Your search keyword '"C. MacGregor"' showing total 26 results

1. Ordered arrangement and rearrangement of chromosomes during spermatogenesis in two species of planarians (Plathelminthes)

Author

Boris Joffe, Herbert C. Macgregor, and Irina Solovei

Subjects

Male, Spermiogenesis, Biology, DNA, Ribosomal, Chromosomes, Species Specificity, Chromosome regions, RNA, Ribosomal, 28S, Genetics, medicine, Animals, Spermatogenesis, In Situ Hybridization, Fluorescence, Genetics (clinical), Repetitive Sequences, Nucleic Acid, Cell Nucleus, Gene Rearrangement, Spermatid, medicine.diagnostic_test, urogenital system, RNA, Ribosomal, 5S, Chromosome Mapping, Chromosome, Karyotype, Planarians, Telomere, Spermatids, Spermatozoa, Sperm, Cell biology, medicine.anatomical_structure, Karyotyping, Nucleus, Fluorescence in situ hybridization

Abstract

The pattern of distribution of telomeric DNA (TTAGGG), 28S rDNA, and 5S rDNA has been studied using fluorescence in situ hybridization (FISH) and primed in situ labelling during spermatogenesis and sperm formation in the filiform spermatozoa of two species of planarians, Dendrocoelum lacteum and Polycelis tenuis (Turbellaria, Plathelminthes). In both species, the positions of FISH signals found with each probe sequence are constant from cell to cell in the nuclei of mature sperm. Chromosome regions containing 5S and 28S rDNA genes are gathered in distinct bundles of spiral form. In early spermatids with roundish nuclei, the sites of a given sequence on different chromosomes remain separate. Centromeres (marked by 5S rDNA) gather into a single cluster in the central region of the slightly elongated sperm nucleus. During spermatid maturation, this cluster migrates to the distal pole of the nucleus. In Polycelis, telomeric sites gather into three distinct clusters at both ends and in the middle of the moderately elongated nucleus. These clusters retain their relative positions as the spermatid matures. All the chromosome ends bearing 28S rDNA gather only into the proximal cluster. Our data suggest that structures in the nucleus selectively recognise chromosome regions containing specific DNA sequences, which helps these regions to find their regular places in the mature sperm nucleus and causes clustering of the sites of these sequences located on different chromosomes. This hypothesis is supported by observations on elongated sperm of other animals in which a correlation exists between ordered arrangement of chromosomes in the mature sperm nucleus and clustering of sites of the same sequence from different chromosomes during spermiogenesis.

Published

1998

2. Characterisation of a short, highly repeated and centromerically localised DNA sequence in crested and marbled newts of the genus Triturus

Author

Herbert C. Macgregor, Lesley Barnett, and Jennifer Varley

Subjects

Satellite DNA, Centromere, Molecular Sequence Data, Restriction Mapping, DNA, Satellite, DNA sequencing, HaeIII, Gene Frequency, Genetics, medicine, Consensus sequence, Animals, Cloning, Molecular, Repeated sequence, Genetics (clinical), Repetitive Sequences, Nucleic Acid, Genomic Library, biology, Base Sequence, Nucleic acid sequence, Genetic Variation, biology.organism_classification, Triturus, Restriction enzyme, medicine.drug

Abstract

A 32–33 bp highly repeated DNA sequence, TkS1, has been isolated from genomic DNA of the newt Triturus karelini digested with the restriction endonucleases HaeIII or AluI. TkS1 is known to be localised in the centromeric heterochromatin of all the chromosomes in T. karelini and the related species T. cristatus TkS1 has been shown to be present in varying amounts in the genomic DNA of a range of species of Triturus, including representatives of the two main subgenera Triturus and Palaeotriton. A programme of sequencing of monomers, dimers and trimers of TkS1 was carried out in order to determine the level of conservation of the sequence within and between species of Triturus. Altogether 204 monomer (32/33 bp) clones were made of TkS1 from three individuals of T. karelini, and one individual each of T. cristatus, T. carnifex, T. dobrogicus and T. marmoratus, all members of the subgenus Triturus and the cristatus species group. A number of dimer (64 bp) and trimer (96 bp) clones were also made from DNA of a single specimen of T. karelini digested with HaeIII or AluI. Three distinct types of TkS1 were identified in all species examined, except for T. marmoratus where only two of the types were found. The types were distinguished on the basis of certain recurring divergent patterns in monomers sequenced from T. karelini. Type 1 is mainly characterised by the presence of an AluI site at positions 24–27 and type 3 mainly by the presence of an additional base (C) at position 14. Type 2 normally lacks the AluI site and the C at position 14, as well as having a number of other distinguishing features. TkS1 and its three types have remained remarkably constant in sequence since before the divergence of T. marmoratus from other species in the cristatus species group, about 10 million years ago. Examination of all 204 monomer clones and comparison with consensus sequences for the three types shows less than 5% divergence at any one position in the sequence. There is good evidence from examination of dimer and trimer clones of TkS1 that the different types are intermingled with each other, and all three types are likely to be present on all chromosomes. Dimeric (64 bp) TkS1 clones constructed from AluI fragments of T. karelini DNA show evidence of a trimeric (96 bp) “supertype” with the pattern type 1-type 3-type 1 that is much more common than would be expected on a random basis. The properties of TkS1 are discussed in relation to models for the involvement of highly repeated satellite DNA in chromosomal growth and evolution.

