M chromosome of the wild silkworm, Bombyx mandarina (n = 27), corresponds to two chromosomes in the domesticated silkworm, Bombyx mori (n = 28).

Chromosomes of Bombyx mori (n = 28) and of Bombyx mandarina (n = 27) were studied cytogenetically to resolve the origin of the large M chromosome in the Japaneses type of B. mandarina. In the F1 progeny from the reciprocal cross between B. mandarina and B. mori, the mitotic chromosome number was 2n = 55, and a chromosome configuration of 26 bivalents plus 1 trivalent was observed at metaphase I of germ cells. The trivalent chromosome consisted of the M chromosome from B. mandarina and two chromosomes from B. mori. When males of B. mori were mated to the F1 females, nuclei with two types of chromosome number (2n = 55 and 2n = 56) and two sets of chromosome pairs (26 bivalents plus 1 trivalent versus 28 bivalents) were observed in the metaphase I stage. Linkage analysis showed that the 14th chromosome of B. mori was involved in these two types of chromosome segregation. This result indicates that the M chromosome in B. mandarina arose from a fusion between a chromosome corresponding to the 14th linkage group and another, yet unidentified linkage group.     

Chromosome evolution of the blue sheep/bharal (Pseudois nayaur)

A male dwarf blue sheep was collected 60 km south of Batang east to the Jinsha Jiang river, and a male Subei blue sheep (Greater form) was collected from Gansu, China, representing two geographically separated blue sheep forms. Chromosome preparations were prepared from fibroblast cultures. The dwarf blue sheep has a 2n = 54 and a karyotype with three biarmed formations that resulted from acrocentric chromosome fusions (based on the 2n = 60 Capra autosomal equivalents) 14p/5q, 27p/1q, and 29p/2q from the largest to the smallest biarmed chromosome, respectively. The 14p/5q fusion is metacentric, whereas the 27p/1q and 29p/2q are submetacentric. The Subei blue sheep had a 2n = 56, with only the 27p/1q and 29p/2q biarmed chromosome fusions. The remainder of the chromosomes in both blue sheep are acrocentric; the X is the largest acrocentric chromosome and the Y is a minute biarmed chromosome. Our observation is one evidence showing that chromosome evolution within blue sheep has followed a series of centric fusions resulting in the reduction of chromosome number, which is typical of all extant genera within the tribe Caprini.     

河北3产地日本三角涡虫的染色体变异与核型多样性分析

利用空气干燥法,对采自河北省邯郸市漳河、朝阳湖和邢台市秦王湖3产地日本三角涡虫(Dugesiajaponica)染色体核型进行了研究,结果表明,日本三角涡虫漳河种群与秦王湖种群体细胞中染色体数目以16条为主(2n=2x=16=16m),分别占81.07%和68.47%,少数为24条(2n=3x=24=24m),分别占8.28%和11.71%,为二倍体和三倍体的混合倍体;日本三角涡虫朝阳湖种群体细胞中染色体数目以24条为主(2n=3x=24=24m),占64.60%,少数为16条(2n=2x=16=16m),占7.45%,为三倍体和二倍体的混合倍体。值得注意的是朝阳湖种群部分体细胞中染色体在结构上发生变异,使其核型呈现多型性。文中根据核型分析结果对上述3产地日本三角涡虫染色体及核型的多样性作了初步讨论。     

Supernumerary chromosomes,Robertsonian rearrangement and variability of the sex chromosomes inNectomys squamipes (Cricetidae,Rodentia)

Chromosomes were analyzed in 91 specimens ofNectomys squamipes, collected in three distinct geographic regions of Brazil. Chromosomal polymorphism due to supernumerary chromosomes, Robertsonian rearrangement and variation of sex chromosomes is reported. Samples collected in the northeastern region had 2n=52, FN=52; 2n=53, FN=54; 2n=54, FN=56; 2n=55, FN=56; 2n=56, FN=56; 2n=57, FN=57. The specimens from the southeastern and southern regions showed 2n=55, FN=56; 2n=56, FN=56; 2n=57, FN=58; 2n=58, FN=60; 2n=59, FN=62. Seven different types of supernumeraries were observed. These vary in size, morphology and C-banding characteristics.The Brazilian populations ofNectomys squamipes are composed of at least two basic entities, one with 2n=52 and its increasing series up to 2n=55, the other with 2n=56, increasing to 2n=59. Both entities are characterized by variation from 0 to 3 supernumeraries. The X and Y chromosomes present polymorphisms in terms of the size, shape as well as the distribution of constitutive heterochromatin.This research was supported by CNPq-PIG (Projeto Integrado de Genética) and is part of the Rodent Cytogenetic Colaborative Study, developed by different Laboratories in Brazil.     

