大鹅观草与蛇河披碱草属间杂种的细胞遗传学研究

为探讨大鹅观草(Roegneria grandis,2n=4x=28)的染色体组组成,为其正确的分类处理提供细胞学依据。该研究通过人工远缘杂交,成功获得3株大鹅观草与蛇河披碱草(Elymus wawawaiensis,2n=4x=28)属间杂种F1植株。杂种植株形态介于两亲本之间,不育。亲本及杂种经I2-IK溶液染色后进行花粉育性检测,结果显示Roegneria grandis和Elymus wawawaiensis的花粉可育,育性高达94.6%和90.5%;杂种F1不育。花粉母细胞减数分裂中期I染色体配对结果显示,亲本花粉母细胞配对正常,均形成14个二价体,以环状二价体为主,Roegneria grandis有频率很低(0.04/细胞)的单价体出现;杂种F1平均每个花粉母细胞形成6.46个二价体,变化范围为5~8;在观察的83个花粉母细胞中,有35.2%的花粉母细胞形成了7个二价体,形成6个二价体的细胞占42.59%,较少细胞形成8个二价体;平均每个细胞形成14.66个单价体,变化范围为10~18;平均每细胞观察到0.14个三价体;杂种花粉母细胞染色体构型为14.66 I+6.46 II+0.14 III;平均每细胞交叉数为9.83,C值为0.35。结果表明:(1)R.grandis与Elymus wawawaiensis有一组染色体组同源的St染色体组,另外一组染色体组不是St或者H染色体组,Roegneria grandis的染色体组组成不是St Stg;(2)较低频率的三价体(平均0.14个/细胞),可能是由于R.grandis的St和Y染色体组间具有一定的同源性,也可能是染色体易位等原因导致,对于Y染色体组的起源还需深入地研究;(3)在不同地理来源的披碱草属和鹅观草属物种中St染色体组同源性不同,R.grandis与来自于北美的Elymus lanceolatus与E.wawawaiensis的St染色体组较与分布于亚洲的E.sibiricus和E.caninus的St染色体组同源性反而更高,其原因还需要进一步地研究。     

纤毛鹅观草同阿拉善鹅观草、大丛鹅观草间杂种细胞学研究

为了探索阿拉善鹅观草RoegneriaalashanicaKeng、大丛鹅观草RoegneriamagnicaespesD .F .Cui与纤毛鹅观草Roegneriaciliaris (Trin .)Nevski间的相互关系 ,将其进行了远缘杂交 ,通过幼胚离体培养 ,两个组合均成功合成了杂种。对亲本及杂种F1 花粉母细胞减数分裂中期Ⅰ染色体配对行为及形态学进行了统计分析。结果表明 ,上述物种的种间杂交较难进行 ,杂种F1 减数分裂染色体平均构型分别为 :R ciliaris×R alashanica 10 6 2Ⅰ 8 17Ⅱ 0 32Ⅲ 0 0 2Ⅳ (c -值 =0 4 4 ) ,R ciliaris×R magnicaespes 18 0 0Ⅰ 4 76Ⅱ 0 16Ⅲ (c -值 =0 2 1) ;杂种穗部特征多数介于双亲之间。阿拉善鹅观草、大丛鹅观草与纤毛鹅观草间至少有一个基因组具有较高的同源性 ,即为S基因组 ,本文对它们在分类中的地位也进行了讨论。     

鹅观草和簇毛麦属间杂种的形态学和细胞遗传学研究

通过幼胚离体拯救培养,成功地获得鹅观草Roegneria kamoji Ohwi(2n=6x=42,StStHHYY)和簇毛麦Dasypyrum villosum(L．)Candargy(2n=2x=14,VV)属间杂种,对这两个种及其杂种F_l的形态学、繁育学和减数分裂配对行为进行了研究。结果表明：(1)鹅观草和簇毛麦形态差异极大,杂种F1的形态特征介于父母本之间;(2)杂交结实率低,为11．63％;经幼胚组织培养,获2株杂种苗;杂种F_l高度不育,表明亲本间存在极强的生殖隔离,是独立的生物学种;(3)杂种F_l体细胞染色体数目为稳定的28条,减数分裂中期I染色体配对很低,其构型为：26．72Ⅰ+0．62Ⅱ+0．02Ⅲ。表明鹅观草的St、H、Y染色体组与簇毛麦的V染色体组部分同源性很低,它们的亲缘关系较远。     