Published

1990

3. Heteromorphism for chromosome 1, a requirement for normal development in crested newts

Author

Herbert C. Macgregor and Heather A. Horner

Subjects

Genetics, Lampbrush chromosome, Zoology, Chromosome, Embryo, Biology, Long arm, Blastula, Developmental biology, Genetics (clinical), Giemsa stain

Abstract

In all adult males and females of T. cristatus most of the long arm of chromosome 1 is achiasmate and heteromorphic with respect to Giemsa C-staining pattern. This heteromorphism correlates well with the heteromorphism seen by previous investigators on the lampbrush chromosomes of adult females. The heteromorphism has nothing to do with sex determination. All those fertile eggs of T. cristatus that develop normally beyond blastula are capable of development through to late tail-bud stage, but 50% of them arrest at late tail-bud and ultimately die. Homomorphism for the long arm of chromosome 1 can only be found in those embryos that arrest at late tailbud. The same findings apply to T. marmoratus, which also shows heteromorphism for chromosome 1, but not to T. alpestris, which has homomorphic chromosomes 1 and a potential 100% developmental success rate.

Published

1980

4. Chromosome banding in Amphibia

Author

Michael Schmid, S. Sims, Thomas Haaf, and Herbert C. Macgregor

Subjects

Genetics, medicine.medical_specialty, biology, Nucleolus, Cytogenetics, Karyotype, biology.organism_classification, Gastrotheca riobambae, 28S ribosomal RNA, medicine, Nucleolus organizer region, Gene, Ribosomal DNA, Genetics (clinical)

Published

1986

5. The arrangement and transcription of ?middle repetitive? DNA sequences on lampbrush chromosomes of Triturus

Author

Christine Andrews and Herbert C. Macgregor

Subjects

Lampbrush chromosome, Meiosis, Labelling, Genetics, Chromosome, Biology, Repeated sequence, Molecular biology, Mitosis, Genetics (clinical), Bivalent (genetics), Chromosomal crossover

Abstract

Nick-translated 3H middle repetitive DNA (C0t 0.2–50) from Triturus cristatus carnifex was in situ hybridized to RNA transcripts on the loops of lampbrush chromosomes and to the denatured DNA in mitotic chromosomes from intestinal epithelium of the same species. In autoradiographs of lampbrush chromosomes only 20–40 pairs of loops were distinctly and in some cases heavily labelled after exposures of 4–14 d. Most of these fast labelling loops were located on the heteromorphic arms of bivalent I. After longer exposures, certain other loops appeared labelled, but few were so heavily labelled as those on chromosome I. There were fast labelling loops in positions corresponding to those of the nucleolus organizers on chromosomes VI and IX. The pattern of distribution of fast labelling loops was different on each of the heteromorphic arms of bivalent I. Some fast labelling loops were present on chromosome I of larger oocytes but not evident in smaller oocytes from the same animal. Some of the fast labelling loops were labelled only over part of their lengths. Partial labelling was seen over thick and thin halves of asymmetrical polarized loops and over short intermediate segments of some loops. — Autoradiographs of mitotic chromosomes showed patchy labelling of all chromosomes, but no distinctive pattern of labelling on chromosomes I. — These observations are discussed in relation to current ideas about the organization of DNA sequences in chromomeres and loops of lampbrush chromosomes, and it is proposed that the abundance of fast labelling loops on the heteromorphic arms of bivalent I may somehow be related to the absence of meiotic crossing over in these regions.

Published

1977

6. Chromosomes, DNA sequences, and evolution in salamanders of the genus Plethodon

Author

Shigeki Mizuno and Herbert C. Macgregor

Subjects

Photomicrography, medicine.medical_specialty, Erythrocytes, Repetitive Sequences, DNA, Single-Stranded, Urodela, Biology, Nucleic Acid Denaturation, Tritium, Chromosomes, Homology (biology), DNA sequencing, Iodine Radioisotopes, Cytogenetics, Nucleic acid thermodynamics, chemistry.chemical_compound, Centrifugation, Density Gradient, Genetics, medicine, Animals, Repeated sequence, Genetics (clinical), Chromatography, Base Sequence, Nucleic Acid Hybridization, Karyotype, DNA, Biological Evolution, Kinetics, chemistry, Evolutionary biology, Isotope Labeling, Karyotyping, Thermodynamics, Hydroxyapatites

Abstract

Chromosomes and DNA sequence homologies have been studied in 15 species of North American salamander belonging to the genus Plethodon. These include 4 Eastern small species, 5 Eastern large species, 5 Western, and 1 New Mexican species. All species have 14 metacentric or sub-metacentric chromosomes. Their karyotypes are closely similar, but their C values range from 18–69 pg. DNA:DNA molecular hybridization studies showed that salamanders belonging to the same species group had between 60 and 90% of the observed repetitive DNA sequences in common, different groups of Eastern species had between 40 and 60% in common, and Eastern and Western groups had less than 10% in common. The slowly reassociating DNA sequences were also diverse among species, but higher levels of homology were observed than in the case of repetitive sequences. The New Mexican species was exceptional in showing little homology with other species with respect to either repetitive or slowly reassociating sequences.

