ZIB

1

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DNA replication sequence of human chromosomes in blood cultures (1965)

Bianchi, Néstor O. ; Bianchi, Martha S. A.

Springer

Chromosoma 17 (1965), S. 273-290

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The pattern of labelling over the chromosomes, the chronology of chromosome duplication and the duration of the S and G 2 periods in the leukocytes from 6 normal females and 5 normal males, have been studied by using a combination of pulse and continuous tregtments with thymidine-H3. According to the criteria used to analyse the results it is suggested that the S period begins 15 to 20 hours and finishes 5 to 3 hours before the cells reach the metaphase stage. The S period could be subdivided into the four phases S1 to S4. The first chromosomes to replicate were Nos. 1, 3, 5 and X followed by the Nos. 2, 4 and several chromosomes of groups 6–12, 13–15 and 19–20. Later the pairs 16, 17, 18 and the chromosomes of group 21–22 replicated. Chromosome Y in the male was the last to replicate, beginning its duplication when all the other chromosomes had reached the intermediate S stage. The earliest chromosomes to finish the duplication were Nos. 19, 20 and 21 followed by Nos. 16, 17, 18, 22 and the chromosomes of group 13–15. Afterward and at about the same time the replication of pairs 2, 4, 6, 8, the X and Y chromosomes in the male and one X chromosome in the female concluded. The other X chromosome in the female was the last to end its duplication appearing totally labelled until the final stage of the S period. Replication of the long and medium size chromosomes begins at localised regions, then extends over the total length of the chromosome and at the end of the S stage takes place only in small zones different from those replicating early. Asynchrony between homologous chromosomes was observed at the beginning and at the end of the S period.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00283604

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2

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Shifting in the duplication time of sex chromosomes in the rat (1966)

Bianchi, Nestor O. ; Bianchi, Martha S. A.

Springer

Chromosoma 19 (1966), S. 286-299

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Duplication of sex chromosomes was studied in bone marrow cells from adult rats and in short-term cultures of rat fetus cells. Results obtained indicate that: a) G2 period takes 4 hours in cells from fetuses and 3 hours in bone marrow cells, b) S period lasts 7 hours in bone marrow cells and about 20 hours in short-term cultured cells from fetuses, c) In cells from female fetuses one X-chromosome is the last to start DNA synthesis and also one of the X's is the last to end replication, d) In cells from female adult rats both X-chromosomes start and finish DNA synthesis early, e) In both line of cells the Y-chromosome was the last to begin and the last to finish DNA synthesis. — Causes which can account for the differences between the two line of cells are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00326919

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3

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Chromosome replication in four species of snakes (1969)

Bianchi, N. O. ; Beçak, W. ; Bianchi, Martha S. A. ; [et al.]

Springer

Chromosoma 26 (1969), S. 188-200

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Chromosome measurements were performed in four species of snakes related at the level of suborder (Boa constrictor amarali, Xenodon merremii, Philodryas patagoniensis, Bothrops jararaca). The data obtained point out that pairs 1–3 were common to the four snakes and probably inherited from the ancestor of the suborder Serpentes. Pairs 5–8-W were characteristic of each snake; hence, it is possible to assume that they followed evolving after the appearing of the suborder Serpentes. Z-chromosomes were metacentric in B. constrictor amarali, X. merremii and B. jararaca and slightly submetacentric in P. patagoniensis. Area of these chromosomes varied from 8.6–10.6% of the haploid set in the four species studied.-The study of chromosome replication at the end of the S period points out that “shared chromosomes” have similar patterns of labeling. Therefore, it is proposed that the distribution of late replicating regions and heterochromatin in the genome is phylogenetically transmitted and probably genetically determined.—The analysis of the ending-sequence of chromosome replication shows that sex chromosomes finish earlier than macroautosomes. It is concluded that snakes probably have no mechanism of sex chromosome heterochromatinization in either sex. The absence of late replicating Z-chromosome in the males, favours the hypothesis that no mechanism of sex dosage compensation is acting in the suborder Serpentes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00326454

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4

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Y chromosome replication and chromosome arrangement in germ line cells and sperm of the rat (1969)

Bianchi, N. O. ; Bianchi, Martha S.

Springer

Chromosoma 28 (1969), S. 370-378

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The chronology of Y chromosome replication in meiosis of male adult rats was investigated. 3HTdR was injected into the testes and animals were sacrificed at 2-hour intervals from 2 to 24 hour after the injection; and at 2-day intervals from 2 to 64 days after the injection. Autoradiograms from germ line cell spreads were prepared. The study of spermatogonial metaphases showed that the Y chromosome is the last to begin and end DNA synthesis. Consequently, by detecting such a pattern of replication it was possible to trace the asynchronous Y from spermatogonia to sperm. Assuming that Y chromosomes are early replicating in preimplantation embryos of mammals it is proposed that Y chromosome of rats shift from late to early replicating in the first divisions of the fertilized egg. Moreover, the analysis of the patterns of sperm labeling allow one to infer that chromosomes are end-to-end associated in sperm nuclei, and that the Y chromosome and perhaps autosomes as well occupy a constant position in sperm of rats.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00284933

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5

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The action of ultraviolet light on the patterns of banding induced by restriction endonucleases in human chromosomes (1984)

Bianchi, Nestor O. ; Bianchi, Martha S. ; Cleaver, James E.

