广东7 种蝙蝠的核型研究

对采集于广东的4 科7 种蝙蝠进行了核型分析,它们的核型分别是:犬蝠(Cynopterus sphinx)2n =34,FN= 58;印度假吸血蝠(Megaderma lyra)2n = 54,FN = 104;大耳双色蹄蝠(Hipposideros pomona)2n = 32,FN =60;中蹄蝠(H. larvatus)2n = 32,FN = 60;大卫鼠耳蝠(Myotis davidii)2n = 46,FN = 52;大黄蝠(Scotophilus heathi)2n = 36,FN = 54;南长翼蝠(Miniopterus australis)2n =46,FN = 50。其中大耳双色蹄蝠和大卫鼠耳蝠的核型为首次报道,犬蝠、印度假吸血蝠、中蹄蝠、大黄蝠和南长翼蝠的核型为中国第一次报道。     

青海青甘韭9个居群的核型

本文研究了青海葱属青甘韭 9个居群的染色体数目和核型。其中分布于湟源、西宁和共和海拔相对较低的地区的居群为 2倍体 ,核型公式为 2n =2x =16 =14m 2st (2SAT) (湟源居群和西宁居群 ) ,2n =2x =16 =12m 2sm 2st (2SAT) (共和居群 ) ;分布于玛沁、玉树、囊谦等高海拔地区的居群为 4倍体 ,核型公式为 2n =4x =32 =2 8m 4st (2SAT) (玉树居群 1和囊谦居群 1) ,2n =4x =32 =2 4m 4sm 4st (玛沁居群和玉树居群 3)和 2n =4x =32 =2 6m 2sm 4st (玉树居群 2 ) ;囊谦一个生长在林下的居群为 8倍体 ,2n =8x =6 4 =54m 2sm 8st。讨论了居群间的核型分化和倍性与分布的关系。     

马蔺IlWRKY28基因的克隆与表达分析

马蔺(Iris lactea var. chinensis)是鸢尾属多年生草本盐生植物,具有很高的耐盐性和观赏价值。为研究马蔺耐盐的分子机制,通过cDNA末端快速扩增技术(RACE)从马蔺中克隆到一个WRKY转录因子基因IlWRKY28,获得了1 302 bp的全长cDNA序列,其包含一个108 bp 5′末端非翻译区(UTR),一个174 bp 3′末端UTR和一个1 020 bp开放阅读框。IlWRKY28编码339个氨基酸,预测的蛋白质分子量为37.22 kD,等电点为7.04。氨基酸序列分析显示,IlWRKY28包含一个保守的WRKY基序和一个C2H2型锌指结构域。系统发育分析表明,马蔺IlWRKY28与菠萝(Ananas comosus)AcWRKY28和藏北嵩草(Kobresia littledalei)ClWRKY28亲缘关系最近。荧光定量PCR分析显示,盐处理后,IlWRKY28基因在马蔺地上部显著上调表达。该研究结果为进一步研究IlWRKY28在马蔺适应高盐胁迫中的功能和作用机制奠定了重要的分子基础。     

镉胁迫对马蔺根系形态及部分生理指标的影响

以野生马蔺种子培育的实生苗为试验材料,采用水培法研究不同质量浓度镉(0、10、25、50、100、150 mg·L^-1)对马蔺幼苗生长、根系形态及部分生理指标的影响,分析镉胁迫下马蔺根系形态和生理指标的变化特征,以探讨马蔺的耐镉能力及耐镉机制。结果表明：(1)与对照相比,低浓度镉(10~25 mg·L^-1)促进了马蔺株高、地上部干重、根干重、总根长、根表面积、根体积和根系活力的增加,中高浓度镉(50~150 mg·L^-1)抑制根系生长,其株高、根干重、总根长等低于对照,根表面积、根体积和根系活力显著低于对照。(2)随镉浓度增加,马蔺叶片和根系中相对电导率、丙二醛(MDA)含量、过氧化物酶(POD)活性、过氧化氢酶(CAT)活性和脯氨酸(Pro)含量增加,但可溶性蛋白含量(SP)则先升高后降低;根系的超氧化物歧化酶(SOD)活性随镉浓度增加先升高后降低,而叶片SOD活性则持续增加。(3)马蔺地上部和地下部镉含量随镉离子浓度升高而增加,根系和地上部镉含量分别达到829.39~8 944.54 和200.60~519.76 mg·kg^-1,转移系数为0.06~0.32(<1.0),大多数镉离子被保留在根中,只有少量被转移到地上部。研究发现,在镉胁迫条件下,马蔺幼苗可能是通过根系对镉离子的积累,减少镉离子从根部到地上部的转移,并通过提高抗氧化酶活性、保持渗透平衡和清除过量自由基,从而提高其对镉的耐受性。     

