三种马鸡的核型及染色体G-带带型

采用外周血淋巴细胞培养和NaOH显带的方法制备了白马鸡、蓝马鸡和褐马鸡的核型与染色体G－带带型。结果表明：3种马鸡的核型基本相同,2n=82,有7对大染色体,其余为微小染色体;Z染色体为第4对大染色体,W染色体的长度介于第6、7对大染色体之间;除第1对大染色体为m型、Z染色体为sm型外,其余的染色体均为t型,3种马鸡染色体G－带带型表现出较明显的差异,7对大染色体中,有6对大染色体的G－带带型有差异,利用数值分类学方法计算3种马鸡G－带带型的相似性系数并进行聚类分析,结果表明,蓝马鸡与褐马鸡新缘关系较近,二者与白马鸡的新缘关系较远。     

棕黑锦蛇赤峰亚种染色体组型、C带和Ag-NORs研究

以骨髓细胞为材料研究了棕黑锦蛇赤峰亚种的染色体, 结果表明,该物种的2n=36,由8对大型的和10对微小的染色体组成,AF=50。No.4为性染色体(ZW型);所有大型染色体均显示端粒深染C带,但仅NO.2、3、5和Z染色体显示着丝粒浅染C带。W染色体为整条C带阳性;该物种一对NOR分布于微小染色体。锦蛇属核型可能经历过染色体间的着丝粒融合的罗伯逊易位。 Abstract:This paper reports the karyotype,C-bands and Ag-NORs of Elaphe schrenckii anomala(Boulenger).The diploid number,2n=36,comprising 8 pairs of macro- and 10 pairs of microchromosomes in the E.s.anomala.AF=50.The No.4 is sex chromosome,which belong to ZW type.The C-banding technique revealed telomeric constitutive heterochromatin in the whole macrochromosome.But the centromeric C band was only observed in No.2,3,5 and Z chromosome,while a whole W chromosome is constitutive heterochromatinization.Two NORs was observed in group of microchromosome.     

新疆产胎生蜥蜴染色体的研究

采用骨髓细胞制片法对分布在新疆阿勒泰地区的胎生蜥蜴Lacerta vivipara种群的染色体进行研究。结果表明,胎生蜥蜴的染色体全部为端着丝点,性别决定机制为Z1Z1Z2Z2/Z1Z2W型,雌雄染色体数目不同,雄性胎生蜥蜴二倍体染色体的数目为36,性染色体为Z1Z1Z2Z2型,染色体组型为2n=32+Z1Z1Z2Z2;雌性胎生蜥蜴二倍体染色体的数目为35,染色体组型为2n=32+Z1Z2W,性染色体为Z1Z2W型。从组型特征来看,新疆的胎生蜥蜴种群与欧洲中北部和俄罗斯地区的种群为同一大类群。     

欧斑鸠的染色体组型及G、C带研究

本文研究了繁殖于新疆的欧斑鸠的染色体组型,其2n=80,NF=110,和以报道的山斑鸠与灰斑鸠的染色体组型差异显著。通过G、C带的比较观测,雌性大染色体为30条,雄性大染色体为31条（其中第6对为不配对单体）,雄性性染色体为ZW,雄性性染色体为Z0,其去均为微小染色体。雄性染色体组型的形成和遗传机制有待进一步研究。     

泰和乌骨鸡的核型与带型研究

采用外周血淋巴细胞培养--空气干燥法,对泰和乌骨鸡染色体核型和带型进行了研究。结果表明：泰和乌骨鸡体细胞染色体数目2n=78,染色体基本臂数AF=90,1、9号染色体及Z、W性染色体为中央着丝粒（m）染色体,2、4、7号染色体为亚中央着丝粒（sm）染色体,3、6、8、10号染色体为端着丝粒（t）染色体。G带研究表明：前10对大型染色体可分为29个区,190条带。C带处理发现,所有母鸡分裂相中W性染色体都出现C带并整条深染。Ag-NORs研究发现：Ag-NORs常定位于1、2号常染色体短臂和Z性染色体短臂端部;Ag-NORs数目分布范围为1～6;平均每个细胞的Ag-NORs数在雌、雄鸡中分别为2.94和2.96。 Abstract:This study made the chromosome slides of Taihe Silkies by the peripheral blood lymphocyte culture-drying method,and analyzed Taihe Silkies karyotype and band pattern.The results are as follow:The diploid chromosome number of Taihe Silkies was 2n=78,the basic number of chromosome arms was AF=90 and the sex chromosome type was ZZ(♂)/ZW(♀).According to the measured relative length,arm ratio and centromeric index,the first 10 pairs of macro-chromosomes are described as follows:No.1 ,9 and Z,W chromosomes were metacentrics,No.2,4,7 were submetacentrics,and No.3,6,8,10 were telocentrics.Studies on Taihe Silkies′ G-band showed that the first 10 pairs of macro-chromosomes can be divided into 29 zones and 190 bands.Being treated by C-banding technique,a totally dark-stained and easily indentified W-chromosome always showed up in the female metaphase configurations.Ag-NORs were located in the short arms′ telomere of No.1,2 euchromosomes and Z sexchromosome,the Ag-NORs number varied from 1-6. -NORs     