Published

1974

7. Ribosomal gene amplification in multinucleate oocytes of the egg brooding hylid frog Flectonotus pygmaeus

Author

Eugenia M. del Pino and Herbert C. Macgregor

Subjects

Male, Nucleolus, Biology, DNA, Ribosomal, Multinucleate, Meiosis, Rosaniline Dyes, Genetics, medicine, Animals, Coloring Agents, Ribosomal DNA, Genetics (clinical), Ovum, Cell Nucleus, Germinal vesicle, Staining and Labeling, Gene Amplification, DNA, Anatomy, Oocyte, Cell biology, medicine.anatomical_structure, Lampbrush chromosome, Karyotyping, Oocytes, Female, Anura, Nucleus

Abstract

The multinucleate oocytes of Flectonotus pygmaeus begin as cysts containing 2,000 or more meiotic nuclei. Each nucleus amplifies its ribosomal DNA early in oogenesis. The level of amplification is widely different from one nucleus to another, and ranges from less than 0.1 x C to more than 8 x C. The C value for this species is 1.7 x 10(-12) g of DNA. In oocytes of about 0.5 mm diameter the nuclei sort themselves out into an outer shell of several hundred nuclei that swell up to become much larger than the nuclei that remain in the inner compact mass. Later the outer nuclei continue to swell and decrease in number while the inner nuclei disintegrate and disappear. By the time the oocyte reaches. 1.2 mm diameter there are only a few large nuclei left and each has many large nucleoli and a full set of lampbrush chromosomes. Eventually, only one germinal vesicle nucleus is left, and this has all the characteristics of the single germinal vesicles that are typical of oocytes from other amphibians. It is suggested that the sorting out of nuclei into the inner mass and the outer shell of larger nuclei in middle sized oocytes is a consequence of the positions the nuclei happen to be in at the time, but that the "contest" for the role of germinal vesicle may be won by the nucleus of the outer shell that has the highest ribosomal DNA content.

Published

1982

8. Interspecific ?common? repetitive DNA sequences in salamanders of the genus Plethodon

Author

Christine Andrews, Shigeki Mizuno, and Herbert C. Macgregor

Subjects

Base pair, Urodela, Biology, Nucleic Acid Denaturation, Genome, Chromosomes, Amphibians, chemistry.chemical_compound, Species Specificity, Centrifugation, Density Gradient, Genetics, Animals, Repeated sequence, Gene, Genetics (clinical), Base Sequence, Nucleotides, Nucleic Acid Hybridization, RNA, DNA, Ribosomal RNA, Biological Evolution, genomic DNA, chemistry, Autoradiography, Nucleic Acid Conformation

Abstract

Intermediate repetitive sequences of Plethodon cinereus which comprised about 30% of the genomic DNA were isolated and iodinated with 125I. About 5% of the 125I-repetitive fraction hybridized with a large excess of DNA from P. dunni at Cot 20. About half of the 125I-DNA in the hybrids was resistant to extensive digestion with S-1 nuclease. The average molecular size of the S-1 nuclease-resistant fraction was about 100 nucleotide pairs. The melting temperature of the S-1 nuclease-resistant fraction was about 2 degrees lower than that of the corresponding fraction made with P. cinereus DNA. These results are taken to indicate the presence in the genomes of P. cinereus and P. dunni of evolutionarily stable "common" repetitive sequences. The average frequency of repetition of the common repetitive sequences is about 6,000 X in both species. The common repetitive fraction is also present in the genomes of other species of Plethodon, although the general populations of intermediate repetitive sequences are markedly different from one species to another. The cinereus--dunni common repetitive sequences could not be detected in plethodontids belonging to different tribes, nor in more distantly related amphibians. The profiles of binding of the common repetitive sequences to CsCl or CS2SO4-Ag+ density gradient fractions of P. dunni DNA suggested that these sequences consisted of heterogeneous components with respect to base compositions, and that they did not include large amounts of the genes for ribosomal RNA, 5S RNA, 4S RNA, or histone messenger RNA. In situ hybridization of the 3H-labelled intermediate repetitive sequences of P. cinereus to male meiotic chromosomes of the same species gave autoradiographs after an exposure of seven days showing all 14 chromosomes labelled. The pattern of labelling appeared not to be random, but was impossible to analyse on account of the irregular shapes and different degrees of stretching of diplotene and prometaphase chromosomes. In situ hybridization of the same sequences to meiotic chromosomes from P. dunni gave autoradiographs after 60 d exposure in which all chromosomes were labelled. These heterologous in situ hybrids can only have involved the "common" repetitive sequences.

Published

1976

9. Chromosomes, DNA sequences, and evolution in salamanders of the genus Aneides

Author

H. C. Macgregor and Christine Jones

Subjects

Genetics, Genetics (clinical)

Published

1977

10. Chromosome 1 in crested and marbled newts (Triturus)

Author

Heather A. Horner, Patricia S. Pellatt, Herbert C. Macgregor, and Simon H. Sims

Subjects

medicine.medical_specialty, education.field_of_study, biology, Heterochromatin, Population, Cytogenetics, Chromosome, Triturus marmoratus, biology.organism_classification, Giemsa stain, Lampbrush chromosome, Evolutionary biology, Genetics, medicine, education, Genetics (clinical), Chromosomal inversion