河南省桐柏县两产地日本三角涡虫核型分析

利用空气干燥法对采自河南省桐柏县下虎山和盘古溪两产地日本三角涡虫(Dugesia japonica)的染色体及核型进行了研究。结果表明,日本三角涡虫下虎山种群体细胞中染色体数目以16条为主,染色体基数x=8,为2倍体,核型公式为2n=2x=16=16m;日本三角涡虫盘古溪种群体细胞中染色体数目以24条为主,染色体基数x=8,为3倍体,核型公式为2n=3x=24=24m。     

Pennisetum squamulatum: is the predominant cytotype hexaploid or octaploid?

Apomixis is a mode of asexual reproduction where maternal clones are produced through seeds. Consequently, genetic segregation is prevented in hybrid progenies. Pennisetum squamulatum has been used to transfer apomixis into the related sexual species Pennisetum glaucum by the introgression of an apospory-specific genomic region (ASGR)-carrier chromosome. Crosses between P. glaucum and P. squamulatum or Pennisetum purpureum have been relatively easy to make even though P. squamulatum has been reported to have a different basic chromosome number than the other 2 species (9 vs. 7) and to be hexaploid (2n = 6x = 54). Our extensive examination of one accession had shown a chromosome number of 2n = 56. In order to determine if there was a variation among accessions, we counted the number of chromosomes in 5 accessions of P. squamulatum using centromeric and 18S-5.8S-26S rDNA probes as molecular cytological markers. Our results showed that P. squamulatum is most likely octaploid with a basic chromosome number of 7 (2n = 8x = 56) and may belong to the secondary gene pool of Pennisetum. Moreover, a morphologically similar ASGR-carrier chromosome that confers apomixis was observed in all accessions.     

Molecular phylogeny of silkmoths reveals the origin of domesticated silkmoth, Bombyx mori from Chinese Bombyx mandarina and paternal inheritance of Antheraea proylei mitochondrial DNA

Molecular phylogeny of some of the economically important silkmoths was derived using three mitochondrial genes, 12S rRNA, 16S rRNA, and COI, and the control region (CR). Maximum likelihood (ML) analyses showed two distinct clades, one consisting of moths from Bombycidae family and the other from Saturniidae family. The mitochondrial CR showed length polymorphisms with indels. The ML analyses for complete mitochondrial genome sequences of Bombyx mori (strains Aojuku, C108, Backokjam, and Xiafang), Japanese and Chinese strains of B. mandarina (Japanese mandarina and Chinese mandarina) and, Antheraea pernyi revealed two distinct clades, one comprising of B. mori strains and the other with B. mandarina, and A. pernyi forming an outgroup. Pairwise distances revealed that all of the strains of B. mori studied are closer to Chinese than to Japanese mandarina. Phylogenetic analyses based on whole mitochondrial genome sequences, the finding of a tandem triplication of a 126bp repeat element only in Japanese mandarina, and chromosome number variation in B. mandarina suggest that B. mori must have shared its recent common ancestor with Chinese mandarina. Another wild species of the Bombycidae family, Theophila religiosa, whose phylogenetic status was not clear, clustered together with the other bombycid moths in the study. Analysis of the interspecific hybrid, A. proylei gave evidence for paternal inheritance of mitochondrial DNA.     

中国淡水三角涡虫(Dugesia sp)的染色体研究(Ⅰ)

利用空气干燥法对不同产地淡水三角涡虫的染色体进行了研究。核型分析表明：河南淇县鱼泉三角涡虫(Dugesia sp)和浙江杭州龙井三角涡虫(Dugesia sp)体细胞中有16条染色体,为二倍体,核型公式为2n=2x=16=16m,均为具中部着丝粒染色体;河南济源不老泉三角涡虫(Dugesia sp)有24条染色体,为三倍体,核型公式为2n=3x=24=24m,亦全部由中部着丝粒染色体组成。上述3个产地淡水三角涡虫染色体的形态较为接近。北京樱桃沟三角涡虫(Dugesia sp)的体细胞染色体数目为24,为三倍体,核型公式为2n=3x=24=22m 2sm,由中部和亚中部着丝粒染色体组成,其中第2、4号各有一条染色体属于亚中部着丝粒染色体。研究结果表明：4个产地三角涡虫的体细胞染色体数目存在较大差异,包括二倍体(2n=2x=16)和三倍体(2n=3x=24),染色体基数属于x=8类型。     

