抗全蚀病小麦-华山新麦草中间材料H8911的细胞遗传学研究与利用

抗小麦全蚀病中间材料H8911(BC1F1)是通过小麦与华山新麦草杂种幼胚培养及杂种F1(ABDN2n=28)再与小麦回交后得到的。根尖细胞染色体数目49条,花粉母细胞减数分裂中期Ⅰ,染色体构型为20．85(19～21)Ⅱ 7．30(7～11)Ⅰ,21Ⅱ 7Ⅰ的细胞占86．67％。BC1F2和BC1F3体细胞染色体数目范围分别为45～53和44～52,49条染色体的植株类型分别占30．19％和27．50％,华山新麦草染色体丢失率分别为11．85％和13．14％;花粉母细胞减数分裂中期Ⅰ,染色体构型分别为20．62(18～22)Ⅱ 7．64(5～13)Ⅰ 0．04(0～1)Ⅲ和20．53(17～22)Ⅱ 7．79(5～15)Ⅰ 0．05(0～1)Ⅲ,21Ⅱ 7Ⅰ的细胞分别占77．24％和69．42％。随着自交世代的延续,21Ⅱ 7Ⅰ细胞的传递能力逐渐降低。利用H8911作供体,选育出小麦-华山新麦草抗全蚀病新种质13个,其中1个附加系表现近高度抗病性,6个附加系、3个代换系和3个易位系材料表现中度抗病性。     

普通小麦和新麦草属间杂种的产生及细胞遗传学研究

进行了普通小麦和华山新麦草属间杂交,运用杂种幼胚培养技术,首次成功地获得了它们的属间杂种。F_1形态趋于中间型,均完全不育。F_1花粉母细胞预期类型(2n=28)的减数分裂中期Ⅰ平均染色体配对构型为26.72Ⅰ+0.62Ⅱ+0.01Ⅲ,后期Ⅰ和后期Ⅱ有落后染色体,多分体具大量微核。结果表明普通小麦和华山新麦草的染色体组间不存在同源或部分同源性。还观察到花粉母细胞异常减数分裂现象。用普通小麦回交,未获得回交后代。     

普通小麦与华山新麦草的杂交

华山新麦草是分布在秦岭山脉华山段的1个特有种,经细胞学鉴定为二倍体种(2n=14)。利用普通小麦与之杂交并通过幼胚培养获得了杂种,杂交结实率为0.19%,幼胚培养出苗率为33.3%。杂种表现为双亲的中间型,杂种F_1体细胞染色体数为2n=28,花粉母细胞减数分裂中期Ⅰ每细胞平均0.99个二价体,26.01个单价体。杂种花粉粒败育,以小麦花粉与杂种回交时获得了种子,回交结实率为2.5%。回交一代体细胞染色体数为2n=49,花粉母细胞减数分裂中期Ⅰ染色体构型多数为2Ⅲ 7Ⅰ。     

普通小麦-华山新麦草异代换系的分子细胞遗传学研究

利用荧光原位杂交和染色体 C-分带技术对普通小麦 -华山新麦草的异代换系进行了研究 .荧光原位杂交结果显示 :异代换系 H92 1- 6 - 12和 H92 4 - 3- 4均含有 2条华山新麦草的染色体 .对这 2个材料和华山新麦草进行染色体 C-分带带型比较 ,结果认为 :H92 1- 6 - 12可能是普通小麦 -华山新麦草的 5 A / N5h 代换系 ,H92 4 - 3- 4可能是 3D/ N4 h代换系 .     

普通小麦-华山新麦草异代换系的分子细胞遗传学研究

利用荧光原位杂交和染色体C-分带技术对普通小麦-一华山新麦草的异代换系进行了研究。荧光原位杂交结果显示：异代换系H921—6—12和H924—3—4均含有2条华山新麦草的染色体。对这2个材料和华山新麦草进行染色体C-分带带型比较,结果认为：H921—6—12可能是普通小麦-华山新麦草的5A／N5^b代换系,H924—3—4可能是3D／N4^b代换系。     