黄山北草核的核型和G带带型研究

本文研究了北草晰的核型和G带带型,结果表明,北草蝴的染色体数2。二38,由18对常染色休和 1对性染色休组成．常染色体可分成三组：1组有2对染色体;11组包括15对染色体;而川组仅含 1对微小染色体。性染色体为ZW型．这个种的染色体均为端部着丝粒,其AN二38包括1对Z染色 体）,从核型特征上看,可能是晰蝎类中较原始的种。从G带显示结果可见,北草晰的各染色体对均有 其特有的带型,容易辨别。     

大鳞副泥鳅ZZ/ZW型性别决定的细胞遗传学证据

大鳞副泥鳅是鲤形目、鳅科的鱼类。其2n数为48,核型组成为12m+4sm+32 t(雄性),11m+5sm+32t(雌性)。根据银染带和C带特征分析,证实大鳞副泥鳅为ZZ/ZW型性别决定。Z染色体为中部着丝粒染色体,在其长臂端部有Ag -NOR存在。 W染色体为亚中部着丝粒染色体,在其长臂末端也有Ag-NOR存在,同时还有一深染的居间C带,这是W染色体独有的带纹特征。 Abstract:Paramisgurnus dabryanus belongs to Cypriniformes,Cobitidae.Its 2n is 48.The karyotype formula is 12m+4sm+32t(in male),11m+5sm+32t(in female).According to the Ag-NORs band and C-band patterns,we consider that its sex determination is of ZZ/ZW type.The Z chromosome is a metacentric one with Ag-NORs located on its arm end.The W chromosome is a submetacentric with Ag-NORs located on the terminal of its long arm.There is a darkly stained C-band on the long arm of W chromosome.This band is a characteric of the W chromosome.     

中华大蟾蜍染色体分带和姐妹染色单体互换的研究

本文报道了中华大蟾蜍(Bufo bufo gargartzans)的C带和BrdUrd-Hoechst-Giemsa复制带,并以中华大蟾蜍为代表确立了两栖类体细胞的姐妹染色单体差别染色(SCD)方法。BrdUrd-Hoechst-Giemsa技术在两栖类的中期染色体上能显示可重复的复合带型。用这种方法我们鉴定中华大蟾蜍第10对同型染色体为ZZ/ZW型性染色体,所有雄性动物两个Z染色体的复制型是完全相同的(同步复制的),而雌性动物的Z和W染色体显示出异型复制型(不同步复制的)。在W染色体长臂近着丝粒处有一个较早的复制带,Z染色体则缺乏这个复制带。这些性染色体用C带和其他方法不能区分。此外,我们还测定了中华大蟾蜍淋巴细胞的SCE频率,发现其SCE频率比哺乳动物高,为7.83±0.49(m±S.E.)。     

家燕与金腰燕染色体的比较研究

本文对家燕和金腰燕的核型、C带和Ag-NORs带进行了比较研究。结果表明,两者的核型基本一致。核型公式:2n=80=2M+4ST+zMwSM+2M+2ST+2SM+8 T+2M+56mT/D。但两者在染色体的相对长度、W染色体大小、G带带型、A g-NORs的数目和分布均存在着差异。文中在家燕No.1、7、W染色体和金腰燕No.1、 6、7染色体的形态划分,金腰燕W染色体的确定及其染色体数目等方面,均与卞小庄、李庆伟的结果不同。 Abstract:A comparative study on karyotype and C-band and Ag-NORs of house swallow and red-rumped swallow has been made.The result shows that the karyotype of them are similar,and their karyotypical formulae is 2n=80=2M+4ST+zMwSM+2M+2ST+8T+2M+56mT/D.But they are different in the relative length of chromosomes,the size of W chromosome,C-band patterns and the number and distribution of Ag-NORs.The chromosomes,the size of W chromosome,C-band patterns and the number and distribution of Ag-NORs.THE result in this paper is different from that of Mr.Bian and Mr.Li in the types of No.1,7,W chromosomes of house swallow and No.1,6,7 chromosomes of red-rumped swallow and the determination of W chromosome and diploid number of red-rumped swallow.     