Karyologic evidence of diversification of the genus Thrichomys (Rodentia,Echimyidae)

Karyologic analysis of Thrichomys specimens from different Brazilian localities, in Pantanal, Cerrado and Caatinga biomes, shows different chromosome complements. The 2n = 34, FN = 64 karyotype is found in Mato Grosso do Sul state; the 2n = 30, FN = 54 karyotype in Bahia, Pernambuco, Piauí and Ceará states; the 2n = 30, FN = 56 karyotype in Goiás and Tocantins states, the 2n = 28, FN = 50 karyotype in Minas Gerais state, the 2n = 28, FN = 52 and 2n = 26, FN = 48 karyotypes in Bahia state. Comparisons of G-band patterns allowed the identification of homologies shared by all karyotypes and show that the two karyotypes with the lowest diploid number (2n = 26 and 2n = 28) belong to two different evolutionary lineages. The most proper names for each karyomorphic population are: Thrichomys pachyurus for 2n = 34; Thrichomys apereoides apereoides for 2n = 28, FN = 50; Thrichomys apereoides laurentius for 2n = 30, FN = 54 and Thrichomys inermis for 2n = 26. Two karyotypes (2n = 28, FN = 52 and 2n = 30, FN = 56) could not be attributed to any subspecies. These different karyomorphotypes are allopatric and/or parapatric.     

八种国产大戟属植物的核型报道

8种大戟属Euphorbia L．植物的核型分析结果表明,大戟属不同亚属的染色体基数与其形态变 异的复杂性有一定关系。地锦草亚属subgen．Chamaesyce 3个种染色体基数分别为x=8,9,11;一品红 亚属subgen．Poinsettia两个种染色体基数均为x=7,分别为四倍体和八倍体;乳浆大戟亚属subgen． Esula 3个种,染色体基数分别为x=7,10,10。根据以前学者发表的资料分析,一品红亚属和大戟亚属 Subgen. Euphorbia的染色体基数是很稳定的,分别为x=7和x=10;通奶草E．hypericifolia为x=8 的四倍体,它不仅有染色体整倍性的变异,还有异基数性的变化。结合以前学者的研究,笔者支持x= 10为大戟属的最原始基数的观点。齿裂大戟E．dentata和通奶草具不同的染色体倍性,猫眼草E． esula的细胞染色体数目观察证实了我国存在四倍体的居群,与欧洲和北美的植物构成一个典型的多倍体复合体。     

Karyotypes of eight species of Euphorbia L. (Euphorbiaceae) from China

In this paper, eight species of the genus Euphorbia L. were cytologically studied. The three species of the subgenus Chamaesyce Raf., E. hirta, E. humifusa and E. hypericifolia, had chromosome numbers of 2n = 18, 22 and 32, with their basic chromosome numbers being x = 9, 11 and 8 respectively. The two species of the subgenus Poinsettia (Grah.) House. E. dentata, with 2n=28, a tetraploid, and E. cyathophora, with 2n= 56, a octoploid, had both the basic chromosome number of x= 7. The three species of the subgenus Esula Pers, E. lathyris, E. helioscopia and E. hylonoma, had chromosome number of 2n= 20, 42 and 20, with their basic numbers being x= 10, 7 and 10 respectively. The basic chromosome number of x = 8 is new for E. hypericifolia, in which x = 7 was previously reported. This indicates that this species had both ploidy(2n = 4x = 28, 8x = 56) and dysploidy(x = 7, 8) variations. In E. dentata, there occurred also ploidy variation (2n = 2x, 4x and 8x). A tetraploid cytotype of E. esula was found in China, its diploid cytotype and hexaploid cytotype being previously reported in North America, the Iberian Peninsula and some other European areas. Based on our results and those previously reported, we support the viewpoint that x＝10 may be the original basic chromosome number of Euphorbiaand discuss the role of polyploidy and dysploidy in the speciation and evolution of this genus     