鹅观草与大鹅观草杂种的细胞遗传学及形态学研究

大鹅观草（ Ｒｏｅｇｎｅｒｉａ ｇｒａｎｄｉｓ Ｋｅｎｇ） 是分布于我国陕西的一种多年生四倍体植物。为了探索大鹅观草与鹅观草（ Ｒｏｅｇｎｅｒｉａ ｋａｍｏｊｉ Ｏｈｗｉ） 间的物种生物学关系, 通过对其进行远缘杂交,幼胚离体培养, 合成了远缘杂种; 并对亲本及杂种Ｆ１ 代花粉母细胞减数分裂中期Ⅰ染色体配对行为及形态学进行了研究。结果表明杂种Ｆ１ 减数分裂染色体配对平均构型为： Ｒ－ ｋａｍｏｊｉ ×Ｒ－ｇｒａｎｄｉｓ１０－２６ Ⅰ＋ １２－３７ Ⅱ（ｃ－ 值＝ ０－７４） , 大鹅观草与鹅观草所含的ＳＹ 染色体组间存在较大的同源性分化; 杂种穗部特征大多数介于双亲之间。     

大麦与纤毛鹅观草属间杂种F5和BC1F4的同工酶研究

对栽培大麦（ＨｏｒｄｅｕｍｖｕｌｇａｒｅＬ．品种“Ａｒｕｐｏ”）与纤毛鹅观草（Ｒｏｅｇｎｅｒｉａｃｉｌｉａｒｉｓ（Ｔｒｉｎ．）Ｎｅｖｓｋｉ）属间杂种后代Ｆ５和回交后代ＢＣ１Ｆ４（以“Ａｒｕｐｏ”作回交亲本）的不同类型株系与其双亲的幼根、幼芽、幼穗、幼嫩籽粒分别进行了酯酶、过氧化物酶同工酶分析。结果Ｆ５和ＢＣ１Ｆ４各株系的酯酶同工酶、过氧化物酶同工酶酶谱具有母本“Ａｒｕｐｏ”全部或绝大多数酶带,父本Ｒ．ｃｉｌｉａｒｉｓ的１～３条酶带和数量不等的双亲所没有的新酶带,也出现酶带的减少。结果表明,纤毛鹅观草的遗传物质已稳定地遗传给了其自交和回交后代。酶谱变异与植株习性出现一定程度的关联。由于在不同时期内结构基因的表达起不同作用,因此,在用同工酶分析法鉴定易位系时,最好不同的器官采用不同的酶类或一种同工酶多时期连续分析。     

大麦与小麦属间杂种的形态学和细胞遗传学研究

通过幼胚培养技术分别获得了大麦(Hordeum vulgare L., 2n=2x=14)与普通小麦(Triticum aestivum L., 2n=6x=42)、硬粒小麦(T. durum d. sf., 2n=4x=28)以及栽培二粒小麦(T. dicoccum Schrank 2n=4x=28)之间的属间杂种,平均杂交结实率分别为3.0％、1.2％和0.8％。杂种在形态上偏向小麦,自交不孕,用父本作回交亲本获得了大麦×普通小麦杂种的回交一代。所有杂种均表现细胞学上的不稳定性。杂种减数分裂中期1 PMC染色体平均配对频率和交叉结频率分别为27.31Ⅰ 0.33Ⅱ 0.011Ⅲ,0.45;20.571 0.20Ⅱ 0.008Ⅲ,0.25和20.41Ⅰ 0.28Ⅱ 0.005Ⅲ,0.32,表明双亲染色体组间不存在同源关系。大麦×四倍体小麦杂种小孢子的染色体计数表明,杂种中未减数雄配子的频率在60％以上。     