Abstract

The heteromorphic chromosomes 1 of Triturus cristatus carnifex and T. marmoratus were studied in mitotic metaphase after staining with the Giemsa C-banding technique and with the fluorochromes, DAPI (AT-specific) and mithramycin (GC-specific). They were also examined in the lampbrush form under phase-contrast before fixation and after fixation and staining with Giemsa. Chromosomes 1 of T.c. carnifex are asynaptic and achiasmatic throughout most of their long arms. They are also heteromorphic in most of their long arms for the patterns of Giemsa and fluorochrome staining and the distribution of distinctive lampbrush loops. The heteromorphic regions correspond to the regions that are asynaptic and achiasmatic. They stain more strongly with mithramycin and more weakly with DAPI than the remainder of the chromosomes, signifying that their DNA is relatively rich in GC. The patterns of staining with Giemsa and fluorochromes and the distributions of distinctive lateral loops vary from one animal to another in the same species and even in the same population. The asynaptic and achiasmatic regions of chromosomes 1 in T. marmoratus extend throughout the whole of the long arms and well beyond the heterochromatic region. Chiasmata form only in the short arm and occasionally in the short euchromatic segment at the tip of the long arms. The staining patterns of chromosomes 1 in T. marmoratus differ from those in T.c. carnifex although, like carnifex, their DNA is relatively GC-rich. The chromosomes 1 of T. marmoratus are more submetacentric than those of T.c. carnifex. In T. marmoratus chromosome 1B is about 12% shorter than 1A. There is a short paracentric inversion heterozygosity in the long arm of chromosome 1B in T. marmoratus which probably accounts for the lack of chiasmata in the euchromatin that separates the centromere from the start of the heterochromatin. In both carnifex and marmoratus, embryos that are homomorphic for chromosome 1 arrest and die at the late tailbud stage of development. The same applies to F1 hybrid embryos T.c. carnifex x T. marmoratus, and this has permitted identification of chromosomes 1A and 1B in both species. There is no correspondence between patterns of Giemsa or fluorochrome staining of the heteromorphic regions of chromosome 1 and any feature of the lampbrush chromosomes. However, the short euchromatic ends of the long arms of chromosomes 1 in both species are distinguished in the lampbrush form by a series of uniformly small loops of fine texture associated with very small chromomeres. The Giemsa C-staining patterns of both chromosomes 1A and 1B are different in each of the four subspecies of T. cristatus. T.c. karelinii stands out by having unusually large masses of Giemsa C-staining centromeric heterochromatin on all but 1 of its 12 chromosomes. A scheme is proposed for the evolution of chromosome 1 in T. cristatus and T. marmoratus, based on all available cytological and molecular data.

Published

1984

11. Observations on centromeric heterochromatin and satellite DNA in salamanders of the genus Plethodon

Author

Herbert C. Macgregor, C. A. Owen, I. Parker, and Heather A. Horner

Subjects

Male, Hot Temperature, Heterochromatin, Satellite DNA, Urodela, Nucleic Acid Denaturation, Tritium, Nucleic acid thermodynamics, Species Specificity, Plethodon cinereus, Testis, Centromere, Centrifugation, Density Gradient, Genetics, Animals, Repeated sequence, Genetics (clinical), Cell Nucleus, biology, Nucleic Acid Hybridization, Chromosome, DNA, biology.organism_classification, Spermatozoa, Nuclear DNA, Molecular Weight, Meiosis

Abstract

DNA from Plethodon cinereus cinereus separates into two fractions on centrifugation to equilibrium in neutral CsCl. The smaller of these fractions has been described as a high-density satellite. It represents about 2% of nuclear DNA from this species, and it has a density of 1.728 g/cm3. It is cytologically localized near the centromeres of all 14 chromosomes of the haploid set. In P. c. cinereus the heavy satellite DNA constitutes about 1/4 of the DNA in centromeric heterochromatin. The nature of the rest of the DNA in centromeric heterochromatin is unknown. The number of heavy satellite sequences clustered around the centromeres in a chromosome from P. c. cinereus is roughly proportional to the size of the chromosome, as determined by in situ hybridization with satellite-complementary RNA, and autoradiography. Likewise the amount of contromeric heterochromatin, as identified by its differential stainability with Giemsa, shows a clear relationship to chromosome size. — The heavy satellite sequences identified in DNA from P. c. cinereus are also present in smaller amounts in other closely related forms of Plethodon. Plethodon cinereus polycentratus and P. richmondi have approximately half as many of these sequences per haploid genome as P. c. cinereus. P. hoffmani and P. nettingi shenandoah have about 1/3 as many of these sequences as P. c. cinereus. P. c. cinereus, P. c. polycentratus, and P. richmondii all have detectable heavy satellites with densities of 1.728 g/cm3. Among these forms, satellite size as determined by optical density measurements, and number of satellite sequences as determined from hybridization studies, vary co-ordinately. P. c. cinereus heavy satellite sequences are not detectable in P. nettingi, P. n. hubrichti, or P. dorsalis. The latter species has a heavy satellite with a density of 1.718 g/cm3, representing about 8% of the genomic DNA, and two light satellites whose properties have not been investigated. The heavy satellite of P. dorsalis is cytologically localized in the centromeric heterochromatin of this species. — These observations are discussed in relation to the function and evolution of highly repetitive DNA sequences in the centromeric heterochromatin of salamanders and other organisms.

Published

1973

12. The arrangement of chromosomes in nuclei of sperm from plethodontid salamanders

Author

Muriel H. Walker and Herbert C. Macgregor

Subjects

endocrine system, Spermatid, urogenital system, Satellite DNA, RNA, Chromosome, Anatomy, Biology, Ribosomal RNA, Sperm, Cell biology, medicine.anatomical_structure, Centromere, Genetics, medicine, Nucleus, reproductive and urinary physiology, Genetics (clinical)

