On the diploid state of the fish order Ostariophysi

Our previous study on the order Ostariophysi was limited to members of the family Cyprinidae, suborder Cyprinidea. It was shown that the carp and the goldfish with 104 chromosomes and a DNA value of 50% that of mammals are tetraploid, as the diploid species of this family has 50–52 chromosomes and a 25% DNA value. In order to obtain some idea as to how many changes in DNA values and chromosome complements have occurred among diploid members of Ostariophysi, the study was expanded to cover members of the families Cobitidae and Characinidae of the suborder Cyprinidea as well as members of the families Ictarulidae and Loricaridae of the suborder Siluroidea. Diploid chromosome numbers varied from 50 to 98 and DNA values from 27–51% that of mammals. Apparently, diploid members of Ostariophysi underwent extensive chromosomal rearrangements as well as steady increases in DNA contents by regional duplication of chromosomal segments.In Duarte, this work was supported by a grant CA-05138 from the Nationa Cancer Institute, U.S. Public Health Service, and in part by a research fund established in honor of General James H. Doolittle. Contribution No. 21-67, Department of Biology. In Northwood, this project was supported by the British Empire Cancer Campaign.Fellow of the Institute for Advanced Learning of the City of Hope Medical Center.     

The evidence of gene duplication for S-form NADP-linked isocitrate dehydrogenase in carp and goldfish

In the present paper, allelic polymorphism for electrophoretic variants of supernatant-form of NADP-linked isocitrate dehydrogenase (S-form IDH) was described in the surf smelt (Hypomesus pretiosus), the goldfish (Carassium auratus), and the carp (Cyprinus carpio). As in most other vertebrates including mammals, S-form IDH of the smelt was specified by a single gene locus. The goldfish and the carp, on the other hand, were endowed with two separate gene loci for S-form IDH. This apparent gene duplication was attributed to tetraploid origin of the goldfish and carp.This work was supported in part by a grant (CA 05138) from the National Cancer Institute, U.S. Public Health Service.Dr. Antonio Quiroz-Gutierrez is a postdoctorate fellow of the Institute for Biomedical Studies of the City of Hope Medical Center; he has also received support from the Ministry of Work, Mexico.     

Duplication of the autosomally inherited 6-phosphogluconate dehydrogenase gene locus in tetraploid species of cyprinid fish

Among members of the fish family Cyprinidae,a diploid—tetraploid relationship exists. The present study on electrophoretic patterns of 6-phosphogluconate dehydrogenase indicates that such diploid members as Barbus tetrazonamaintain allelic polymorphism at a single gene locus for this enzyme. Tetraploid members such as the carp and goldfish are endowed with two separate gene loci for 6-PGD. Tetraploid evolution apparently fixed two former alleles of the same locus as two separate gene loci. Furthermore, it appears that after becoming tetraploid, the carp and goldfish developed a separate regulatory mechanism for each locus; thus preferential activation of one or the other 6-PGD locus occurs in different tissues of tetraploid species. This investigation was supported in part by a grant (CA-05138) from the National Cancer Institute, U.S. Public Health Service, and in part by a research fund established in honor of General James H. Doolittle. Contribution No. 4-68, Department of Biology, City of Hope Medical Center.Dr. Bender is a recipient of International Postdoctoral Fellowship 3 F05-TW-01198-0152 from the U.S. Public Health Service.     

Microchromosomes in holocephalian,chondrostean and holostean fishes

Chondrostean and holostean fish of today are leftover relics: they share some characteristics with the venturesome crossopterygian fish, which launched the evolution of terrestrial vertebrates about 280 million years ago. The chromosome complements and DNA values of one chondrostean and two holostean species as well as one holocephalian species were studied. Their DNA values varied from 37% to 50% of that of mammals, and three of the species contained dot-like microchromosomes in their diploid complements. Their genome size and karyological characteristics are quite similar to those possessed by one group of reptiles and by avian species.In Duarte, this work was supported by a grant CA-05138 from the National Cancer Institute, U.S. Public Health Service, and in part by a grant FR 00433-01, Animal Care Grant, N.I.H. In Northwood, this project was supported by the British Empire Cancer Campaign.Fellow of the Institute for Advanced Learning of the City of Hope Medical Center.     