鹅观草x黑麦杂种F，的形态及细胞遗传学研究

以鹅观草作母本,黑麦作父本进行杂交,采用杂种幼胚培养技术,首次成功地获得了F,杂种。杂种穗形呈双亲的中间类型,完全雄性不育。花粉母细胞减数分裂中期I平均染色体配对构型为：27.011+0.4711＋0.01111,后期I形成大量的落后染色体以及发生不均等的两极分裂和多极分裂,进而形成多分体。花粉粒发育过程中出现不同数目的微核。     

普通小麦与东方旱麦草属间杂种的形态和细胞遗传学研究

本文对普通小麦（ＴｒｉｔｉｃｕｍａｅｓｔｉｖｕｍＬ．ｅｖ．Ｆｕｋｕｈｏ,２ｎ＝６ｘ＝４２,ＡＡＢＢＤＤ）与东方旱麦草（Ｅｒｅｍｏｐｙｒｕｍｏｒｉｅｎｔａｌｅ（Ｌ．）Ｊａｕｂ．ｅｔＳｐａｃｈ,２ｎ＝４ｘ＝２８,Ｂ′Ｂ′Ｃ′Ｃ′）属间杂种Ｆ_１进行了形态和细胞遗传学方面的探讨。首先,在形态方面的研究表明：（１）杂种Ｆ_１植株生长旺盛,分蘖力强;（２）绝大部分性状如株高、穗长、芒长等介于双亲之间而呈中间型,少数性状如颖脊、颖壳茸毛可作为鉴别杂种的形态标记;（３）花粉粒空秕、无可染性,花粉高度不育,自交完全不结实。其次,从杂种Ｆ_１的细胞遗传学研究表明：（１）染色体平均构型为：２６．０９Ⅰ＋４．３６Ⅱ＋０．０９Ⅲ,二价体数目从０－７个均有分布,但大多数为棒状二价体;（２）每细胞平均交叉数为４．７８;（３）染色体臂平均配对频率（Ｃ值）为０．１７。由上可知,在普通小麦ＡＢＤ基因组与东方旱麦草Ｂ′Ｃ′基因组之间存在微弱的部分同源关系,或在东方旱麦草基因组中可能存在一种抑制普通小麦Ｐｈ基因作用的抑制因子（ｓｕｐｐｒｅｓｓｏｒ）。     

鹅观草属三个种的形态变异与核型的研究

本文通过对鹅观草属的三个种:鹅观草(Roegneria kamoji Ohwi)、纤毛鹅观草(R. ciliars (Trin.) Nevski)和竖立鹅观草(R. japonensis(Honda)Keng)的形态学比较和核型分析研究了该三个种的系统关系。R. kamoji与R. ciliaris、R. japonensis形态上的差异明显,而后二个种差异甚小,难以进行划分。R. kamoji的核型公式为:2n=6x=42=30m+8sm+4SAT;R. ciliaris为:2n=4x=28=18m+6sm+4SAT;R. japonensis为:2n=4x=28=18m+6sm+4SAT。t-测验的结果表明R. ciliaris与R. japonensis的核型无显著差异。因此笔者认为R. ciliaris和R. japonensis应合并为一种系内的分类群。     

Intergeneric somatic hybridization of rice (Oryza sativa L.) and barley (Hordeum vulgare L.) by protoplast fusion

An intergeneric somatic hybrid was obtained upon fusion of protoplasts of rice and barley. Protoplasts isolated from suspension cultures of rice cells were fused by electrofusion with protoplasts that had been isolated from young barley leaves. Some of the resultant calli formed green spots and shoots. Only one shoot formed roots, and it was subsequently successfully transferred to soil in a greenhouse. Its morphology closely resembled that of the parental rice plant. Cytological analysis indicated that the plant had both small chromosomes from rice and large chromosomes from barley. Southern hybridization analysis with a fragment of the tryptophan B (trpB) gene revealed both a rice-specific band and a barley-specific band. Mitochondrial (mt) and chloroplast (cp) DNAs were also analyzed using the same method. The plant was shown to contain novel mitochondrial and chloroplast sequence rearrangements that were not detected in either of the parents. Received: 5 March 1997 / Revision received: 4 September 1997 / Accepted: 13 September 1997     