Karyotype analysis in Brachiaria (Poaceae) species

This is the first karyotype characterization of Brachiaria species. Twelve accessions belonging to five species were analysed. The basic chromosome number was x = 9 and 7, the same reported for the tribe Paniceae. Variations in the chromosome number were observed in B. decumbens (2n = 18; 36) and B. humidicola (2n = 36; 42; 54). Chromosome numbers of 2n = 18 in B. ruziziensis and 2n = 36 in B. brizantha and B. jubata were recorded. Inter- and intraspecific karyotype differentiation of the accessions analysed was facilitated by variations in karyotypic symmetry. The karyotypes were generally considered symmetrical, with a tendency to asymmetry in the direction of the polyploids. It is suggested that addition, deletions and mainly polyploidy have been the most direct causes involved in the chromosome evolution of this genus.     

Chromosome relationships in three representatives of the genusHolochilus (Rodentia,Cricetidae) from Brazil

The G- and C-banded karyotype ofHolochilus brasiliensis collected in central Brazil (2n=55, AN=56, acrocentric X and Y) can be regarded as the most representative of the ancestral form of the genus.H. magnus (2n=52, AN=58, acrocentric X and Y) andH. brasiliensis vulpinus (2n=40, AN=56), both living in southern Brazil, would be in different phases of chromosome number reduction due to centric fusions.H. magnus, in addition, shows an X of variable morphology and a metacentric Y. This fact, coupled with its distinct morphology and restricted distribution, suggests that it may represent a distinct trend in the genus' main evolutionary line.     

A karyological analysis of the artificial hybridization between Clarias gariepinus (Burchell, 1822) and Heterobranchus longifilis Valenciennes, 1840 (Pisces; Clariidae)

A karyological analysis of an artificial hybridization (reciprocal crosses) between two African clariid catfish, Clarias gariepinus (Burchell, 1822) and Heterobranchus longifilis Valenciennes, 1840, was performed. C. gariepinus has a standard karyotype of 2 n = 56, while H. longifilis has 2 n = 52. The hybrids revealed an intermediate karyotype (2 n = 54), and it appears as if they have totalized the haploid chromosome number of both parental species, excluding gynogenesis or androgenesis. The hybrid karyotype is considered as aneuploid, although the hybrids proved to be fertile. No variation was found in the hybrids karyotypes.     

Chromosome numbers within the genusBolboschoenus in Central Europe

Two chromosome numbers n=54, n=55 were found inBolboschoenus plants studied from Central Europe (Czech Republic, Slovakia, Hungary, Poland) and coastal regions of Europe (the Netherlands, Sweden). The number n=55 is typical forB. maritimus subsp.maritimus with narrow fruits and mostly also forB. maritimus subsp.compactus; the number n=54 characterizesB. planiculmis auct. The morphological type ofB. maritimus subsp.maritimus with wide fruits represents a stable taxon occurring in freshwater habitats throughout Europe. Its variation in chromosome numbers (both n=54, n=55) indicates a possible hybrid origin, probably resulting from hybridization betweenB. maritimus subsp.maritimus with narrow fruits andB. planiculmis auct. Spontaneous hybridization betweenBolboschoenus taxa in the regions with mixed populations may explain the origin of the intermediate morphological and anatomical characters of plants from some localities and the deviations in chromosome numbers.     

<Emphasis Type="Italic">Ctenomys lami</Emphasis>: The highest chromosome variability in<Emphasis Type="Italic">Ctenomys</Emphasis> (Rodentia,Ctenomyidae) due to a centric fusion/fission and pericentric inversion system

Ctenomys lami Freitas, 2001 is an endemic species of rodent inhabiting the Coastal Plain of southern Brazil, along a narrow line of old dunes formed in the Pleistocene. This species has five different diploid numbers (2n=54, 55a, 55b, 56a, 56b, 57 and 58) and ten different autosomal fundamental numbers (FNa=74, 75, 76, 77, 78, 79, 80, 81, 82, and 84). In a sample of 102 specimens, the combined 2n and FNa formed 26 different karyotypes. The diploid number variation was due to Robertsonian rearrangements that occur in pairs 1 and 2, and the variation of NFas was due to pericentric inversions. The distribution of diploid number variation along the 78 km line of collection sites reveals four population blocks: block A with 2n=54, 55a, and 56a; block B with 2n=57 and 58; block C with 2n=54 and 55a; and block D with 2n=56b and 55b. The inversion system lacks geographic structure with a random distribution of inversions along the population blocks. A very narrow hybrid zone is hypothesized between blocks A and B. Blocks B and C are separated by a geographic barrier, and another hybrid zone is found between blocks C and D. My findings suggest that this species is undergoing a process of speciation due to geographic isolation.     

