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该研究采用常规压片法对分布于内蒙古高原的6个沙鞭居群的染色体核型进行研究,探讨沙鞭不同居群的核型特征及其进化关系。结果表明:(1)沙鞭6个居群的染色体数目恒定,均为2n = 2x = 46。(2)染色体有正中部着丝粒(M)、中部着丝粒(m)、亚中部着丝粒(sm)和亚端部着丝粒(st)4种类型,且中部着丝粒类型数量最多。(3)沙鞭不同居群核型公式存在差异。(4)核型类型有1A、2A、1B和2B型4种,染色体平均臂比介于1.29 ~ 1.62,长度比为1.73 ~ 2.68。(5)核型不对称系数处于55.96% ~ 59.95%,核型对称性较高,进化程度较为原始,其中37居群的核型不对称系数最大,进化程度较高,34居群的核型不对称系数最小,进化程度较低。(6)沙鞭6个居群聚为两类,37居群单独聚为一类,其他所有居群聚为一类,表明37居群与其他居群具有相对较远的亲缘关系。该研究首次报道了沙鞭不同居群的染色体核型特征及其进化关系,为以后沙鞭的系统进化和优良种质资源筛选奠定了细胞学证据。 相似文献
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该研究采用常规染色体制片技术,对分布于山东省的流苏树5个自然地理居群的染色体核型进行观察分析,以揭示不同居群的流苏树核型特征、差异及其系统亲缘关系,为进一步探明流苏树的系统进化关系奠定细胞学基础。结果表明:(1)流苏树5个居群的染色体数目稳定,均为2n=2x=46;染色体以小型染色体为主;核型主要有中部着丝粒(m)、亚中部着丝粒(sm)组成,其中中部着丝粒居多,有1B、2B两种类型。(2)5个居群的流苏树核型公式分别为:B居群2n=2x=43m+3sm、T居群2n=2x=46m、S居群2n=2x=45m+sm、WS居群2n=2x=44m+2sm、Z居群2n=2x=45m+sm,这或许与其所处环境有关。(3)5个居群的流苏树核型不对称系数在54.29%~58.00%之间,各居群进化程度相对大小依次为B>S>WS>Z>T。(4)聚类分析结果显示,当遗传距离为1时,T和WS居群、B和S居群分别优先聚为一类,表明二者相互间的亲缘关系相对最近。研究认为,B居群和S居群进化程度较高,T居群相对原始,且T居群(泰山罗汉崖的流苏树居群)保护相对最好。 相似文献
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蓝尾石龙子染色体组型与Ag—NORs分析 总被引:1,自引:1,他引:0
本文用骨髓细胞制片,分析了蓝尾石龙子的染色体组型和Ag-NORs,其二倍体2n=26,含6对大型的和7对小型的染色体,除3对小型的染色体呈点状外,其余均为中部着丝粒,NF=46。这个种的一种对Ag-NOR位于No.2长臂近着丝粒区。未见有异型的性染铎体。 相似文献
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蓝尾石龙子染色体组型与Ag-NORs分析 总被引:1,自引:1,他引:0
本文用骨髓细胞制片,分析了蓝尾石龙子的染色体组型和AgNORs,其二倍体2n=26,含6对大型的和7对小型的染色体,除3对小型的染色体呈点状外,其余均为中部着丝粒,NF=46。这个种的一对AgNORs位于No.2长臂近着丝粒区。未见有异型的性染色体。 相似文献
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黑眶蟾蜍、黑斑蛙、中国雨蛙不同地理居群的染色体多样性 总被引:1,自引:1,他引:0
《四川动物》2001,20(4):181-184
本文研究温州地区的黑眶蟾蜍、黑斑蛙、中国雨蛙的核型,分析了三个地理居群的黑眶蟾蜍、四个地理居群的黑斑蛙、三个地理居群的中国雨蛙核型.结果表明不同地理居群的同种蛙有相同的染色体数和核型模式.黑眶蟾蜍为2n=22,NF=44,核模式6+5;黑斑蛙为2n=26,NF=52,核模式5+8;中国雨蛙为2n=24,NF=48,核模式6+6.但同一种蛙的不同地理居群之间在SM数目和顺序、次缢痕或随体的位置等有所不同.说明不同地理居群的同种蛙的染色体具有丰富的多样性. 相似文献
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部分中国野生百合的核型分析 总被引:1,自引:0,他引:1
采用常规压片法,对野生百合6个种、20个居群的染色体进行了核型分析,结果显示:(1)中国野生百合20个居群中有1个居群的染色体数为2n=22,其他19个居群的染色体数均为2n=24。(2)20个居群中有4个居群含有B染色体,有12个居群含有数目不等的随体。(3)核型类型中有17个为"3B"型,2个为"3A"型,1个为"4B"型。(4)20个居群的核型不对称系数在77.16%~83.83%之间,最长染色体/最短染色体臂比值介于1.85~3.07之间;同一个种下面的不同变种或居群的核型变异也较大。研究表明,中国野生百合不同种或居群的遗传多样表现在染色体数量、是否含有B染色体、不同类型染色体数量以及它们在核型中的排序位置、随体的位置等方面的差异。 相似文献