Springer

Chromosoma 90 (1984), S. 133-138

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The irradiation of metaphase spreads of human cells with ultraviolet (UV) light blocked the chromosome banding induced by Alu I, Mbo I, Dde I, Hinf I, Hae III, and Rsa I restriction endonucleases. At 13 J/m2 there was moderate inhibition of the nuclease action, which was detected as an increase in the stain intensity of chromosomes (Alu I, Mbo I, Dde I, Rsa I) or as a change in the banding pattern (Hinf I, Hae III). At 70–300 J/m2 the UV-induced blockage was complete; the chromosomes showed no banding, and stain intensity was similar to that of control slides incubated with buffer. — BrdU substitution and the irradiation of BrdU-substituted chromosomes with 313 nm light at 1800–15000 J/m2 did not block the action of restriction nucleases. On the other hand, UV irradiation of BrdU-substituted chromosomes inhibited the action of restriction enzymes at the same fluences that blocked the nuclease action in unsubstituted chromosomes. The data indicate that DNA-protein crosslinkage is the factor inhibiting DNA extraction and chromosome banding.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00292450

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6

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Chromosome replication in cells of a continuous line derived fromAedes albopictus (Skuse) larvae (1972)

Bianchi, N. O. ; Bianchi, Martha S. ; Sweet, B. H.

Springer

Cellular and molecular life sciences 28 (1972), S. 1495-1496

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Resumen El análisis del cuadro de duplicación cromosómica en una linea celular derivada del mosquitoAedes albopictus (Skuse) reveló un período G2 de 3 horas y la presencia de varias areas de duplicación tardía. La mayor parte de estas aread correspondieron a la heterocromatina constitutiva. Sin embargo, la porción distal de ambos brazos en los pares 2 y 3 mostraron duplicación tardía no asociada con la heterocromatina constitutiva. Se sugiere que estas regiones corresponden al a heterocromatina facultative.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01957876

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7

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A technique for chromosome analysis of small rodents without sacrificing the animal (1975)

Bianchi, Martha S. ; Merani, Susana ; Bianchi, N. O.

Springer

Cellular and molecular life sciences 31 (1975), S. 698-699

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Resumen Se describe una técnica que hace posible el estudio cromosómico de pequeños roedores sin sacrificar el animal. El método consiste en: a) se introduce una microcámara de difusión cargada con un antígeno en la cavidad abdominal del animal a estudiar, b) se extrae la microcámara cuando está rodeada por una población de células inmunocompetentes en división activa (el animal se colchiniza 3 h antes de sacar la microcámara), c) se colectan las células adheridas a la cámara mediante tratamiento enzimático con Pronasa, d) se preparan las metafases para estudio cromosómico, mediante shock hipotónico, fijación y preparación de extendidos por secado al aire.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01944637

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8

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Kinetics of division in PHA-stimulated pig lymphocytes (1978)

Lezana, Esther A. ; Bianchi, Martha S. ; Bianchi, N. O.

Springer

Cellular and molecular life sciences 34 (1978), S. 30-31

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Our results indicate that pig lymphocytes in culture complete their 1st division at 24 h. At 36 h there are 9% of cells in 2nd division. 3rd mitosis appears at 48 h; and at 72 h there are cells engaged in the 4th division.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01921882

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9

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Technique for Investigation of Sex Chromatin in Amniotic Membrane of Rat Foetuses (1966)

BIANCHI, NÉSTOR O. ; DE BIANCHI, MARTHA S. A.

[s.l.] : Nature Publishing Group

Nature 212 (1966), S. 1593-1593

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The following procedure was adopted. The uterus wall was cut and foetuses were removed together with their enveloping membranes; the chorion was peeled off and the amnion was opened and separated from the foetus by cutting the umbilical cord; the amnion was immersed immediately in 50 per cent ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/2121593a0

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10

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Characterization and sequencing of the sex determining region Y gene (Sry) in Akodon (Cricetidae) species with sex reversed females (1993)

Bianchi, Néstor O. ; Bianchi, Martha S. ; Bailliet, Graciela ; [et al.]

Springer

Chromosoma 102 (1993), S. 389-395

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The sex determining region Y gene (Sry) is the strongest candidate to be the testis determining factor gene (Tdy). Several South-American Akodon species have two varieties of Y chromosome. One type transmitted via male specimens induces testis development. The second Y variety fails to induce male gonadal differentiation and gives rise to fully fertile XY females. These variant females test positive for Sry. Moreover, sequencing of a partial open reading frame of the conserved region of Sry from males and XY females shows no sequence difference. Sry is two- to sixfold amplified in six of eight akodont species tested. Since Sry amplification was found in species having and not having XY females, amplification apparently does not in itself play a primary role in the origin of sex reversal. The development of fully fertile ovaries in XY Akodon females is not due to a deletion of Sry or to mutations in the Sry segment analyzed in this report. Sex reversal may be due to abnormal expression of this gene at the stage of gonadal differentiation. Alternatively, other genes in the sex-determining pathway may be involved. Several of the Akodon species showing Sry amplification also have amplification of Zfy, which may map to the same region of the Akodon Y chromosome.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00360403

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