome size variation in the genus Carthamus (Asteraceae, Cardueae): systematic implications and additive changes during allopolyploidization

BACKGROUND AND AIMS: Plant genome size is an important biological characteristic, with relationships to systematics, ecology and distribution. Currently, there is no information regarding nuclear DNA content for any Carthamus species. In addition to improving the knowledge base, this research focuses on interspecific variation and its implications for the infrageneric classification of this genus. Genome size variation in the process of allopolyploid formation is also addressed. METHODS: Nuclear DNA samples from 34 populations of 16 species of the genus Carthamus were assessed by flow cytometry using propidium iodide. KEY RESULTS: The 2C values ranged from 2.26 pg for C. leucocaulos to 7.46 pg for C. turkestanicus, and monoploid genome size (1Cx-value) ranged from 1.13 pg in C. leucocaulos to 1.53 pg in C. alexandrinus. Mean genome sizes differed significantly, based on sectional classification. Both allopolyploid species (C. creticus and C. turkestanicus) exhibited nuclear DNA contents in accordance with the sum of the putative parental C-values (in one case with a slight reduction, frequent in polyploids), supporting their hybrid origin. CONCLUSIONS: Genome size represents a useful tool in elucidating systematic relationships between closely related species. A considerable reduction in monoploid genome size, possibly due to the hybrid formation, is also reported within these taxa.     

Genome sizes in afrotheria, xenarthra, euarchontoglires, and laurasiatheria

Topical literature and Web site databases provide genome sizes for approximately 4,000 animal species, invertebrates and vertebrates, 330 of which are mammals. We provide the genome size for 67 mammalian species, including 51 never reported before. Knowledge of genome size facilitates sequencing projects. The data presented here encompassed 5 Metatheria (order Didelphimorphia) and 62 Eutheria: 15 Xenarthra, 24 Euarchontoglires (Rodentia), as well as 23 Laurasiatheria (22 Chiroptera and 1 species from Perissodactyla). Already available karyotypes supplement the haploid nuclear DNA contents of the respective species. Thus, we established the first comprehensive set of genome size measurements for 15 Xenarthra species (armadillos) and for 12 house-mouse species; each group was previously represented by only one species. The Xenarthra exhibited much larger genomes than the modal 3 pg DNA known for mammals. Within the genus Mus, genome sizes varied between 2.98 pg and 3.68 pg. The 22 bat species we measured support the low 2.63 pg modal value for Chiroptera. In general, the genomes of Euarchontoglires and Laurasiatheria were found being smaller than those of (Afrotheria and) Xenarthra. Interspecific variation in genome sizes is discussed with particular attention to repetitive elements, which probably promoted the adaptation of extant mammals to their environment.     

西藏虎头兰和墨兰对强光的生理响应

兰属植物(Cymbidium)是重要的观赏花卉。该属大多数种类生长在适度荫蔽的环境中,但附生型的西藏虎头兰(C.tracyanum)却能在阳光直射的环境下良好生长。为了探究西藏虎头兰适应强光的生理机制,研究选取同属的地生型墨兰(C.sinense)与其进行对照实验,测定了这两种植物在不同光照强度下的叶绿素荧光参数和P700氧化还原态。结果表明,在强光下,西藏虎头兰光系统I和II活性的下降程度比墨兰小,而环式电子传递的激发程度更高。环式电子传递的激发有助于增强西藏虎头兰在强光下的光保护,而墨兰因环式电子激发程度较低,使其不能适应强光。由于附生环境更容易出现间歇性的直射光,西藏虎头兰的这种适应强光的能力可能有助于它更充分地利用附生环境中的光照资源。     

Conifer genome sizes of 172 species,covering 64 of 67 genera,range from 8 to 72 picogram

Nuclear genome size of conifers as measured by flow cytometry with propidium iodide was investigated, striving to collect at least a single species from each genus. 64 out of 67 genera and 172 species were measured. Of the 67 genera, 21 are reported here for the first time and the same is true for 76 species. This nearly doubles the number of measured genera and adds 50% to the number of analyzed species. Conifers have chromosome numbers in the range of n = (7)10–12(19). However, the nuclear DNA content (2C‐value) is shown here to range from 8.3 to 71.6 picogram. The largest genome contains roughly 6 × 10¹⁰ more base pairs than the smallest genome. Genome sizes are evaluated and compared with available taxonomic treatments. For the mainly (sub)tropical Podocarpaceae small genome sizes were found with a 2C‐value of only 8–28 pg, with 13.5 pg on average. For the Taxaceae 2C‐values from 23–60 pg were determined. Not surprisingly, the genus Pinus with 97 species (39 species measured here) has a broad range with 2C = 38–72 pg. A factor of 2 difference is also found in the Cupressaceae (136 species) with nuclear DNA contents in the range 18–35 pg. Apart from the allohexaploid Sequoia, ploidy plays a role only in Juniperus and some new polyploids are found. The data on genome size support conclusions on phylogenetic relationships obtained by DNA sequencing. Flow cytometry is applicable even to young plants or seeds for the monitoring of trade in endangered species.     

五节芒基因组大小测定

五节芒(Miscanthus floridulus)属于禾本科(Poaceae)芒属(Miscanthus Andersson),被认为是一种开发潜力巨大的生物质能源植物。本研究以水稻日本晴(Oryza sativa L.var.Nipponbare)为内标,采用流式细胞仪测定6份采自中国不同地区的五节芒基因组大小。结果首次确定了五节芒的基因组大小平均为2596.59 Mb,即2 C DNA含量为5.31 pg(以1 pg=978 Mb计算)。