Abstract

Plethodontid salamanders have n = 13 or 14 large metacentric or sub-metacentric chromosomes. Sperm nuclei from Plethodon cinereus measure 72×1 μm. The nucleoprotein of spermatids is at first finely granular. In elongate spermatids it clumps into larger granules, which then fuse to form the compact nucleoprotein of the mature sperm. The nuclei of mature sperm are negatively birefringent with respect to their length. — 3H RNA complementary to high-density satellite DNA of centromeric heterochromatin in P. cinereus has been hybridized in-situ to spermatids and sperm, and its site of binding to these cells has been examined by autoradiography. Labelling of round spermatid nuclei is localized in a single patch. Elongate spermatid nuclei are labelled only over the rear quarter of the nucleus. Label over the nuclei of mature sperm is localized in a region extending 10–20 μm forwards from the rear of the nucleus. — In P. cinereus the ribosomal genes are located near the centromere on the short arm of chromosome 7. 3H ribosomal RNA hybridizes to a single patch in round spermatid nuclei. Elongate spermatid nuclei show label over a short segment of the rear half of the nucleus. In spermatids nearing maturity the labelled region is never more than 20 μm long. — These results indicate that in P. cinereus each chromosome is arranged in a U formation with its centromere at the base of the sperm nucleus, and its arms extended forwards along the length of the nucleus. — Among plethodontids, increase in ‘C’ value and corresponding increase in chromosome size is accompanied by increase in the length rather than the width of the sperm nucleus. — 3H ribosomal RNA hybridizes to a short segment in spermatid and sperm nuclei from Xenopus and Triturus. In these animals, the position of the labelled segment varies from sperm to sperm.

Published

1973

13. The chromosomal localization of a heavy satellite DNA in the testis of Plethodon c. cinereus

Author

H. C. Macgregor and James Kezer

Subjects

Male, Nucleolus, Satellite DNA, Urodela, Biology, Tritium, chemistry.chemical_compound, Meiosis, Testis, Genetics, Animals, Genetics (clinical), urogenital system, RNA, DNA, Ribosomal RNA, Spermatozoa, Molecular biology, Chromatin, chemistry, Hybridization, Genetic, Female, Nucleolus organizer region

Abstract

When DNA from blood or liver of Plethodon c. cinereus is centrifuged to equilibrium in cesium chloride it separates out into 2 components. The smaller or satellite component is relatively rich in G + C and is therefore heavy, and it amounts to about 2% of the total DNA. The heavy satellite does not include the ribosomal cistrons, and it is unrelated to the nucleolar organizer. When squash preparations of cells from the testis of P. c. cinereus are incubated in synthetic E3RNA complementary to the satellite DNA, the RNA anneals specifically to the centromeric heterochromatin of spermatogonia, spermatocytes, and spermatids, and to the centromeric regions of all discernible chromosomes. RNA/DNA hybrids were located by autoradiography. H3RNA complementary to the major component of the DNA anneals to all nuclei and to all parts of the chromosomes. H3RNA complementary to nucleolar DNA from Xenopus laevis anneals specifically to the chromatin associated with nucleoli in nuclei at various stages of the meiotic divisions. The nature of the centromeric heterochromatin and its role in the meiotic divisions are discussed.

Published

1971

14. The nucleolar organizer of Plethodon cinereus cinereus (Green)

Author

Herbert C. Macgregor and James Kezer

Subjects

biology, Urodela, biology.organism_classification, Chromosomes, Genes, Plethodon cinereus, Evolutionary biology, Genetics, Animals, Female, Nucleolus organizer region, Cell Nucleolus, Genetics (clinical), Ovum

Published

1973

15. Gene amplification in oocytes with 8 germinal vesicles from the tailed frog Ascaphus truei Stejneger

Author

James Kezer and Herbert C. Macgregor

Subjects

Erythrocytes, Nucleolus, Mitosis, Chromatids, Biology, Tritium, Oogenesis, Photometry, Prophase, Meiosis, Genetics, medicine, Animals, Feulgen stain, Genetics (clinical), Ovum, Cell Nucleus, Germinal vesicle, DNA, Anatomy, Oocyte, Cell biology, medicine.anatomical_structure, Autoradiography, Female, Anura, Nucleus, Cell Nucleolus, Thymidine

Abstract

In the last 3 oogonial mitoses in Ascaphus truei all daughter nuclei remain in the same cell. The oocyte is 8-nucleate at the start of meiotic prophase and remains so until late in oogenesis when 7 of the nuclei disappear. All 8 nuclei in a single oocyte resemble one another with respect to size and chromatin distribution at all stages of meiotic prophase. Much of the Feulgen-positive material in pachytene nuclei is concentrated into one region of the nucleus. — All of the 8 germinal vesicles of yolky oocytes have a full set of lampbrush diplotene bivalents. Germinal vesicles from oocytes of up to 0.8 mm diameter have less than 100 nucleoli, some of which are multiple nucleoli in the sense that they have more than one core region. Each of the 8 nuclei in oocytes from one animal had about the same volume of nucleolar material. — Two values have been obtained for the amount of DNA in a diploid nucleus from Ascaphus. A biochemical estimate utilizing erythrocyte nuclei and the diphenylamine reaction yielded a value of 7.1 pg per nucleus. Microphotometry of erythrocyte nuclei stained with Feulgen's reagent gave a value of 8.2 pg per nucleus. — Microphotometric measurements of Feulgen-stained nuclei at various stages of meiotic prophase up to diplotene indicate that each nucleus synthesizes up to 5 pg of extrachromosomal DNA during and immediately after pachytene. This DNA is considered to be nucleolar. Autoradiography of nuclei from oocytes which had been incubated for 6h in 3H thymidine showed silver grains over pachytene and early diplotene nuclei only. In pachytene nuclei the silver grains overlaid that part of the nucleus where Feulgen-positive material was most concentrated. Most of the chromosomal material was unlabelled. — The significance of the 8-nucleate condition in Ascaphus oocytes is discussed, and the amount of nucleolar DNA synthesized at pachytene and of nucleolar material present in germinal vesicles is compared with corresponding situations in other amphibians.