小麦族几种近缘植物细胞在长期离体培养中的染色体变异

对小麦及其4种近缘属间禾草进行了长时间 (0.5～5.7年, 个别8.6年) 的愈伤组织培养,在继代过程中染色体数目的变异在染色体倍性低的簇毛麦(Haynaldia villosa, 2n=2x=14)及新麦草(Psathyrostachys juncea, 2n=2x=14) 倾向于数目的增大;染色体倍性高的小麦 (Triticum aestivum, 2n=6x=42) 趋向于数目的减少;而倍性居中的羊草 (Leymus chinensis, 2n=4x=28) 既有增大也有减小;染色体倍性最高的高冰草 (Agropyron elongatum, 2n=6x=70) 最为稳定,但也有减少的趋向。愈伤组织的胚性主要与二倍体及亚二倍体的总水平相关。     

马蔺对不同浓度NaHCO3胁迫的生理响应

为探讨不同浓度NaHCO₃胁迫下,马蔺叶片的膜透性、可溶性蛋白及膜脂过氧化物含量的变化规律,以1年生马蔺实生苗为研究对象,通过对细胞膜透性、膜质过氧化产物MDA、SOD、POD和可溶性蛋白等指标进行测定,研究在盆栽控盐条件下,马蔺对NaHCO₃胁迫的适应与响应。结果表明：随着NaHCO₃浓度和胁迫时间的增加,对马蔺叶片可溶性蛋白含量的影响总体是先下降后上升的趋势,在30 d时,0.4%和0.6%盐浓度胁迫下的马蔺的可溶性蛋白含量上升较大,分别比对照高：21.7%,38.6%;在NaHCO₃盐胁迫的10~20 d,马蔺叶片的的膜透性略有降低;在20~30 d时,膜透性迅速上升;NaHCO₃胁迫20 d时,除对照外其他盐浓度胁迫下的马蔺叶片的POD活性都达到了最大值,分别比对照高95%,103%,496%;相同盐浓度胁迫下,随着时间的延长,SOD活性变化趋势是先下降后上升;MDA作为膜脂过氧化作用的主要产物之一,随着盐浓度的增加和盐胁迫时间的延长,在30d时0.6%浓度的马蔺叶片中MDA含量大量积累。综上所述,马蔺有抗盐（NaHCO₃）胁迫的能力,是重要的盐碱地生植物,本研究为马蔺的抗盐碱性研究又提供了一有力证据,同时为今后将马蔺应用于治理盐碱土地增加了理论基础。     

中国4种蝙蝠的G-带和C-带

首次报道了中国4种蝙蝠的G-带和C-带核型。大长舌果蝠(Eonycteris spelaea)二倍染色体数目(2n)为36,常染色体臂数(FN)为56;马来假吸血蝠(Megaderma spasma)2n=38,FN=70;黑髯墓蝠(Taphozous melanopogon)2n=42,FN=64;皱唇蝠(Chaerephon plicata)2n=48,FN=54。通过C-带显示,除着丝粒异染色质外,在皱唇蝠的许多染色体臂内和马来假吸血蝠染色体的端粒处也有较多的插入异染色质,大长舌果蝠的基因组中既有臂内异染色质也有端粒异染色质。     