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对中国云南西部和西北部分布的腋花扭柄花Streptopus simplex的4个居群进行了细胞学研究。生长在云南西北香格里拉县(原中甸县)碧塔海和小中甸冷杉林中的腋花扭柄花两个居群的体细胞染色体数目为2n=2x=18,而生长在高黎贡山的福贡县片马和贡山县的灌丛中的植物体细胞染色体数目则为2n=2x=14。2n=14为腋花扭柄花一个新的染色体数目,x=7为扭柄花属一个新的染色体基数。香格里拉碧塔海和小中甸两个居群的核型公式分别为2n=4m+8sm+4st和2n=8m+2sm+6st,染色体逐渐变小;贡山和福贡片马两个居群的核型公式分别为2n=14=4m+10sm和2n=14=7m+7sm,其中第一对中部着丝粒的染色体显著大于其余染色体。由于x=8是扭柄花属最常见的染色体基数,因此可认为x=8是腋花扭柄花的染色体原始基数,x=7的数目是衍生的;x=7居群染色体的一条大染色体可能是由x=8的染色体的两条st型染色体的着丝粒发生了罗伯逊易位而来。 相似文献
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为了探讨苦豆子(Sophora alopecuroides)不同居群的染色体核型特征及进化关系,采用染色体常规压片技术分析了分布于内蒙古、甘肃、宁夏等6个自然地理居群的核型特征和进化趋势。结果显示:苦豆子6个居群的染色体数目恒定,均为2n=2x=36;染色体类型有中部着丝粒(m)和近中部着丝粒(sm)2种,除甘肃武威的居群3含有sm型染色体外,其余居群的染色体均为m型;染色体平均臂比为1.19~1.37,长度比介于1.72~2.19,核型不对称系数处于54.30%~57.17%;核型类型有1A、3A和2B三种;苦豆子居群3的核型不对称系数最大,进化程度较高,居群19(内蒙古鄂尔多斯)的核型不对称系数最小,进化程度较低。聚类分析显示,苦豆子6个参试居群聚集成A和B两大分支,分支A又可分为C和D两亚支,其中居群5(甘肃武威)和居群13(内蒙古阿拉善盟)聚为C亚支,亲缘关系较近,居群3单独聚为D亚支,与C亚支两居群的亲缘关系相对较远;分支B又可分为E和F两亚支,居群19和居群43(内蒙古鄂尔多斯)聚为E亚支,亲缘关系较近,居群17(宁夏银川)单独聚为F亚支,与E亚支两居群的亲缘关系相对较远。... 相似文献
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观察了国内黑腹果蝇种组34种果蝇的有丝分裂中期核型,其中首次描述了一些新核型。系统地分析了黑腹果蝇种组8个种亚组之间的核型进化关系及种间亲缘关系。结果是:elegans种亚组的核型为A型;eugracilis、melanogaster和ficusphila种亚组的核型为C型;takahashii和suzukii种亚组的核型为C型和D型;montium种亚组的核型为B、C、C’、D、D’、和E型;ananassae种亚组的核型为F、G和H型。从核型分化的角度可以将黑腹果蝇种组分为5个谱系:elegans,eugracilis-melanogaster-ficusphila,takkahashii-suzukii,montium,ananassae。这与2004年Yang等的观点基本一致,正好从核型进化的角度验证了Yang通过DNA序列分析所得到的结果。差别只在于elegans种亚组,作者把它单独列为一支,认为是祖先种亚组。通过选取同一种果蝇的几个不同地域单雌系的核型分析,结果表明:同一种果蝇的核型存在地域差异。这种差异可能是由于不同生境造成,也可能是本身进化程度的差异,或是两种因素相互作用的结果。 相似文献
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Disporum cantoniense (Lour.) Merr. is widely distributed in the area
from the Himalayas to Indonesia, via south China, Indo-China and Taiwan, especially in the various parts of Yunnan Province. In this paper, the karyotype variation of six populations of the apecies from southeastern, middle and
northwestern part of Yunnan are studied. The result shows that the chromosome
number of all the populations are 2n= 14.
