杨属青杨组种(品种)间核型比较

对我国杨属 (Populus)青杨组 (Tacamahaca)的 10个种 (包括品种 )的核型进行了比较研究 ,结果如下 :小青杨P pseudo simoniiKitag .,2n =38=2 7m 6sm (1SAT ) 4st (2SAT ) 1t (1SAT) ;毛果杨P trichocarpaTorr .,2n =38=2M 18m (1SAT ) 8sm 10st (1SAT) ;北京青杨P cathayanaRehd .var.Beijing ,2n =38=1M 2 4m 6sm 7st (2SAT) ;群众杨P בpopularis’ ,2n =38=3M 2 7m 2sm (1SAT ) 4st (2SAT ) 2t (1SAT) ;合作杨P ×xi aozhuanicaW .Y .HsuetLiangcv .Opera ,2n =38=1M 2 9m 4sm 5st;五台青杨P cath ayanaRehd .var .Wutai,2n =38=5M 2 2m 4sm 5st 2t (2SAT) ;甘肃青杨P cathayanaRehd .var.Gansulinxiaman ,2n =38=2M 2 8m 1sm 7st (1SAT) ;青海青杨P cathayanaRe hd .var.Qinghai,2n =38=1M 2 7m 3sm 6st (3SAT ) 1t (1SAT) ;中青 10号P cath .×Zhongqingnensis 10 ,2n =38=1M 2 6m 4sm 5st (2SAT ) 2t (2SAT) ;中青 4 8号P cath .×Zhongqingnensis 4 8,2n =38=16m 10sm (1SAT ) 10st (2SAT ) 2t (1SAT)。青杨组种间核型有一定区别 ,大部分种 (品种 )的核型均由中部和近中部着丝点染色体组成 ,少数种具端着丝点染色体 ,按Stebbins的核型分类 ,青杨组均属于 2B     

云南淡黄花百合10居群核型研究

对云南淡黄花百合 10个居群核型进行了研究 ,结果如下 :普洱居群 2n =2x =2 4 =4m(4SAT ) 8st (1SAT ) 12t;大湾居群 2n =2x =2 4 =4m (4SAT ) 4sm (1SAT ) 6st 10t ;宝山居群 2n =2x =2 4 =4m (4SAT ) 4st (1SAT ) 16t ;元阳居群 2n =2x =2 4 =4m (4SAT ) 8st(1SAT ) 12t;玉屏山居群 2n =2x =2 4 =4m (4SAT ) 4sm (1SAT ) 12st 4t;易门居群 2n =2x =2 4 =4m (4SAT ) 2sm 14st (1SAT ) 4t ;峨山居群 2n =2x =2 4 =4m (4SAT ) 2sm 14st(1SAT ) 4t;老鹰地居群 2n =2x =4m (4SAT ) 2sm 14st (1SAT ) 4t;双柏居群 2n =2x =2 4 =4m (4SAT ) 12st (1SAT ) 8t;牟定居群 2n =2x =2 4 =4m (4SAT ) 8st (1SAT ) 12t。研究表明各居群的核型都属于Stebbins的 3B型 ,不同居群间存在染色体类型和随体染色体的多型性 ,同时还发现了B染色体和 4倍体染色体数目变异 ,本文最后讨论了云南淡黄花百合种内居群间核型分化的原因。     

杨属派间核型比较研究

对杨属五派代表种的核型进行了分析,各代表种核型公式如下:欧洲山杨(白杨派)2n=2x=38=21m(2SAT)+4sm+13st(1SAT);小叶杨(青杨派)2n=2x=38=1M+26m(1SAT)+8sm(1SAT)+1st+2t(1SAT);大叶杨(大叶杨派)2n=2x=38=2M+22m+8sm+6st;胡杨(胡杨派)2n=2x=38=2M+23m+3sm+10st(2SAT);箭杆杨(黑杨派)2n=2x=38=3M+29m(2SAT)+5sm+1st。杨属派间核型差异主要表现在中部与次中部着丝点(M,m)和近端部与端部着丝点(st,t)染色体数目上。白杨派和胡杨派具较多的st、t染色体,核型不对称系数比其它派高。按Stebbins理论白杨派和胡杨派属进化类型。     