锦鸡儿属植物一些种类的染色体数目及核型研究

报道了国产10种锦鸡儿的染色体数目,并对其中9种的核型进行了研究。这9个种的核型公式分别为：荒漠锦鸡儿（Caragana roborovskyi）,2n＝16＝10m(2SAT)+6sm;川西锦鸡儿（C. erinacea）,2n=16=10m+6sm;密叶锦鸡儿（C. densa）,2n=16=10m（2SAT）+6sm;刺叶锦鸡儿（C. acanthophylla）,2n=16=12m+4sm;柄荚锦鸡儿（C. stipitata）,2n=16=10m+6sm;甘蒙锦鸡儿（C. opulens）,2n=16=12m(2SAT)+4sm;白皮锦鸡儿（C. leucophloea）,2n=32=22m(4SAT)＋10sm;北疆锦鸡儿（C. camilli-schneideri）,2n=32=20m(4SAT)+12sm;中亚锦鸡儿（C. tragacanthoides）,2n=32=20m(2SAT)+10sm+2st+2B。白毛锦鸡儿（C.licentiana）2个居群的染色体数目均为2n=32,为四倍体。研究结果表明,锦鸡儿属的核型一般比较对称,核型上的特化往往与其形态上的特化相关联,但也有例外。从倍性水平上来看,二倍体类群多是一些羽状叶的种,在分布上倾向于亚洲东部其祖先分布区,而四倍体的种类多是一些假掌状叶的类群,分布于西部干旱生境中,在形态上也表现的较为特化。这也符合锦鸡儿属的演化趋势。     

锦鸡儿属植物4个种的核型分析

对4种锦鸡儿属(CaraganaFabr.)植物的核型进行了分析,得出4种染色体核型:秦晋锦鸡儿(C.purdom iiRehd.)染色体数为2n=16,其核型公式为2n=16=16 m(4 SAT);小叶锦鸡儿(C.m icrophyllaLam.)染色体数为2n=16,其核型公式为2n=16=14 m(2 SAT) 2 M;中间锦鸡儿(C.interm ediaKuang et H.C.Fu)染色体数为2n=18,其核型公式为2n=18=16 m(4 SAT) 2 M;树锦鸡儿(C.arborescensLam.)染色体数为2n=20,其核型公式为2n=20=20 m(4 SAT)。由此可推测:中间锦鸡儿可能为小叶锦鸡儿和树锦鸡儿或秦晋锦鸡儿和树锦鸡儿的中间类型或杂交种,也可能是具有递增染色体基数的不同种。     

风毛菊属6种植物的核型分析

采用常规压片技术对分布于横断山区菊科(Compositae)风毛菊属(Saussurea DC.)的6种植物进行染色体数目和核型分析。结果表明:尖苞雪莲（S.polycolea var.acutisquama）核型公式为:2n=2x=32=20m+12sm,属2B型;球花雪莲核（S.globosa）型公式为:2n=2x=34=16m+18sm,属2B型;重齿风毛菊(S.katochaete)核型公式为:2n=2x=32=8m+18sm+6st,属3B型;柱茎风毛菊(S.columnaris)核型公式为:2n=2x=32=24m+8sm,属2B型;禾叶风毛菊(S.graminea)核型公式为:2n=2x=28=8m+18sm+2st,属3B型;长毛风毛菊(S.hieracioides)核型公式为:2n=2x=32=12m+16sm+4st,属2B型。6个种染色体中均未发现随体。其中尖苞雪莲和柱茎风毛菊染色体为首次报道。     