Close karyological kinship between the reptilian suborder serpentes and the class aves

Summary In contrast to the situation found in two classes of warm-blooded vertebrates, mammals and birds, the class Reptilia is not uniform with regard to total genetic content; rather, it contains two distinct categories. The close cytological kinship between snakes and birds was revealed. Both are almost identical in total genetic content, which is about 50 per cent that of placental mammals. Both have microchromosomes, as well as Z-chromosomes very similar in absolute size, comprising nearly 10 per cent of the homogametic haploid (AZ) set. This leads to the implication that snakes and birds originated from the same lineage, and that their Z-chromosomes have not changed substantially since the Jurassic period of the Mesozoic era, about 180 million years ago.Within the reptilian suborder Serpentes, the step-by-step differentiation from the primitive ZW pair to the grossly heteromorphic ZW pair could be observed. In the ancient family Boidae, the sex chromosomes were still homomorphic to each other. In the family Colubridae, the beginning of heteromorphism was manifested in two ways. In some species, a pericentric inversion on the W caused it to differ from the Z; in others, duplication of the W occurred. In the family Crotalidae, the W had apparently achieved its very specialized status; it was a distinctly smaller element.In Säo Paulo, this work was supported by Fundacão de Amparo a Pesquisa do Estado de São Paulo e Fundo de Pesquisas do Instituto Butantan. In Duarte, this work was supported in part by grant CA-05138-05, National Cancer Institute, U. S. Public Health Service. Contribution No. 36-64, Department of Biology, City of Hope Medical Center.     

Autosomal polymorphism due to pericentric inversions in the deer mouse (peromyscus maniculatus), and some evidence of somatic segregation

The existence of extensive autosomal polymorphism due to pericentric inversions in a colony of deer mice, Peromyscus maniculatus, has been reported (Arakaki and Sparkes, personal communication). A background of intersubspecific hybridization was suspected to have contributed to the observed polymorphism. The present study describes findings on two separate subspecies, P. m. hollisteri and P. m. bairdii. Autosomal polymorphism existed within each subspecies. In P. m. bairdii, the two polymorphic autosomal pairs were identified. In one pair, a large subterminal element was homologous to an acrocentric of comparable size, while in the other pair, a small mediocentric and an acrocentric were homologous. Among splenic cells of animals made heteromorphic for the larger of the two autosomal pairs, the tendency toward reconstitution of homomorphic cell types was observed. This was taken as evidence of somatic segregation among immunologically competent cells.Dedicated to Professor J. Seiler on the occasion of his 80th birthday.This work was supported in part by grant CA-05138 from the National Cancer Institute, U. S. Public Health Service. Contribution Number 53-65, Department of Biology, City of Hope Medical Center.     

Allelic inhibition at the autosomally inherited gene locus for liver alcohol dehydrogenase in chicken-quail hybrids

At the gene locus for liver alcohol dehydrogenase (ADH) of the Japanese quail, three alleles which give electrophoretic variants, A, B, and C, exist. This enzyme is autosomally inherited. Allelic polymorphism was not observed in the chicken, but the wild-type ADH of the chicken can readily be distinguished from A, B, and C of the quail by starch gel electrophoresis. In the development of both species, ADH activity reached a near adult level at about the nineteenth day (a few days after hatching in the quail and a few days before hatching in the chicken). Chicken-quail hybrids at the day of hatching (nineteenth day) revealed the presence of maternally derived quail ADH only, and their ADH activities were about half that of both parental species. Those hybrids which received either A or C allele from the mother quail showed three bands of ADH at the third day after hatching. The chicken and quail alleles began to function in synchronous harmony. One 3-day-old and two adult hybrids which received B allele from the quail, however, still revealed complete absence of the paternally derived chicken ADH.This work was supported in part by a grant (CA-05138) from the National Cancer Institute, U.S. Public Health Service, and in part by a research fund established in honor of General James H. Doolittle. Contribution No. 20-67, Department of Biology, City of Hope Medical Center.Dr. Eduardo Castro-Sierra is a fellow of the Institute for Advanced Learning of the City of Hope Medical Center.     