披碱草与新麦草属间杂种的细胞遗传学研究

将澳大利亚披碱草(Elymus scabervar.scaber,2n=6x=42,StYW)和华山新麦草(Psathyrostachys huas-hanica,2n=2x=14,Ns)进行属间杂交,成功获得杂种F1。分析亲本及其杂种F1的形态特征、繁育特性及花粉母细胞减数分裂染色体配对行为发现:杂种F1形态特征介于父母本之间,分蘖数等农艺性状超过双亲;花粉完全不育,结实率为0。亲本减数分裂染色体配对正常,但杂种F1花粉母细胞在减数分裂中期I染色体几乎没有配对,其构型为:27.31Ⅰ 0.01Ⅱ(环) 0.32Ⅱ(棒) 0.01Ⅲ,C值仅为0.01。以上结果表明:澳大利亚披碱草的StYW染色体组与华山新麦草的Ns染色体组间无同源性,它们之间的亲缘关系甚远。     

一个小麦-中间偃麦草异代换系的形态学和细胞学鉴定

中间偃麦草含有丰富的优良基因,在小麦的遗传改良中具有重要利用价值。对从中间偃麦草与小麦品种烟农15杂种后代(BC2F4)中选育的小麦种质系山农0095进行形态学和细胞学鉴定,结果表明：山农0095株高78cm,穗长17．3cm,旗叶长36．3cm,旗叶宽3．03cm,茎杆粗壮,繁茂性好,既长又宽的旗叶、长圆锥型穗是其显著的形态学特征;其根尖细胞染色体数日为2n=42,花粉母细胞减数分裂中期Ⅰ(PMC M Ⅰ)染色体构型为2n=21Ⅱ;它与普通小麦的杂种FⅠPMC M Ⅰ绝大多数细胞出现2个单价体,没有观察到多价体,平均染色体构型为2n=20．08Ⅱ 1．84Ⅰ。以上结果表明,山农0095是一个小麦-中间偃麦草的双体异代换系。     

大穗多花种质B46的选育及细胞遗传学鉴定

利用普通小麦(Triticum aestivum L.)7182与华山新麦草(Psathyrostachys huashanica)杂交、回交和自交,经多代选育出能够稳定遗传的大穗多花种质B46.对B46进行形态学观察及其细胞学检测与GISH鉴定.结果表明,B46形态学特征表现大穗多花特性,穗长12 cm左右,小穗达23个,小穗粒数平均6个;其根尖细胞染色体计数为2n=44;根尖原位杂交(GISH)及减数分裂中期Ⅰ染色体的基因组原位杂交(GISH)显示,B46附加1对来自于华山新麦草的同源染色体.由此可以确定B46为小麦-华山新麦草的二体异附加系,其综合农艺性状优于小麦亲本7182,可作为培育高产小麦品种的优良种质材料.     

华山新麦草和鹅观草属两个种间物种生物学研究

通过华山新麦草（２ｎ＝１４,ＮＮ）和鹅观草属的两个种（纤毛鹅观草（２ｎ＝２８ ＳＹ）和鹅观草（２ｎ＝４２ ＳＨＹ）属间杂交,两个组合均得到生长健壮的植株。杂种Ｆ１形态上均为双亲的中间型。纤毛鹅观草Ｘ华山新麦草和鹅观草Ｘ华山新麦草杂种Ｆ１染色体配对构型分别为：２０．７３Ｉ＋０．３１８Ⅱ,２４．８０１Ⅰ＋１．５７Ⅱ＋０．０１２Ⅲ。后期Ⅰ均出现多极分离。两个组合均发现减数分裂过程异常现象。两个组合染色体     

小麦—中间偃麦草抗条锈衍生系的分子细胞遗传学研究

应用缺体回交法,以部分阿勃缺体为母本,中4为父本,培育出1个对目前条锈病优势小种和新小种高抗至免疫的小麦－－中间偃麦草衍生系N9025－3－3－2－1－1。研究表明,该选系在形态学和细胞学上已经基本稳定,染色体构型为2n=42=21“,抗病性来自中间偃麦草（Thinopyron intermedium）。以中间偃麦草DNA为探针,对N9025－3－3－2－1－1进行基因组原位杂交分析结果证明,它为小麦－中间偃麦草异代换－易位系。     

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.