Report on Karyotypes of 10 Species of Liliaceae (s. l.) From Qinling Range

The karyotypes of 10 species of the Liliaceae from the Qinling Range are reported as follows. I. Polygonatum Mill. (1) P. odoratum ( Mill. ) Druce was found to have the karyotype 2n=20=12m+8sm ( Plate 3, Fig. I), which belongs to Stebbins’ (1971) karyotype classification 2B. The chromosomes range from 3.88 to 11.26μm in size. Table 2 shows the karyotypes and number fundamentals (N.F.) of 13 materials from 12 different localities. The N. F. of these materials can be classified into two groups: N.F. =36 and N.F.=40, besides one (N.F. =38) from Beijing. N. F. =36 covers all the materials with 2n= 18 which have relatively symmetrical karyotypes ( all consisting of m and sm chromosomes), one with 2n=20 (10m+6sm+4st) and one with 2n=22 (14m+8st). N.F. =40 include four materials with 2n= 20 (all of m and sm chromosomes ) and 3 with 2n= 22 (10m+ 8sm+ 4st). ￥ It is considered that there are two original karyotypes, 2n= 18 with N. F. = 36 and 2n= 20 with N.F. =40, which are relatively symmetrical. All the more asymmetrical karyotypes with some st chromosomes have probably evolved from the symmetrical karyotypes without st chromosomes by centric fission. (2) P. zanlanscianense Pamp. has the karyotype 2n=30=18m(2SAT) + 4sm+ 6st+ 2t (Plate 1, Fig. 1) which belongs to 2C. The chromosomes range from 2.16 to 9.76μm. ￥ II. Asparagus filicinus Buch.-Ham. ex D.Don. The karyotype of this species is 2n = 16= 8m(2SAT )+ 6sm + 2st (Plate 1, Fig. 1 and Table 3 ) , which belongs to 2B. The chromosomes range from 2.33 to 5.30μm. Most species in Asparagus, including A.Filicinus, are reported to have basic number x= 10, and therefore 2n= 16 is a new chromosome number for A.filicinus. EL-Saded et.al.(1972) gave a report of n=8 for A. stipularis from Egypt, while Delay (1947) reported 2n = 24 for A. trichophyllus and A. verticillatus, Sinla(1972 ) gave a report of 2n=48 for A.racemosus. It is certain that there are two basic numbers in the genus Asparagus. III. Cardiocrinum giganteum (Wall.) Makino was found to have the karyotype 2n=24=4m+8st+12t (Plate 1, Fig. 1 ), which belongs to 3B. The chromosomes range from 8.71 to 20.24μm. IV. Smilax discotis Warb. was shown to have the karyotype 2n=32=4m+22sm+4st (2SAT)+2t (Plate 1, Fig. 1 and Table 3), which belongs to 3C. The first pair is much longer than others. The chromosomes range from 1.79 to 9.21μm. The chromosome number and karyotype of S. discotis are both reported for the first time. V. Reineckia carnea (Andr.) Kunth is of the karyotype 2n=38=28m+10sm (Plate 2, Fig. 1 ), which belongs to 2B. The chromosomes range from 5.65 to 12.75μm. VI. Tupistra chinensis Baker was found to have the karyotype 2n=38=25m+ 13sm (Plate 2, Fig. 1), which belongs to 2B. The chromosomes range from 8.11 to 23.82μm. A pair of heterozygous chromosomes is arranged at the end of the idiogram. The eighth pair possesses an intercalary satellite. Huang et al. (1989) reported the karyotype of T. chinensis from Yunnan as 2n = 38 = 24m+ 14sm without any intercalary satellite. Nagamatsu and Noda (1970) gave a report on the karyotype of T. nutans from Bhutan, which consists of 18 pairs of median to submedian chromosomes and one pair of subterminal chromosomes. And one pair of submedian chromosomes possess intercalary satellites on their short arms. VII. Rohdea japonica (Thunb) Roth. was found to have the karyotype 2n=38=30m+6sm+2st ( Plate 2, Fig. 1), which belongs to 2B. The chromosomes range from 7.94 to 18.29μm. Nagamatsu and Noda (1970) reported that the karyotype of R.japonica from Japan was the same as that of Tupistra nutans from Bhutan. But we have not discov ered any chromosome with an intercalary satellite. VIII. Hosta Tratt. (1) H. plantaginea (Lam.) Aschers was shown to have 2n=60. The 60 chromosomes are in 30 pairs,which can be classified into 4 pairs of large chromosomes (7.32- 8.72μm ), 3 pairs of medium-sized ones (4.72-5.60μm), and 23 pairs of small ones (1.40-3.64μm), (Plate 3 ,Table 4 ). The karyotype of H. plantaginea is reported for the first time. (2) H. ventricosa (Salisb.) Stearn was counted to have 2n=120, The 120 chromosomes are in 60 pairs, which can be classified into 8 pairs of large chromosomes (7.00- 8.40μm ), 6 pairs of medium-sized ones(4.40- 6.15um ), 46 pairs of small ones (1.20- 3.85μm), (Plate 3, Table 4). Based on the karyotypes of H. plantaginea and H. ventricosa, the latter is probably a tetraploid in the genus Hosta. Kaneko (1968b) gave a report on the karyotype of H. ventricosa, which is of8 pairs of large chromosomes, 4 pairs of medium-sized and 48 pairs of small ones.     