Chromosome mosaics and the recovery of the original strain from octoploidHordeum murinum

Summary Plants with chromosome numbers (2n=18–54) lower than that of the normal 2n=56 were found in the C₁ progeny of colchicine induced octoploid form ofHordeum murinum. Pollen mother cells in three octoploid plants had reduced chromosome complements at meiosis. Some of these plants had the original chromosome number of 2n=28. A number of these cells had regular bivalent pairing at first metaphase. Evidence indicated independent as well as nonindependent assortment of chromosomes at somatic reduction, the latter type resulting in ancestral type pollen mother cells (14^II) and gametes respectively. Since normal tetraploid plants were recovered in the progeny (C₂) of chromosome mosaics, ancestral type fully balanced egg cells must have also been formed. It is believed that the recovered tetraploids originated presumably from the fusion of double reduced gametes. Break-down diploids occurring occasionally among progenies of autoploids may originate from the fusion of such gametes.With 7 Figures in the TextContribution No. 107 from the Genetics and Plant Breeding Research Institute, Research Branch, Canada Department of Agriculture, Ottawa, Ontario, Canada.     

中国桤木属植物的细胞学研究(Ⅰ)

对桦木科桤木属自然分布于中国西南地区的4个种进行了细胞学研究,结果分别为:川滇桤木K(2n)=56=30m+24sm+2st;桤木K(2n)=56=38m+16sm+2M;蒙自桤木K(2n)=56=28m+26sm+2st;毛桤木K(2n)=56=42m+14sm;其中川滇桤木的核型属于2A型,其余均为2B型;上述种类染色体数目均为2n=56。4种材料的核型均为首次报道。     

A karyological study on subterranean mole rats of the Spalax leucodon Nordmann, 1840 superspecies in Turkey

The karyotypes of 179 specimens of the subterranean mole rats of the Spalax leucodon Nordmann, 1840 superspecies across 40 localities in Turkey were analysed. It was determined that S. leucodon has 2n = 56, NF = 76 in the European part of Turkey (Eceabat population) but 2n = 38, NF = 74; 2n = 50, NF = 70; 2n = 52, NF = 70; 2n = 54, NF = 72; 2n = 56, NF = 74; 2n = 58, NF = 78; 2n = 60, NF = 78; 2n = 60, NF = 80 in populations analysed from the Asian part of Turkey. According to these karyological findings the diploid chromosome numbers of 2n = 50, 2n = 52, 2n = 56 and 2n = 58 determined from the Asian part of Turkey are new fo Spalax leucodon in Turkey. Because diploid numbers of these populations were formerly found from geographically distant localities in Turkey, they were designated as 2n = 50 N, 52 N, 56 N and 58 N, to differentiate from the other forms having the same diploid chromosome numbers but different chromosome morphology.

The occurrence of so many chromosomal forms in such small areas suggested that many other new forms may be found by new studies in Turkey. The presence of 2n = 50, 56 and 58 populations in very small areas is strongly supportive of the opinion of a peripatric chromosomal evolution in Spalax.     

G-, R- and C-band patterns of goral (<Emphasis Type="Italic">Nemorhaedus caudatus</Emphasis>) and comparison to goat (<Emphasis Type="Italic">Capra hircus</Emphasis>)

The karyotype of goral (Nemorhaedus caudatus, 2n = 56) was prepared using lymphocytes and its chromosomal band patterns were compared with those of goat (Capra hircus, 2n = 60) by CBG-, GTG- and RBG-banding techniques. The standard karyotype of goral was composed of 54 acrocentric autosomes, submetacentric X chromosome, and acrocentric Y chromosome. C-bands were prominent in all autosomes except the X chromosome. G- and R-band patterns of goral were dissimilar to those of goat. The data support the idea that the goral did not originate from a common ancestor of bovid, or that there were numerous complicated chromosomal interchanges during goral evolution, in contrast to other bovids.