Polyploidisierung in der Fischfamilie Cyprinidae,Ordnung Cypriniformes

Zusammenfassung Die Fischfamilie der Cypriniden zeigt nach Chromosomenzahl und DNS-Gehalt/Zelle ein Diploid-Tetraploid-Verhältnis. Eine Duplikation der MDH-Isoenzyme läßt sich in der tetraploiden Gruppe nachweisen. Nur der tetraploide Cyprinus carpio hat ein Muster entsprechend der diploiden Gruppe.

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Polyploidization in the fish family Cyprinidae Duplication of the gene loci for NAD-dependent malate dehydrogenase

Summary The fish family Cyprinidae can be classified into two groups, a diploid one and a tetraploid one, as shown by chromosome analysis and measurements of the DNA content per cell. Duplications of the MDH isoenzymes can be demonstrated in the tetraploid group with one exception: Cyprinus carpio reveals the diploid pattern.

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Direktor: Prof. Dr. Dr. H. Ritter

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Cytological study of Searle's X-autosome translocation in Mus musculus

Summary Genetic studies on Searle'S X-autosome translocation of Mus musculus have shown that a segment of the X carrying the loci for two sex-linked genes, Ta and Blo, has been translocated to an autosome. Females heterozygous for Tabby normally have variegated hair structures, with transverse Ta bands visible against a background of wildtype fur. When the wild-type allele of Ta or Ta itself was located on the translocated X, it was capable of full expression in heterozygous females. Thus, the Tx+/+Ta genotype was completely wild-type, while TxTa/++ genotype showed the phenotype of the Ta hemizygote (Searle 1962; Lyon, Searle, Ford, and Ohno 1964).The present study on meiotic figures of the male carrying this translocation revealed that the reciprocal translocation was one-sided in favor of the autosome. While the a^t became nearly twice the size of the original autosome, the X^t became almost half the size of the Xⁿ. The study of somatic prophase figures of the female carrying this translocation further showed that the Xⁿ manifested positive heteropycnosis in 90 per cent of the cells. Thus, genes on the normal X should be inactivated in most somatic cells of the female, allowing full expression to the genes on the translocated X.Contribution No. 30–64, Department of Biology, City of Hope Medical Center. This work was supported in part by grant CA-05138-05 from the National Cancer Institute, U.S. Public Health Service.With a great sense of honor, we contribute this paper to the special issue of Chromosoma dedicated to Professor Hans Bauer on the occasion of his sixtieth birthday.This study provides a cytological foundation for the previouslydescribed genetic findings on Searle'S X-autosome translocation in the mouse.     

Polyploidization in the fish family Cyprinidae,order Cypriniformes

Summary According to their chromosome sets, various members of the fish family Cyprinidae can be classified into two groups, one of which has about 50 chromosomes, the other about 100. In the species endowed with 50 chromosomes, the DNA content per cell ranges from 20 to 38% of that of mammals; this variability is attributed to regionally confined duplications. In the group having about 100 chromosomes, the DNA values comprise about 50% of that of mammals; these species apparently are tetraploid as compared to the former group.Supported by the Deutsche Forschungsgemeinschaft.Supported by a grant from the British Empire Cancer Campaign for Research.Supported in part by a grant from the U. S. Public Health Service (CA 05138).     

The chromosomes of Dall's porpoise,Phocoenoides dallii (True), with remarks on the phylogenetic relation of the Cetacea

Summary The chromosome complex of Dall's porpoise Phocoenoides dallii (True), a species of the Delphinidae (Cetacea), was investigated in male germ cells during the course of spermatogenesis. The diploid number of chromosomes in this species was 44 in the spermatogonia and the haploid number was 22 in both primary and secondary spermatocytes. Sex chromosomes of the typical XY-type were found to occur in this species. The X element is represented by one of the medium-sized chromosomes of rod-type characterized by a globular body located at its inner extremity, while the Y is very minute, attaining a size approximately one third that of the smallest autosome.Morphological analysis of the chromosomes shows the chromosome complement of this species to be strikingly characterized by the prevalence of medium-sized elements having subterminal fibre attachments. Comparison of the chromosomes with those of related forms of mammals shows that the chromosome constitution of this species approximates closely that of the pig. The question of the phylogenetical affinity of the Cetacea was discussed on the basis of the karyological evidence here reported.Contribution No. 213 form the Zoological Institute, Faculty of Science, Hokkaido University, Sapporo, Japan.     