辽宁地区产6种乌头(Aconitum)的细胞分类学研究

对我国辽宁地区毛莨科(Ranunculaceae)乌头属(Aconitum) 6个种的染色体的数目和形态进行了研究,并进行了核型分析。其染色体基数为X=8,核型公式为:两色乌头:2n=2x=2m+10sm+4st;蛇岛乌头为:2n=4x=10m+20sm(SAT)+2st+2B;黄花乌头为:2n=4x=4m+12sm(SAT)+8st+1B;北乌头三倍体为:2n=3x=2M+4m+18sm;北乌头4倍体为2n=4x=4m+28sm。同时,对乌头属下某些种的分类学问题进行了探讨。     

宽叶韭居群间核型研究

对宽叶韭 1 0个居群的核型进行了研究 ,结果如下 :四川武隆居群 2 n=2 x=2 2 =1 6sm+6st;四川大飞水居群 2 n=2 x=2 2 =1 6sm +4st+2 t(2 SAT) ;四川南川居群 2 n=2 x=2 2 =2 m+1 4sm+4st+2 t;四川宝兴居群 2 n=2 x=2 2 =1 4sm+6st+2 t;四川青神居群 2 n=2 x=2 2 =2 m+6sm+1 0 st+4t;四川沐川居群 2 n=2 x=2 2 =2 m+1 4sm+2 st+4t;四川屏山居群 2 n=3 x=3 3 =3 m+2 1 sm+9st;云南西双版纳居群 2 n=2 x=2 2 =1 4sm+6st+2 t(2 SAT) ;广东乳源居群 2 n=3 x=3 3 =2 1 sm+6st+6t(3 SAT) ;广西龙胜居群 2 n=3 x=3 3 =2 1 sm+6st+6t(3 SAT)。研究表明 ,除四川屏山居群、广东乳源居群、广西龙胜居群是三倍体外 ,其余均为二倍体。它们都属于 Stebbins的 3 A型。此外 ,宽叶韭的不同居群间还存在随体染色体和核型组成的多态性。本文最后讨论了宽叶韭种内居群间核型分化的原因。     

百合属4种植物的核型研究

采用常规压片法对4种百合属植物野百合(L.brow n ii F.E.B row n ex M ie llez.)、兰州百合(L.d av id iiDuchartre var.un icolor(Hoog.)Co Hon.)、川百合(L.d av id ii Duchartre)、湖北百合(L.henry i B aker)进行了核型研究.结果表明,4种百合的染色体数目均为2n=24,核型除川百合为3A外,其余3种均为3B型.核型公式分别为:野百合2n(2x)=24=4m(2SAT) 2sm(2SAT) 4st 14t,兰州百合2n(2x)=24=2m(2SAT) 2sm 10st(2SAT) 8t 2T,川百合2n(2x)=24=2m(2SAT) 2sm 12st(3SAT) 8t,湖北百合2n(2x)=24=4m 18st 2t,其中湖北百合染色体核型为首次报道.通过比较发现,兰州百合与川百合的核型最为相似,亲缘关系相近;核型不对称性为兰州百合>川百合>野百合>湖北百合,以湖北百合的核型较为原始.     

四种野生百合核型分析

对南川百合(Lilium rosthornii Diels)、青岛百合(L.tsingtauense Gilg)、山丹(L.pumilum DC.)和岷江百合(L.regaleWilson)等4种野生百合进行了染色体数目观察和核型分析。结果表明,核型除山丹为3A外,其余3种材料核型均为3B。核型公式分别为:南川百合2n=2x=24=4m(4SAT)+2sm+6st+12t;青岛百合2n=2x=24=8m(4SAT)+2sm(2SAT)+14t;山丹2n=2x=24=2m(2SAT)+6sm(2SAT)+4st(4SAT)+12t;岷江百合2n=2x=24=2m(2SAT)+2sm+6st+14t。核型不对称系数分别是81.68%、76.09%、80.34%和82.26%。其中,南川百合和青岛百合为国内首次报道。     