Intergeneric hybrids between Triticum crassum and Hordeum vulgare

Summary Intergeneric hybrids between Triticum crassum (2n=6x=42) and Hordeum vulgare cv. Bomi were obtained at a frequency of 15% of pollinated florets. Meiotic chromosome pairing in the hybrids was not different from that observed in a polyhaploid of T. crassum indicating negligible pairing between chromosomes of the two species and secondly that the genome of H. vulgare had no effect on intergenomic pairing in T. crassum.Contribution No. 646 Ottawa Research Station     

铜对鹅观草两个种群生理、发育指标的影响研究

铜尾矿上的鹅观草形态矮小,茎秆柔弱,叶色淡.而生于正常土壤上的鹅观草则茎秆粗状,叶色深.Cu胁迫可引起鹅观草叶绿素含量的降低.一定浓度范围内的Cu对鹅观草的种子萌发起促进作用,尾矿浸提液不降低种子的萌发率,但延迟种子的萌发.根生长实验表明,0.125mg     

Histological analysis of somatic embryogenesis in Brazilian cultivars of barley, Hordeum vulgare vulgare, Poaceae

 Histological analysis was performed aimed at elucidating the origin and the developmental process of somatic embryos of two Brazilian cultivars of barley (Hordeum vulgare vulgare), 'MN-599' and 'A-05'. The observed site of somatic embryo origin (SSEO) could originate from a superficial callus cell, possibly indicating a unicellular origin, or from epidermal and subepidermal callus cells, representing a multicellular origin. A fold, the somatic embryo scutellum that subsequently develops into a cotyledonary leaf, indicates the somatic embryo differentiation. The somatic embryos also showed a growth increase of the primary root and, occasionally, a delay in root development. A possible alternative pathway for the origin of somatic embryos is suggested, in which a SSEO forms a clump of somatic embryos. Received: 4 June 1998 / Revision received: 28 August 1998 / Accepted: 7 December 1998     

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。     

西藏青稞4个B组醇溶蛋白基因的克隆和特征

从两份西藏青稞材料中分离克隆出4个B组醇溶蛋白基因（BH1—BH4）,DNA测序结果表明：它们均包含完整的开放阅读框。推断的氨基酸序列与先前报道的大麦B组醇溶蛋白具有相同的蛋白质基本结构。系统分析表明：它们推断的氨基酸序列与栽培大麦中的B组醇溶蛋白具有较高的相关性,与野生大麦和山羊草属的醇溶谷蛋白相似性较低。并且,在4个基因BH1—BH4中,BH1与先前报道的B组醇溶蛋白基因有较低的序列相似性,因此我们对BH1基因进行了原核表达,含该基因的表达载体在大肠杆菌中表达出相对分子质量为28．15kDa并以包涵体形式存在的蛋白,进一步对其在青稞谷粒品质改良中的潜在价值进行了探讨。     

Biotransformation of podophyllotoxin by Hordeum vulgare cell suspension cultures

Hordeum vulgare cell suspension cultures were used to modify podophyllotoxin (1) One major product (1a) and one minor product (1b) were detected in both the culture medium and cells. To optimize the yield of compound 1a, we showed that: (1) the optimal concentration of added podophyllotoxin (1) was 33 mg L^-1; higher concentrations caused cell toxicity; (2) the stage of the cell cycle (lag/log/stationary) at which podophyllotoxin was added only marginally affected the yield of compound 1a; the optimal addition time was after lag phase, in which the yield of compound 1a reached ca. 76%, and (3) biotransformation of podophyllotoxin (1) was relatively slow; podophyllotoxin fed at 4 days after subculture resulted in yields of compound 1a of ca. 56, 64 and 76% after an additional 3, 6 and 10 days of incubation, respectively. Product 1a was purified and identified as isopicropodophyllone (1a) based on MS and NMR data.