The species was reported to have 2n= 16, 30 (Hasegawa 1932, Mehra and
Pathamia 1960, Kurosawa 1966, 1971, Tang et al. 1984) and 2n= 14 (Kurosawa
1971, Mehra and Sachdeva 1976a). 2n= 14, 2n= 16 and 2n=32 were observed in
the material from Taiwan (Chuang, et al. 1962, Chao, 1963, Hsu, 1971, 1972,
Chang, 1974). Based on the cytological study of D. megalanthum Wang et Tang
and seven other species in this genus reported by other authors, Hong and
Zhu (1990) consider that the basic number of this genus is x= 8, because species
with 2n= 16 was more than those with 2n= 14, despite some number variation of
chromosomes in this genus. Based on the results of the present paper, we consider
that x= 7 might be one of the basic numbers of this genus.
In the karyotypes studied here, the relative chromosome lengths and the ratio
of the longest/the shortest chromosomes of the six populations are rather approximate. Moreover, all the karyotypes belong to Stebbins’3B type. However,
karyotype variation was detected in these populations. The homologues of the
2nd, 3rd and 6th pair of chromosomes are different from each other, the numbers
and popsition of satellites are found very different, among the populations except
for the Lijiang population, the 1st, 2nd, 3rd or 4th pair of all the populations exhibited heterozygosity. Although all the karyotypes belong to Stebbins ‘3B type,
the homologues were more regular in the Lijiang population than in the other
populations, and the most irregular in the Wenshan population, because it hadfour pairs of heterozygous chromosomes. 相似文献
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大仓鼠的核型与B染色体研究 总被引:1,自引:0,他引:1
采用骨髓细胞染色体制片法,对分布于山东济南、泰山、东北长白山和陕西西安的大仓鼠的染色体组型、G-带、C-带和银染核型进行了分析研究。济南、西安和长白山的标本的二倍体数目和核型相似,2n=28,22t+4m+XY(st,m)。泰山标本的二倍体数目为2n=28~29,即在675%的中期相中多出了一条形态最小的端着丝粒染色体,这条染色体为B染色体,可能起源于X染色体。泰山标本的A染色体组与上述3地标本相同。4地标本的G-带、C-带和银染核型相似。除B染色体外,每个端着丝粒染色体都具有着丝粒异染色质,AgNORs较恒定地出现在Nos2,4,8,9,13染色体上。也就是说大仓鼠的B染色体为C-带阴性,不携带核仁组织者。这种B染色体C-带阴性的特征在赤狐、黑家鼠和大林姬鼠朝鲜亚种中亦有报道。 相似文献
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泽蛙、日本林蛙、饰纹姬蛙不同地理居群的核型多样性 总被引:5,自引:0,他引:5
本文研究了温州地区的泽蛙、日本林蛙、饰纹姬蛙的核型,并分析了9个地理居群泽蛙的核型、4个地理居群日本林蛙的核型和3个地理居群饰纹姬蛙的核型。结果表明,不同地理居群的同种蛙均有相同的染色体数和核型模式。泽蛙、日本林蛙都为 2n=26,NF=52,核模式5+8;饰纹姬蛙 2n=24,NF=48,核模式6+6。但同一种蛙的不同地理居群之间在SM数目和顺序、次缢痕或随体的位置等都有所不同,说明不同地理居群的同种蛙的染色体具有丰富的多样性。故保护蛙品种资源多样性,不仅要从整个群体上考虑,而且要针对每个品种(或类群)进行保护。
Abstract:The karyotypes of Rana limmocharis boie,Rana j.Japonica,and Microhyla ornata from Wenzhou were studied.The karyotypes of nine populations of Rana limmocharis boie,four populations of Rana j.Japonica and three populations of Microhyla ornata from different geographical regions were compared.The results demonstrated that the same species of different geographical populations have the same amount of chromosome and karyotypic formulae. Rana limmocharis boie and Rana j.Japonica have 2n=26,NF=52 and 5+8 karyotypic formulae.Microhyla ornata has 2n=24,NF=48 and 6+6 karyotypic formulae.But some dissimilarities were found among them.First,the number and sequence of submetacentric chromosome were different among them,and then the secondary contriction (SC)or satellite (Sat)were also different.It was showed that the chromosomes of same species of different geographical population have diversities.Conservation of frog genetic diversity must be considered of not only the genetic diversity conservation of the total frog population but also that of every frog breed. 相似文献
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G- and C-banded karyotypes of the two extant species of the mammalian order Proboscidea are presented for the first time. Chromosome complements were 2n = 56 in both Loxodonta africana and Elephas maximus. Comparisons between the species demonstrated a high level of chromosome band homology, with 26 conserved autosomal pairs. The normal diploid karyotype of L. africana had 25 acrocentric/telocentric and two metacentric/submetacentric autosomal pairs. E. maximus differed by having one less acrocentric and one additional submetacentric pair due to either a heterochromatic arm