Further studies on polyploid amphibians (Ceratophrydidawe)

Odontophrynus cultripes Reinhardt and Lutken, 1862 has 22 chromosomes in its diploid complement. Spermatocyte I contained 11 ring bivalents and metaphase II exhibited 11 chromosomes. Odontophrynus americanus (Duméril and Bibron) 1882 has 44 chromosomes in somatic as well as germ cells, these can be sorted into 11 groups of homologues. Metaphase I showed varying numbers of quadrivalents and metaphase II exhibited 22 dyads. Ceratophrys dorsata Wied., 1824 has 104 chromosomes in somatic and germ cells; these 104 chromosomes comprise 8 each of 13 kinds of homologues. The spermatocyte I contained ring octovalents and other multivalents, and metaphase II 52 chromosomes. The above findings indicate that evolution by polyploidization occurred in South American frogs belonging to the family Ceratophrydidae.This work was supported by a grant (GM-14577-01) from the National Institute of General Medical Sciences U. S. Public Health Service.     

On the karyotype of the tahr Hemitragus jemlahicus and the Y-chromosome of goats and sheep

Somatic chromosomes of a female and male Himalayan thar, Hemitragus jemlahicus (H. Smith) are described. The diploid number is 48, there are 12 atelocentric and 34 telocentric autosomes in both sexes, the X-chromosome is meta- or submetacentric. The morphological appearance of the Y-chromosome is compared with that of other bovid species including recent observations on the goat Capra hircus.Supported by Contract No. PH 43-63-13 between the National Cancer Institute of the National Institutes of Health and the University of California.     

Comparative cytological study of Phasianus colchicus,Meleagris gallopavo,and Gallus domesticus

Summary Since viable intergeneric hybrids between the chicken (Gallus domesticus) and the pheasant (Phasianus colchicus) have been reported, as well as interfamilial hybrids between the chicken and the turkey (Meleagris gallopavo), the chromosome complements of the pheasant and the turkey were compared with that of the chicken. In these three species belonging to the order Galli, the Z-chromosomes appeared to be identical, while the autosomal complements of the pheasant and the turkey differed radically from that of the chicken. It was noted with some surprise that the pheasant of the family Phasianidae and the turkey of the family Meleagridae have very similar chromosome complements, at least so far as gross morphology of somatic metaphase chromosomes is concerned.This work was supported in part by grant C-5138 from the National Cancer Institute, U.S. Public Health Service, and grant C-17601 from the National Science Foundation.The authors gratefully acknowledge the generosity of Rea's Game Birds, Paramount, California, who supplied the pheasant chicks, and the McPherin Hatcheries, Sunnymead, California, who furnished the turkey chicks. The authors also appreciate the editorial assistance of'Patricia A. Ray.     

Expression of α-d-mannosidase in man-hamster somatic cell hybrids

Two types of -d-mannosidase isozymes are present in human white blood cells, human diploid fibroblasts, and HeLa cells. One of these (the S isozyme) constitutes the major -d-mannosidase of the human cells, has a pH optimum of 4.4, and is associated with lysosomes. The other (the F isozyme) is most active at pH 6, is acid labile, and is located in the soluble portion of the cytoplasm. The expression of human lysosomal -d-mannosidase was examined in man-hamster hybrid clones, and was found to be concordant with that of phosphohexose isomerase in 54 of 55 primary clones. A locus specifying human lysosomal -d-mannosidase has therefore been assigned to chromosome 19.This work was supported by NIH Grants HD 04807-07 and HD 06285-04 and by a research grant (5 PO 1 HB 06276-04) to the Mental Retardation Research Center of the Children's Hospital Medical Center, Boston, Massachusetts, from the NIH.     

DNS-Reduplikationsmuster bei den Riesen-Geschlechtschromosomen von Microtus agrestis

Summary The X-chromosome of Microtus agrestis (2 n=50), comprising about 20 per cent of the homogametic haploid (AX) set, is the largest X-chromosome reported so far in placental mammals. It is four times the size of the X possessed by a great majority of mammals, including the human and the mouse. The Y-chromosome is also enormous, almost three-fifths the size of the X.The present cytological study concerned somatic interphase and prophase nuclei as well as the DNA replication pattern revealed by labeling cultured bone marrow cells with tritiated thymidine.In the male nuclus, the entire Y as well as the long arm and proximal part of the short arm of the X are late labeling and positively heteropycnotic. In the female, one entire X is late labeling and condensed, while the other X shows the same labeling pattern as the male X. Thus the pattern of inactivation of this huge X is such that in each diploid nucleus of both sexes, the amount of euchromatic X-chromosome material is the same as it is in the majority of placental mammals in which the X comprises about five per cent of the haploid set.