Published

1970

16. Multiple ribosomal gene sites revealed by in situ hybridization of Xenopus rDNA to Triturus lampbrush chromosomes

Author

Alan Colman, Garry T. Morgan, and Herbert C. Macgregor

Subjects

Ribosomal Proteins, Transcription, Genetic, Nucleolus, Xenopus, Nucleic Acid Hybridization, DNA, DNA-Directed RNA Polymerases, Biology, Ribosomal RNA, Molecular biology, Triturus, Lampbrush chromosome, Genes, Species Specificity, Extrachromosomal DNA, 28S ribosomal RNA, Genetics, RNA polymerase I, Nucleolus Organizer Region, Animals, Nucleolus organizer region, Ribosomal DNA, Genetics (clinical)

Abstract

A variety of 3H-labelled ribosomal gene probes were hybridized in situ to the nascent transcripts of lampbrush chromosomes from the crested newt, Triturus cristatus carnifex. The probes were from Xenopus laevis and included rDNA isolated by CsCl gradient centrifugation, recombinant plasmids and purified restriction fragments of rDNA. All the probes gave essentially the same result. About 10-15 loop pairs were distinctly labelled in each preparation, almost all of them located on the heteromorphic arms (HTAs) of chromosome 1. Ribosomal gene probes were also hybridized in situ to the DNA of denatured mitotic chromosomes from some of the individuals used to provide lampbrush preparations. Minor, scattered sites of hybridization were found in the HTAs, but the main clusters of ribosomal genes were found on chromosomes 6 and/or 9, in agreement with previous determinations of nucleolus organizer position in this species. However, the nucleolus organizers were not sites of labelled loops in lampbrush transcript hybridizations.--We have incubated isolated lampbrush-stage nuclei in media containing alpha-amanitin and labelled RNA precursors. Although extrachromosomal nucleolar genes incorporated label, supposedly due to transcription by RNA polymerase I, no lampbrush loops were labelled.--It appears that in T. c. carnifex there are ribosomal gene sequences at the main nucleolus organizers and at a number of sites scattered along the HTAs. The ribosomal genes at the nucleolus organizers are not extended in the form of actively transcribing loops unlike the ribosomal sequences on the HTAs, which are heavily labelled in transcript hybridization. The ribosomal sequences on the HTAs appear not to be transcribed by the same RNA polymerase that transcribes the ribosomal genes of extrachromosomal nucleoli.

Published

1980

17. Centromeric satellite DNA in the newt Triturus cristatus karelinii and related species: its distribution and transcription on lampbrush chromosomes

Author

Lise Baldwin and Herbert C. Macgregor

Subjects

Transcription, Genetic, Heterochromatin, Base pair, Satellite DNA, Biology, DNA, Satellite, Chromosomes, chemistry.chemical_compound, Species Specificity, Centromere, Genetics, Animals, Genetics (clinical), Base Sequence, Chromosome, Nucleic Acid Hybridization, DNA, DNA Restriction Enzymes, biology.organism_classification, Triturus, Chromosome Banding, Lampbrush chromosome, chemistry, Karyotyping, Plasmids

Abstract

Two abundant satellite DNA sequences have been identified in and cloned from the DNA of Triturus cristatus karelinii. The smaller of these with a repeat unit of 33 base pairs (bp) is designated TkS1, the larger with 68 bp is designated TkS2. These satellites are also present in DNA from T.c. cristatus, T.c. carnifex and T. marmoratus but in substantially lower copy number. In situ hybridisations to lampbrush chromosomes of T.c. karelinii and T.c. cristatus have shown that the satellites are concentrated in the heterochromatic centromere bars of T.c. karelinii and in a region around the centromere granule in T.c. cristatus. The satellites also bind specifically to the centromere regions of mitotic metaphase chromosomes. They do not bind to the heteromorphic arms of chromosome 1, which have previously been shown to be rich in highly repeated DNA. DNA/RNA-transcript in situ hybrids to lampbrush chromosomes with TkS1 suggest that this sequence is occasionally transcribed on lampbrush loops near the centromeres.

Published

1985

18. In situ hybridization of 'nick-translated' 3H-ribosomal DNA to chromosomes from salamanders

Author

Herbert C. Macgregor and Shigeki Mizuno

Subjects

Male, DNA polymerase, Nucleolus, Xenopus, Urodela, In situ hybridization, Tritium, Bivalent (genetics), Chromosomes, chemistry.chemical_compound, Genetics, Methods, Animals, Ribosomal DNA, Genetics (clinical), Deoxyribonucleases, biology, Nucleic Acid Hybridization, DNA, Molecular biology, chemistry, RNA, Ribosomal, Isotope Labeling, DNA Nucleotidyltransferases, Nucleic acid, biology.protein, Female, Anura, Deoxyribonuclease I

Abstract

A technique is described for preparation of 3H-labelled DNA by nick-translation employing deoxyribonuclease I and DNA polymerase I. The labelled DNA can be obtained in high yield with specific activities of 10(6) cpm/mug or more. Ribosomal DNA, isolated from ovaries of young Xenopus laevis, and whole DNA from Plethodon cinereus were labelled in this way. The rDNA was used for in situ hybridization to meiotic chromosomes from P. cinereus, P. vehiculum and P. dunni. Autoradiographs of in situ hybrids were exposed for 5 to 10 days, by which time nucleolus organizer regions on the chromosomes of all 3 species were clearly and specifically labelled. In all cases, labelling was confined to a short region near the middle of the short arm of both halves of a medium length bivalent. It is concluded that nick-translation is a useful and altogether efficient method of labelling nucleic acids for subsequent use in experiments involving in situ hybridizations.