Karyotype Analysis of 5 Species of Polygonatum Mill.

The present paper reports the chromosome numbers and karyotypes of five species in Polygonatum from Anhui of China. The materials used in this work are listed in Table 1, Photomicrographs of somatic metaphase and karyograms of the five species of Polygonatum in Plate 1, 2, 3, the idiograms in Fig. 1-11 and a comparison of the karyotype of them is provided in Table 2. The results are shown as follows: 1. Polygonatum odoratum (Mill.)Druce Two materials were examined. One from Mt. Huangshan, Anhui, has 2n= 16 = 10m (3sc)+ 6sm (Plate 1 :A, B). The idiogram is shown in Fig. 1. The chromosomes range in length from 2.85 to 8.85 μm, with the total length 48.63μm and the ratio of the longest to the shortest 3.11, The karyotype belong to Stebbins’(1971) 2B. The two chromosomes of the first pair have arm ratios 1.01 and 1.29 respectively, and The first pair has one chromosome carrying a satellite attached to the short arm, showing heterozyosity .The chromosome num ber of 2n= 16 in P. odoratum and its karyotype are reported for the first time. The other from Langyashan, Chu - xian, Anhui, is found to have 2n = 18 = 10m (Isc)+2sm+6st(2sc) (Plate 1: C, D). The idiogram is shown in Fig. 2. The chromosomes range in length from 2.43 to 8.29μm, with the total length 46.67µm and the ratio of the longest to the shortest 3.41. The karyotype is also of 2B. In a somatic chromosome complement the 2nd pair have one chromosome carrying a satellite attached to the long arm, showing heterozygosity. 2. Polygonatum filipes Merr. Two materials were examined. One from the Huangshan, Anhui is found to have two cytotypes: 2n= 16 and 2n=22. This paper reports one of them. The karyotype formula is 2n=22=8m+8sm(2sc)+6st(Plate 3: Q, R). The idiogram is shown in Fig. 3. The chromosomes range in length from 2.55- 5.85μm, with the total length 45.01 μm and the ratio of the longest to the shortest 2.29. The karyotype belongs to 3B. The other material from the Fangchang, Anhui, is shown to have four cytitypes: 2n= 14, 2n= 16, 2n=20 (Plate 3: W) and 2n=22. This paper reports two of them. Type I: the karytype formula is 2n=14=10m+4sm (Plate 3: S, T). The idiogram is shown in Fig. 5. The chromosomes range in length from 2.59 to 7.61μm, the total length 37.44μm and the ratio of the longest to the shortest is 2.94. the karyotype belongs to 2B. Type II :The karyotype formula is 2n=16=8m+4sm+4st (Plate 3: U, V). The idiogram is shown in Fig. 4. The chromosomes range in length from 2.65 to 8.21 μm, the total length 46.01 μm and the ratio of the longest to the shortest 3.10. The karyotype belongs to 2B. The chromosome numbers of 2n=20, 2n= 14 and 2n=22, and karyotype of 2n= 14 and 2n=22 in P. filipes are reported for the first time. 3. Polygonatum cytonema Hua Two materials were examined. One from the Langyashan, Chuxian, anhui, is found to have 2n = 18 = 8m (2sc)+ 6sm+ 4st (Plate 2: K, L). The idiogram is shown in Fig. 7. The chromosomes range in length from 3.41 to 9.21 μm, the total length 56.34μm and the ratio of the longest to the shortest is 2.70. The karyotype belongs to 2B. The other material from the Huangshan, Anhui, has two cytotypes: 2n=20 and 2n= 22. Type I: The karyotype formula is 2n= 20= 8m+ 6sm+ 6st (Plate 2: M, N). The idiogram is shown in Fig. 8. The chromosomes range in length from 1.75 to 5.03μm, with the total length 32. 91μm and the ratio of the longest to the shortest 2. 87. The karyotype is also of 2B. Type II: The karyotype formula is 2n=22=6m+ 8sm+4st+ 4t (Plate 2: O, P ). The idiogram is Shown in Fig. 10. The chromosomes range in length from 1.75 to 4.95 μm, with total length 35.05μm and the ratio of the longest to the shortest 2.83. The karyotype brlongs to 3B. 4. Polygonatum desoulayi kom. The material from Xuancheng, Anhui, is found to have karyotype 2n = 22 = 10m (2sc) + 6sm (lsc) + 6st ( Plate 2. I, J). The idiogram is shown in Fig. 6. The chromosomes range in length from 1.86 to 5.61μm, with the total length 41.98μm and the ratio of the longest to the shortest 3.02. The karyotype is also of 3B. The first pair has one chromosome carrying a satellite attached to the long arm, showing heterozygosity. The chromosome number and karyotype of Chinese material are reported for the first time. 5. Polygonatum verticillatum (L.) All. The material from the Langyashan, Chuxian, Anhui is found to have two cytotypes. Type 1: the karyotype formula is 2n = 18 = 2m+ 2sm+ 10st+ 2t+ 2T (Plate 1: G, H). The idiogram is shown in Fig.9. The chromosomes range in length from 1.86 to 4.03μm, with total length 28.28μm and the ratio of the longest to the shortest 2.17. The karyotype classification belongs to 3B. Type II: The karyotype formula is 2n=24=6m+4sm+12st+2T (Plate 1: E, F). The idiogram is shown in Fig. II. The chromosomes range in length from 2.01 to 5.03μm, with total length 41.36μm and the ratio of longest to shortest 2.50. The karyotype is also of 3B. The chromosome numbers and karyotypes of Chinese material are reported for the first time.     