百合科六属十五种植物的细胞学研究

本文对云南西北部百合科6属15种的染色体和核型进行了报道。 (1)Clintonia udensis Trautv．et Mey间期核属于浓密分散型,前期染色体属于渐变型,分裂中期体细胞染色体2n=14=8m+4sm+2st(2SAT),核型不对称性属于2A型;(2)鹿药属四个种间期核属于复杂中央微粒型,前期染色体属于中间型,分裂中期体细胞染色体分别为Smilacina henryi(Baker)Wang et Tang,2n=36=12m+16sm+6st+2t(2SAT), 核型不对称性属于2C型;Smilacina fusca Wall., 2n=36=14m(2SAT)+12sm+10st(2SAT), 核型不对称性属于2B型; Smilacina tatsienensis(Franch．)Wang et Tang, 2n=36=22m+2sm+2st(2SAT), 核型不对称性属于2C型;Smilacina atropurpurea(Franch．)Wang et Tang,2n=36=18m+6sm(2SAT)+12st,核型不对称性属于2C型;(3)黄精属四个种的间期核属于复杂中央微粒型,前期染色体属于中间型,分裂中期体细胞染色体分别为Polygonatum kingianum Coll．et Hesml．,2n=30=12m(2SAT) +6sm+lst+2t, 核型不对称性属于2C型; Polygonatum cirrhifolium(Wall．) Royal,2n=30=10m+4sm+12st+4t, 3C型; Polygonatum curvistylum Hua, 2n=78=24m(2SAT)+14sm(6SAT)+40st, 核型不对称性属于3C 型; Polygonatum cathcartii Baker,2n=32=12m+6sm+10st+2t+2bs,核型不对称性属于2C型;(4)百合属,假百合属,豹子花属三个属的间期核和前期染色体形态相似,都属于复杂中央微粒型,前期染色体属于中间型,分裂中期体 细胞染色体分别为Lilium henricii Franch,2n=24=2m(2SAT)+2sm+10st+10t,核型不对称性属于3A型;Lilium bakerianum Coll．et Hesml．var． rubrum Stearn, 2n=24=4m (2SAT)+10st+10t(2SAT),核型不对称性属于3A型;Nomocharis bilouensis Liang 2n=24=2m(2SAT)+2sm+12st+8t,核型不对称性属于3A型;Nomocharis pardanthina Franch．,2n=24=4m(2SAT)+12st (2SAT)+8t,核型不对称性属于3A型;Nomocharis sauluensis Balf, f.,2n=24=4m(2SAT)+10st(2SAT)+10t,核型不对称性属于3B型;Notholirion campanulatum Cotton et Stearn2n=24=2m(2SAT)+2sm+14st(2SAT)+6t,核型不对称性属于3A型。     

六种犁头属植物（天南星科）的核型研究

报道了6种8个居群犁头尖属（Typhonium Schott）植物的核型,其结果如下：（1）独角莲（T.gigan-teum）北京居群2n＝4x=52=44m 7sm 1st;（2）鞭檐犁头（T.flagelliforme）金平居群2n=3x=24=3m 9sm(4SAT) 12st,河内居群2n＝4x=32=7m 20st 4sm 1t;（3）单籽犁头（T.calcicolum)西畴居群2n=4x=52=21sm 23m(5SAT) 8st;（4）犁头尖（T.blumei）重庆居群2n=4x=52=40m(1SAT) 12sm(3SAT);(5)马蹄犁头（T.roxburgii）个旧居群2n＝2x=18=8sm 10m(2SAT)。其中鞭檐犁头尖2n=24、32,金慈菇2n＝28均为首次报道,同时分析讨论了本属植物染色体基数和倍性的多样性及其可能的原始基数。     

亚铁杂交百合红芯Fangio的染色体与其加倍方法研究

对亚铁杂交百合红芯Fangio,进行了染色体数目、花粉母细胞减数分裂行为和染色体核型研究,结果表明：红芯为三倍体,染色体数为2n=3x=36;花粉母细胞减数分裂异常;染色体组成为：R(2n)=3x= R(2n)=3x=12m(SAT)+3sm+3sm(SAT)+12st+3st(SAT)+3t,在第2、4、8、9、10、12染色体上有随体,其核型分类属于3B 型。用不同浓度秋水仙素对其试管苗和鳞片处理不同时间,均对诱导红芯百合染色体加倍有效,最高变异率达20%以上,部分变异苗为六倍体。     

Recent advances in the study of Kaposi's sarcoma-associated herpesvirus replication and pathogenesis

It has now been over twenty years since a novel herpesviral genome was identified in Kaposi's sarcoma biopsies. Since then, the cumulative research effort by molecular biologists, virologists, clinicians, and epidemiologists alike has led to the extensive characterization of this tumor virus, Kaposi's sarcoma-associated herpesvirus(KSHV; also known as human herpesvirus 8(HHV-8)), and its associated diseases. Here we review the current knowledge of KSHV biology and pathogenesis, with a particular emphasis on new and exciting advances in the field of epigenetics. We also discuss the development and practicality of various cell culture and animal model systems to study KSHV replication and pathogenesis.     