赤链蛇染色体组型、C型和Ag—NORs的研究

以骨髓细胞为材料研究赤链蛇的染色体,结果表明该物种2n=46,由8对大型的和15对微小的染色体组成,AF＝50。性染色体的大小介于3号和4号之间,为ZW;8大型染色体均显示着丝粒C带,1－6号还显示浅染端粒C带。W染色体为整条C带阳性,该物种一对NOR位于7号染色体近着丝粒区。不同地理分布群赤链蛇核型可能经历过Z与W染色体不等交换。     

Karyological studies on fifteen forms of amphisbaenians (Amphisbaenia-Reptilia)

The chromosome constitutions of 15 forms (2 acrodonts and 13 pleurodonts) of amphisbaenians belonging to two families and eight genera were studied. The diploid chromosome numbers varied from 30 to 44 with the number of chromosome arms (FN) ranging from 42 to 60. The karyotypes of 12 forms all contained 6 pairs of macrochromosomes with similar morphology and 9 to 12 pairs of microchromosomes. The remaining three species had a higher diploid number (40–44) and a wide variation in chromosome morphology. Karyotype variations were found in the same family, even in the same genus. The lengths of the 6 pairs of macrochromosomes in 5 of the 12 forms were measured and compared. This disclosed similarities in the mean lengths, relative lengths, and arm ratios of those forms. — Chromosome patterns found in the present study support, in general, the classification of amphisbaenians derived from analysis of morphological characters.Supported in part by United Health Foundation of Western N. Y. Research Grant G-66-RP-9, National Cancer Institute, CA-08737 and NSF GB 2460.     

3个异域分布的花背蟾蜍种群的细胞遗传学研究

比较分析了河南、北京、安徽3个地区分布的花背蟾蜍Bufo raddei种群的核型与染色体银带.结果发现它们体细胞染色体数日都足2n=22,由6对大型染色体和5对小型染色体组成.但是它们彼此之间在亚中部着丝粒的数目和顺序、次缢痕或随体的位置以及银染位置等都有所不同.对此进行了分析和讨论,并对蟾蜍属的染色体研究进行了展望.     

Chromosome banding pattern conservatism in birds and nonhomology of chromosome banding patterns between birds,turtles, snakes and amphibians

The G-banded karyotypes of 4 species of birds representing the orders Galliformes, Columbiformes and Musophagiformes were compared. Banding pattern homology between orders was limited t 5o 5 major chromosome arms and the Z chromosome. Even in these major chromosome arms pericentric and paracentric inversions produced alteration of the banding pattern sequences. Addition of constitutive heterochromatin was responsible for changes in banding patterns in the Z chromosome. The chromosome banding patterns of an emydid turtle, Terrepene carolina, 5 species of boid snakes of the genera Liasis, Acrantophis, and Sanzinia and the African clawed-frog. Xenopus muelleri, were also compared to the bird chromosome banding patterns. No homology was observed between any of these major groups: bird, snake, turtle, amphibian. However, intergroup homology was apparent. - The data obtained do not support reports of broad interordinal direct homology of the macrochromosomes of birds and refutes the idea of a primitive bird karyotype with 3 pairs of "Agroup' chromosomes and 3 pairs of "B group' chromosomes. - The major mechanisms responsible for chromosome evolution in birds appear to be centric and tandem fusions, paracentric and pericentric inversions, and addition or deletion of heterochromatin.     