广东四个墨兰品种的核型研究

研究了广东四个墨兰品种金嘴墨兰、银边墨兰、企剑黑墨和企剑白墨的染色体数目和核型。结果表明,企剑黑墨和企剑白墨的染色体数目为2n=40,为二倍体,核型公式分别为：2n=2x=40=30m＋10sm和2n=2x=40=2M＋36m＋2st;金嘴墨兰和银边睾兰的染色体数目为2n=41,为非整倍体。4个墨兰品种的染色体结构主要由中部着丝粒染色体组成,除银边墨兰为1B型外,其它均为2B型。     

The Discovery of Diploid Lycoris radiata (L′Her.) Herb. from Anhui

Lycoris radiata (L′Her. ) Herb. containing wild and cultural types, is distributed in China and Japan. The karyotype variation in three populations of the species from Anhui is studied in this paper. (1) Wuhu wild population has a karyotype 2n=21+1B= 1m+12st +8t+1B. The chromosomes range in length from 7.50 to 14.10 µm with the ratio of the longest to the shortest 1.88. The karyotype belongs to Stebbins’(1971) 3A. (2) Huangshan wild population has two cytotypes: 2n=22 and 2n=22+1B. Type Ⅰ: The karyotype formula is 2n=22=12st+10t. The chromosomes range in length from 6.85 to 9.95 µm. with the ratio of the longest to the shortest 1.45. The karyotype belongs to 4A. Type Ⅱ: The karyotype formula is 2n=22+1B=6st+14t+2T+1B (plate 1: 7,8). The chromosomes range in length from 6.50 to 11.02 µm. with the ratio of the longest to the shortest 1.70. The karyotype belongs to 4A. (3) Wuhu cultural type has a karyotype 2n=33=30st +3t. The chromosomes range in length from 7.10 to 9.35 µm with the ratio of the longest to the shortest 1.32. The karyotype belongs to 4A. This result agrees well with the previous reports. The diploid types of Lycoris radiata (L´Her.) Herb. are found in Anhui for the firsttime.     

蒙古苍耳核型分析

首次对蒙古苍耳染色体数目及核型进行了研究,结果表明,染色体数目２ｎ＝３６,核型公式为Ｋ（２ｎ）＝３６＝２６ｍ＋２ｍ（ｓａｔ）＋８ｓｍ．与苍耳的核型进行比较,认为蒙古苍耳的核型比苍耳的原始。     