The structure, reproduction and taxonomy of Vidalia and Osmundaria (Rhodophyta, Rhodomelaceae)

Comprises species occurring mostly in subtidal habitats in tropical, subtropical and warm-temperate areas of the world. An analysis of the type species, V. spiralis (Sonder) Lamouroux ex J. Agardh, a species from Australia, establishes basic characters for distinguishing species in the genus. These characters are (1) branching patterns of thalli, (2) flat blades that may be spiralled on their axis, (3) width of the blade, (4) primary or secondary derivation of sterile and fertile branchlets and (5) position of sterile and fertile branchlets on the thalli. Application of the latter two characters provides an important basic method for separation of species into three major groups. Osmundaria , a genus known only in southern Australia, was studied in relation to Vidalia , and its separation from the Vidalia assemblage is not accepted. Species of Vidalia therefore are transferred to the older genus name, Osmundaria. Two new species, Osmundaria papenfussii and Osmundaria oliveae are described from Natal. Confusion in the usage of the epithet, Vidalia fimbriala Brown ex Turner has been clarified, and Vidalia gregaria Falkenberg, described as an epiphyte on Osmundaria pro/ifera Lamouroux, is revealed to be young branches of the host, Osmundaria prolifera.     

New or rare chromosome counts in Artemisia L. (Asteraceae, Anthemideae) and related genera from Kazakhstan

Fifteen chromosome counts of six Artemisia taxa and one species of each of the genera Brachanthemum, Hippolytia, Kaschgaria, Lepidolopsis and Turaniphytum are reported from Kazakhstan. Three of them are new reports, two are not consistent with previous counts and the remainder are confirmations of very scarce (one to four) earlier records. All the populations studied have the same basic chromosome number, x = 9, with ploidy levels ranging from 2x to 6x. Some correlations between ploidy level, morphological characters and distribution are noted.     

肝癌中HBV和HCV基因和抗原的分布及意义

采用原位分子杂交方法检测HCV RNA及HBV X基因;采用免疫组织化学方法研究HCV核心抗原,非结构区C33c抗原及HBxAg在肝细胞肝癌中的定位及分布.结果表明(1)HCV RNA、HBV X基因在肝细胞肝癌组织检出率分别为40%(55/136)和82%(112/136).HCV RNA定位于癌细胞的胞浆内,阳性细胞呈散在、灶状及弥漫分布三种形式;HBV X基因在肝癌细胞中的分布呈胞浆型、核型及核浆型,阳性细胞也呈上述三种分布形式;(2)HCV C33c抗原、核心抗原在肝细胞肝癌中的阳性率为81%(133/164)及86%(141/164).C33c抗原定位于癌细胞及肝细胞的胞浆内;核心抗原既定位于癌细胞核中,又可定位于胞浆中.C33c抗原阳性细胞以灶状分布为主;而核心抗原阳性细     

Selection with two alleles and complete dominance

For a plant selection model with frequency-independent viabilities, fertilities and selfing rates, it is shown that apart from global fixation, for certain parameter combinations a protected polymorphism and facultative fixation (either allele may become fixed according to initial frequencies) may both occur. Facultative fixation requires different selling rates for the dominant and recessive type. Protection of the polymorphism requires resource allocation for male and female function. In this connection the problem of purely genetically caused population extinction is discussed.
For general frequency dependence and regular segregation, the chances for establishment of a completely recessive gene are compared to those of a completely dominant gene. It is proven that the process of establishment of the recessive gene, despite a fitness advantage, may be considerably endangered by drift effects if random mating prevails. The recessive gene may reach the same effectivity in establishment as a dominant gene, only if the recessive homozygote mates exclusively with its own type during the period of establishment.