Differences in gene density on chicken macrochromosomes and microchromosomes

The chicken karyotype comprises six pairs of large macrochromosomes and 33 pairs of smaller microchromosomes^1. Cytogenetic evidence suggests that microchromosomes may be more gene-dense than macrochromosomes. In this paper, we compare the gene densities on macrochromosomes and microchromosomes based on sequence sampling of cloned genomic DNA, and from the distribution of genes mapped by genetic linkage and physical mapping. From these different approaches we estimate that microchromosomes are twice as gene-dense as macrochromosomes and show that sequence sampling is an effective means of gene discovery in the chicken. Using this method we have also detected a conserved linkage between the genes for serotonin 1D receptor ( HTR1D ) and the platelet-activating factor receptor protein gene ( PTAFR ) on chicken chromosome 5 and human chromosome 1p34 ·3. Taken together with its advantages as an experimental animal, and public access to genetic and physical mapping resources, the chicken is a useful model genome for studies on the structure, function and evolution of the vertebrate genome.     

Somatic chromosomes of Bubulcus ibis (L.) (Cattle-Egret): A case of reciprocal translocation

The somatic chromosome complement of Bubulcus ibis consists of six pairs of macrochromosomes, twenty-three pairs of microchromosomes and a pair of sex chromosomes. The Z-chromosome is comparable in size to autosome pairs 3 and 4, from which it is difficult to distinguish, and the W-chromosome is indistinguishable from the larger microchromosomes. The chromosome complement of one individual was found to deviate from the normal because of structural heterozygosity involving a member of chromosome pair 1 and a microchromosome.     

红嘴鸥核型及C带和银带

本文以骨髓细胞常规空气干燥法和Sumner(1972)的方法(C带),Howell(1980)的方法(银带),对近年来昆明过冬的红嘴鸥的核型及其C带和银带进行了分析,结果显示出:红嘴鸥的2n应为68±。多数染色体的着丝粒区均显示出一个深浅不同的C带。Z染色体上有一个微小而模糊的C带,而W染色体大部分染色质被深染。其染色体经快速银染后表明,2对NORs均在微小染色体上。     

Cytotaxonomic considerations on Neotropical Psittacidae birds and description of three new karyotypes

Chromosomes obtained from feather tissues of 14 species of Brazilian Psittacidae were analyzed by Giemsa conventional staining and the karyotypes of Ara chloroptera, Propyrrhura maracana and Nandayus nenday are presented for the first time. The remaining species showed no chromosome differences when compared with previous literature data. Two basic karyotype patterns were observed. A karyotype pattern is mostly characterized by biarmed macrochromosomes, while in the other one most macrochromosomes are telocentrics.     

黑眉锦蛇的有丝分裂染色体和减数分裂联会复合体的观察

本工作以C带、硝酸银染色、对黑眉锦蛇(Elaphe taeniura)的有丝分裂染色体进行了显微观察。其二倍体染色体数目2n=36,核型组成为16(8m+6sm+2t)大染色体+20微小染色体。C带显现于几乎所有染色体的着丝粒区,有一对插入型C带位于第6对端着丝粒染色体。一个银染核仁组织区(NORs)位于No.12小染色体。同时以界面铺张——硝酸银染色技术,对黑届锦蛇减数分裂精母细胞联会复合体(SC)的结构进行了亚显微观察。发现黑眉锦蛇的SC结构与其他动物的SC相似,是由两股平行的侧线组成,SC组型与有丝分裂染色体组型有较好的一致性。     

Extensive gross genomic rearrangements between chicken and Old World vultures (Falconiformes: Accipitridae)

The karyotypes of most birds consist of a small number of macrochromosomes and numerous microchromosomes. Intriguingly, most accipitrids which include hawks, eagles, kites, and Old World vultures (Falconiformes) show a sharp contrast to this basic avian karyotype. They exhibit strikingly few microchromosomes and appear to have been drastically restructured during evolution. Chromosome paints specific to the chicken (GGA) macrochromosomes 1-10 were hybridized to metaphase spreads of three species of Old World vultures (Gyps rueppelli, Gyps fulvus, Gypaetus barbatus). Paints of GGA chromosomes 6-10 hybridize only to single chromosomes or large chromosome segments, illustrating the existence of high chromosome homology. In contrast, paints of the large macrochromosomes 1-5 show split hybridization signals on the chromosomes of the accipitrids, disclosing excessive chromosome rearrangements which is in clear contrast to the high degree of chromosome conservation substantiated from comparative chromosome painting in other birds. Furthermore, the GGA chromosome paint hybridization patterns reveal remarkable interchromosomal conservation among the two species of the genus Gyps.