贵州大树茶的核型变异与进化

本文对贵州大树茶7种1变种11类型的核型进行了分析。结果表明,这些种类均为二倍体2n＝30。五室茶Camellia quinquelocularis 2n＝30＝24m+6sm;四球茶C．tetracocca 2n＝30=22m+8sm;大理茶C．taliensis 2n=30＝22m+8sm;秃房茶C．gymnogyna 2n＝30＝22m+6sm+2st与2n=30＝20m+8sm+2st;假秃房茶C. gymnogynoides 2n＝30=22m+6sm+2st与2n＝30=20m+8sm+2st;榕江茶C. jungkiangensis 2n＝30+20m+8sm+2st;茶C．sinensis 2n=30＝20m+8sm+2st以及变种淡红花茶C．sinensis var．ruolla 2n＝30=20m+8sm+2st;均属2A核型。染色体结构变异在茶组植物演化中起了重要作用。所划分的两大类核型,即m和sm类与m,sm,和st类是与其子房室数,即5室和3室相一致的。根据核型的不对称性程度、外部形态及生化分析,探讨了各种类的亲缘关系与系统演化途径,论证了茶组植物的原产地是位于滇、桂、黔毗邻交汇处的云贵高原,探讨了茶组植物的分类学问题。     

The discovery of triploid Lycoris sprengeri Comes ex Baker from Anhui,China

Lycoris sprengeri Comes ex Baker is endemic to China. Reported in the present paper are the chromosomes number and karyotypes for two wild populations of the species from Anhui. ( 1 )Caishi population has a karyotype 2n=33=9st+21t+3T. The length of chromosomes ranges from 5.58～9.15μm. The karyotype belongs to Stebbin’s (1971) “4A”. (2)Longyashan populations have two karyotypes. The karyotype formula of the type I is 2n=22=8st+14t, with chromosomes ranging from 6.88～9.15μm. The karyotype belongs to “4A”. The karyotype formula of the type Ⅱ is 2n＝22＝1m+1sm+14st+6t, with chromosomes ranging from 7.20～15.80μm. The karyotype belongs to “3B”. The triploid type of L. sprengeri was discovered in Anhui for the first time. The karyotype 2n=22 =1m+1sm+14st+6t in diploid type of this species is here reported for the first time.The Robertsonian change plays a key role in karyotype evolution of Lycoris.     

花生45S rDNA和5S rDNA的染色体定位研究

对四粒红和蜀花四号花生材料进行了核型分析,四粒红为2B核型,核型公式为2n=4x=40=38m＋2sm（4SAT）;蜀花四号为1B核型,核型公式为2n=4x=40=40 m（2SAT）。利用双色荧光原位杂交技术,对45S rDNA和5S rDNA这两个材料有丝分裂中期染色体上的物理位置进行了定位分析。定位结果表明,四粒红有6对45S rDNA位点,位于A2L、A7S、A9L、B3L、B7S、B8L（A和B分别代表基因组A和基因组B,L和S代表长臂和短臂,数字代表染色体序号,下同）;2对5S rDNA位点,位于A3S和B3S;蜀花四号有5对45S rDNA位点,位于A2L、A9L、B3L、B7S、B9L;2对5S rDNA位点,位于A3S和B3S。花生的45S rDNA位点具有可变性,5S rDNA则相对保守。     

亚洲苦草与刺苦草的染色体数目和核型

本文以亚洲苦草和刺苦草根尖为实验材料,对其染色体数目及核型进行了研究,结果表明,两个种均为2n=20,同属Stebbins的不对称核型,亚洲苦草为“3B”,刺苦草为“2B”。核型公式分别为:K(2n)=20=2m+12sm+6st,K(2n)=20=2M+2m+14sm+2st。     

睡莲科的核型分析及其分类学位置的探讨

本文对睡莲科6属6种代表植物的核型进行了研究,并探讨了它的分类学位置。结果如下：莲2n＝16=9sm+4m+3st;王莲2n＝24=8sm+8m+8T,蓝睡莲2n＝28,可配成14对,染色体小,第l号染色体上有2条随体;萍蓬草2n＝34＝18m+16sm;芡实2n=58,可配成29对,染色体小,第l号染色体有2条随体,莼菜2n＝72,可配成36对,染色体按大小可分成大,中、小三个类别。除莲外,其它5种植物的核型为首次报道。莼菜的体细胞染色体数目2n＝72和国外报道的2n＝80不相一致。莲的染色体以及形态学特征和其它睡莲科分类群显著不同,可将其从睡莲科中独立出来,并成立莲科和莲目。原归属于睡莲科的分类群仍组成睡莲目,并分别置于莼菜科和睡莲科。