Published

1976

19. In situ hybridization of ribosomal DNA labelled with 125iodine to metaphase and lampbrush chromosomes from newts

Author

Sally Hennen, H. C. Macgregor, and S. Mizuno

Subjects

Male, Xenopus, Mitosis, In situ hybridization, Biology, Bivalent (genetics), Chromosomes, Iodine Radioisotopes, Genetics, Centrifugation, Density Gradient, Methods, Animals, Microscopy, Phase-Contrast, Metaphase, Ribosomal DNA, Genetics (clinical), Ovum, Ovary, Chromosome, Nucleic Acid Hybridization, Karyotype, DNA, Molecular biology, Triturus, Lampbrush chromosome, Karyotyping, Autoradiography, Female, Ribosomes

Abstract

Methods are described for in situ hybridization of ribosomal DNA from Xenopus laevis, labelled in vitro with 125iodine, to mitotic and lampbrush chromosomes from Triturus cristatus carnifex. The hybridization reaction was carried out in a mixture containing 50% formamide, 4 X SSC, 0.1 M KI, at 37 degrees C, or in 2 X SSC, 0.1 M KI at 65 degrees C. Autoradiographs of mitotic metaphases from 2 males showed labelling over the middle of the short arm of one chromosome IX in each metaphase. In some cases, a region near the end of a longer chromosome was also labelled. In a lampbrush preparations, labelling was confined to a region identified as about 53 units, near the middle of the short arm of both halves of bivalent IX. The usefulness of the technique and the significance of the labelling of only 1 of the 2 chromosomes IX in mitotic preparations are discussed.

Published

1975

20. Chromomere number and its genetic significance in lampbrush chromosomes

Author

Herbert C. Macgregor and Marcela Vlad

Subjects

Genetics, Chromomere, Biometry, Transcription, Genetic, Urodela, Karyotype, Centrifugation, Biology, Haploidy, Genome, Bivalent (genetics), Chromosomes, Lampbrush chromosome, Karyotyping, Animals, Female, Microscopy, Phase-Contrast, Ploidy, Gene, Genome size, Genetics (clinical), Ovum

Abstract

The chromosomes of three species of salamander belonging to the genus Plethodon have been studied with regard to the absolute length of the haploid set of lampbrush chromosomes and the number and distribution of chromomeres per laploid set of lampbrush chromosomes. Each aspect has been considered in relation to the substantial difference in genome size between P. cinereus (C = 20 pg), P. vehiculum (C = 36.8 pg) and P. dunni (C = 38.8 pg). --Karyotype analyses carried out on unfixed preparations of lampbrush chromosomes showed that the absolute length of a haploid complement of lampbrush chromosomes from medium-sized yolky oocytes is much greater for P. vehiculum and P. dunni than for P. cinereus. Nonetheless, the relative dimensions of chromosomes are nearly identical in all three species. --Chromomers were counted along the whole length of the 14th (shortest) bivalent, and the total number of chromomeres in the haploid set of lampbrush chromosomes was determined by extrapolation on the basis of the known relative length of the 14th bivalent in the respective species. Chromomeres were also counted in measured segments of undamaged lampbrush preprations in which all chromosomes could be clearly identified. The average distance between chromomeres (chromomere distribution) was determined and the total chromomere number was estimated on the basis of measured total length of lampbrush chromosomes in a preparation. Chromomere distribution is the same for lampbrush chromosomes from all 3 species, and since P. vehiculum and P. dunni have longer chromosomes than P. cinereus, it is clear that the former 2 species have many more chromomeres (60-70%) per haploid set of lampbrush chromosomes. The term chromomere was used here in the descriptive sense to define a discrete granule of deoxyribonucleoprotein on the axis of a lampbrush chromosome.--These findings are discussed in relation to what is known of the molecular organization of eukaryotic genomes, and in relation to ideas on gene action and transcription in lampbrush chromosomes.

Published

1975

21. In situ hybridization of highly repetitive DNA to chromosomes of Triturus cristatus

Author

Herbert C. Macgregor

Subjects

DNA Replication, Transcription, Genetic, G banding, Chromosome, Nucleic Acid Hybridization, DNA, Biology, Eukaryotic chromosome structure, Molecular biology, Triturus, Bivalent (genetics), Chromosomes, Chromosomal crossover, Lampbrush chromosome, Genetics, Animals, RNA, Nick translation, Mitosis, Genetics (clinical)

Abstract

Highly repetitive DNA of C0t 0--0.2 was purified from whole DNA of Triturus cristatus carnifex, labelled by nick translation, and in situ hybridized to RNA transcripts on the loops of lampbrush chromosomes and to the DNA of mitotic chromosomes from intestinal epithelium from the same species. The labelled DNA bound to 20--30 loops on the long arms of lampbrush bivalent 1, a pair of loops near the centromere on bivalent 10, and a number of other loops most of which were localized in pericentric regions. In mitotic preparations the same labelled DNA bound to the heteromorphic regions of the long arms of both chromosomes 1, and to the centromeric regions of all chromosomes. Centromeric labelling was light on chromosomes 4 and particularly clear on the 3 shortest chromosomes of the set. The heavy labelling of the heteromorphic arms of chromosome 1 is discussed in relation to several other peculiar properties of these arms, including their extraordinary lengths, their Giemsa banding patterns, and the absence of meiotic crossing over. It is suggested that insofar as the results with DNA/DNA hybridization and mitotic chromosomes match those obtained with the DNA/RNA-transcript hybridization and lampbrush chromosomes, confidence in the latter technique may be increased accordingly.