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Wesentliche Teile der vorliegenden Arbeit werden von Gertraud Flinspach als Dissertation der Medizinischen Fakultät der Universität Freiburg i.Br. vorgelegt.     

Chromosome studies of the cultured cells of two species of side-necked turtles (Podocnemis unifilis and P. expansa)

The diploid chromosome number of two species of sidenecked turtles (Podocnemis unifilis and P. expansa) was found to be 28. Under normal culture conditions, half of the chromosomes of P. unifilis consistently show one or two clear secondary constrictions. In P. expansa, the incidence of cells with chromosomes bearing secondary constrictions and the number of such chromosomes per cell are less. Cells of two P. unifilis cell lines maintained a normal diploid karyotype for two years following their initiation. Then one cell line shifted to a hypodiploid mode of 27 and half of the population of the second line became pseudodiploid, the other half remaining diploid. A single six-month-old cell line from P. expansa has maintained a normal diploid mode through 10 passages.Supported in part by grant-CA 08737 from the National Cancer Institute.     

Molecular phylogeny and biogeography of African diploid barbs, ‘Barbus’, and allies in Africa and Asia (Teleostei: Cypriniformes)

African diploid barbs (‘Barbus’, Clypeobarbus, Barboides, etc.) are a group of small cyprinids with a body size less than 20 cm and widely distributed in drainages across Africa. These species constitute a significant component of African freshwater fish fauna. This study is the first to focus on the molecular systematics and biogeography of African diploid barbs ‘Barbus’ and its African and Asian allies using both mitochondrial and nuclear genes. We test for monophyly of groups, determine interspecific relationships and estimate the time of divergence of 52 species of ‘Barbus’ and allies using two mitochondrial and four nuclear genes. Resulting trees demonstrate that ‘Barbus’ and allies (Systomus, Barboides, Clypeobarbus and African tetraploid barbs) form a strongly supported clade; however, ‘Barbus’ is not resolved as monophyletic. Divergence time analyses identify the separation between Systomus and ‘Barbus’ plus African allies may have occurred around 26 MYA. In addition to the phylogenetic results, these findings highlight the need for more thorough taxonomic and systematic studies on ‘Barbus’ and allies using morphological and additional molecular data and greater taxon sampling, including the type species of the genus Enteromius, ‘Barbus’ potamogalis.     

Über zwei diploide,in Südwest-Anatolien endemische Arten aus dem Komplex derVeronica cymbalaria (Scrophulariaceae)

Veronica lycica Lehm. is a distinct, diploid member of theVeronica cymbalaria group, endemic in Lycia (S.W. Anatolia). Closely related is the newV. stamatiadae M. Fischer etW. Greuter which is also diploid and seems to be restricted to the small Greek island Ro close to the South coast of Lycia. The chromosome numbers for both species are reported for the first time (2n = 18).

Untersuchungen über den PolyploidkomplexVeronica cymbalaria agg., II. — Der erste Beitrag dieser Serie:Fischer (1975).     

Systematik,Verbreitung und Karyologie derFestuca violacea-Gruppe (Poaceae) im Ostalpenraum

The biosystematics of theFestuca violacea group (F. rubra subsp.violacea sensuHackel) in the Eastern Alps is studied.F. picturata Pils (=F. picta Kit. exSchultes nonJ. F. Gmelin) is confirmed as diploid, whereas the chromosome numbers forF. nitida (diploid),F. puccinellii (hexaploid), andF. norica (diploid, tetraploid and hexaploid) are reported for the first time. Details of morphology, leaf anatomy, and epidermal structures now allow a better separation of these species; new maps illustrate their distribution. Karyological, chorological, morphological, and anatomical data form the basis for a discussion of the phylogeny of theF. violacea group and its position withinF. rubra s. latiss.