addition or deletion involving autosomal pair 27. Several acrocentric autosomes of L. africana exhibited small short arms that were absent in homologous chromosomes of E. maximus. The X chromosomes in both species were large submetacentric elements and were homologous. However, the small acrocentric Y chromosomes differed; in E. maximus it was slightly larger and had more distinct G-bands than its counterpart in L. africana. Extant Elephantidae appear to be relatively conservative in their rates of chromosomal change compared to some other mammalian families. The high-quality banded karyotypes presented here should prove useful as references in future chromosome analyses of elephant populations and in comparative cytogenetic studies with other ungulate orders. 相似文献
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本文分析了宽耳犬吻蝠(Tadarida teniotis insignis Blyth)和普氏蹄蝠(Hipposideros pratti Thomas)的常规核型,现报道如下。 相似文献
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Astyanax scabripinnis specimens from four distinct populations in Brazil were studied with respect to their karyotype macrostructure, nucleolar
organizer regions, and 18S and 5S rRNA genes. The four populations showed a 2n = 50 chromosomes (3 M + 11 SM + 5 ST + 6 A pairs) and 1–2 B chromosomes. No chromosomal differentiations were observed between
sexes. Although a karyotypic diversity has been characterized in this fish group, the populations now analyzed presented the
same macrokaryotypic pattern. Chromosome mapping of 5S rDNA showed a total of eight sites located in four distinct chromosomal
pairs, with no apparent differences among populations. A comparative study on 18S rDNA locations and Ag-NORs showed some secondary
NOR sites that are not usually expressed in karyotypes and a probable differential NOR activity among populations. Correlations
between these data, environmental conditions and B chromosomes are discussed.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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报道麻蜥属(Eremias ,Lacertidae) 6种15个不同居群的染色体核型及银分带核型。丽斑麻蜥(E. argus)、快步麻蜥(E. velox)、敏麻蜥(E. arguta)、密点麻蜥(E. multiocellata)、网纹麻蜥(E. grammica )的核型一致:2n=38=36I+ 2m,NF=38;虫纹麻蜥(E. vermiculata) 2n=38=12V+2sI+22I+2m, NF=50。中国麻蜥属的核型可分为3个类型:(1)丽斑麻蜥型(2)山地麻蜥(E. brenchleyi)型(3)虫纹麻蜥型。虫纹麻蜥核型演化有两种可能性(1)经历三倍体阶段,并通过罗伯逊易位形成;(2)通过染色体臂间倒位形成,倒位成因可能和天山山脉以及青藏高原的隆起有关。密点麻蜥、快步麻蜥、敏麻蜥、网纹麻蜥、虫纹麻蜥均观察到一对NOR于一对较小染色体对上。雌雄个体中均未发现性异型染色体。Abstract: Based on the Giemsa-dyeing karyotypes and silver-staining bands of 15 populations from different localities in China belonging to 6 species of the genus Eremias , We found all species studied have 19 pairs of chromosomes, the size of chromosomes reduces gradually and there are no marked differences between the arranged pairs of macrochromosomes except the last pair of microchromosome. There are the same karyotype formula as 2n=38=36I+2m with NF=38 in E. argus、 E. multiocellata、 E. velox、 E. arguta and E. grammica; but the karyotype formula of E.vermiculata is different as 2n=38=12V+2sI+22I+2m with NF=50. The NOR are all located on one small pair in female of E. velox, and E. arguta , in male of E. grammica and E. vermiculata ,and in both male and female of E. multiocellata. We have not found two or more than two pairs of NOR. Having one pair of NOR may be common in Genus Eremias and also the trait of Eremias. We speculate that the derivation of the karyotype of E.vermiculata had two possible way: one experienced the stage of triploid, and later the Robertsonian transposal of chromosomes; the other way was through the inversions between the arms on the chromosome and the phenomenon of inversions might occur during or subsequently after the upheaval of the Tibet and Qinghai plateau and the founding of the Tianshan . With regard to the trend of the evolution of chromosomes in the lizards [1], the karyotype of E.vermiculata is more advanced. Making specialties of E. vermiculata will help in building the phylogenic tree of Eremias. In both male and female of the species studied, the heteromorphic sex-chromosomes were not found. 相似文献