Published

1979

22. Cytological evidence of transcription of highly repeated DNA sequences during the lampbrush stage in Triturus cristatus carnifex

Author

Christine Andrews, Irma Nardi, Jennifer Varley, Harry P. Erba, and Herbert C. Macgregor

Subjects

DNA Replication, Transcription, Genetic, Satellite DNA, Heterochromatin, Biology, DNA, Satellite, DNA sequencing, chemistry.chemical_compound, Oogenesis, Transcription (biology), Genetics, Animals, Genetics (clinical), Nucleic Acid Hybridization, DNA, DNA Restriction Enzymes, biology.organism_classification, Molecular biology, Triturus, Restriction enzyme, Lampbrush chromosome, chemistry, RNA, Female

Abstract

Highly repeated, or satellite, DNA fractions have been isolated from total Triturus cristatus carnifex DNA by renaturation kinetics, caesium salt centrifugation and restriction endonuclease digestion. We have shown by DNA/DNA in situ hybridisation and autoradiography that all of these probes bind to C-band positive regions on mitotic or lampbrush chromosomes of T.c. carnifex. Under conditions of DNA to RNA-transcript in situ hybridisation labelled satellite DNA binds to nascent RNA transcripts that are still associated with the DNA axes of many lampbrush loops. The majority of the loops that label heavily in these experiments are located on the long arms of chromosome I, a region previously shown to be rich in highly repeated DNA and to have many of the properties of heterochromatin. These satellite DNA probes also label many loops on a comparable chromosome region in T. marmoratus, a species closely related to T. cristatus. However, in DNA/RNA-transcript hybrids to other more distantly related species of Triturus, there are no chromosome regions that have the same concentration of labelled loop pairs as the long arms of T.c. carnifex and T. marmoratus, although some loop pairs do label. We have cloned two satellite sequences in pBR322, and have obtained the same results using these pure probes as we obtained using satellite probes isolated by other techniques. These results demonstrate unequivocally that satellite DNA is transcribed on lampbrush chromosomes during oogenesis in crested newts.

Published

1980

23. Gene amplification in the oocytes of Dytiscid water beetles

Author

Mary Elizabeth Kidston, Herbert C. Macgregor, and Joseph G. Gall

Subjects

Male, Colymbetes, Satellite DNA, Biology, Tritium, Ovariole, chemistry.chemical_compound, Extrachromosomal DNA, Genetics, Centrifugation, Density Gradient, Animals, Gene, Genetics (clinical), Ovum, DNA, Ribosomal RNA, biology.organism_classification, Molecular biology, Spermatozoa, Dytiscus, Coleoptera, chemistry, RNA, Female, Ribosomes, Cell Nucleolus, Thymidine

Abstract

A conspicuous mass of extrachromosomal DNA (Giardina's body) is found in oogonia and oocytes of Dytiscid water beetles. Since in older oocytes this DNA is associated with numerous nucleoli, it seemed probable that the ovary might contain extra copies of the genes for ribosomal RNA (rRNA). This hypothesis has been confirmed by centrifugation and molecular hybridization studies. —In Dytiscus marginalis and Colymbetes fuscus a high density satellite DNA is found in somatic cells and in sperm. Hybridization experiments show that all of the rDNA, i.e., those sequences complementary to rRNA, are located in this satellite, although quantitatively they make up only a small fraction of the satellite. In both species the DNA isolated from ovariole tips is enriched with respect to the satellite. A parallel enrichment of the rDNA has been shown in ovariole tips of Colymbetes, but for technical reasons has not been examined in Dytiscus. —The following model is proposed. In somatic cells and sperm the rDNA is part of an extensive region of high density DNA in one or more chromosomes. In oogonia and oocytes the entire high density region is replicated extrachromosomally and appears cytologically as Giardina's body.

Published

1969

24. The nucleolar organizer of Plethodon cinereus cinereus (Green). I. Location of the nucleolar organizer by in situ nucleic acid hybridization

Author

James Kezer and Herbert C. Macgregor

Subjects

Male, Nucleolus, Xenopus, Urodela, Tritium, Bivalent (genetics), Chromosomes, Meiosis, Plethodon cinereus, Centromere, Genetics, Animals, Metaphase, Genetics (clinical), Ovum, biology, DNA, Ribosomal RNA, biology.organism_classification, Molecular biology, Spermatozoa, Genes, RNA, Ribosomal, Autoradiography, Hybridization, Genetic, Female, Nucleolus organizer region, Cell Nucleolus

Abstract

The 7th longest lampbrush bivalent in oocytes of Plethodon cinereus cinereus has a region of attached oocyte nucleoli near to the centromere on the shorter arm of each half bivalent. When squash preparations of P. c. cinereus spermatocytes are treated with NaOH to denature chromosomal DNA, and subsequently incubated in a solution of (3H) ribosomal RNA from Xenopus cell cultures, the ribosomal RNA binds specifically to a region near the centromeres on the shorter arms of the 7th longest bivalent, and to a region near the end of the shorter arm of the 14th bivalent. The amount of ribosomal RNA bound to the 7th bivalent at diplotene and 1st meiotic metaphase is regularly different on the 2 halves of the bivalent. Each half of the 14th bivalent is usually labelled more heavily than the less heavily labelled half of the 7th bivalent. These observations are discussed in relation to the involvement of nucleolar organizers in gene amplification and rectification.

Published

1973

25. Interlocking and knotting of ring nucleoli in amphibian oocytes

Author

Marcela Vlad and Herbert C. Macgregor

Subjects

Amphibian, Cell Nucleus, DNA Replication, biology, Nucleolus, Urodela, Anatomy, Ring (chemistry), Genes, Species Specificity, biology.animal, Genetics, Biophysics, DNA supercoil, Animals, Female, Microscopy, Phase-Contrast, Genetics (clinical), Interlocking, Cell Nucleolus, Ovum

Abstract

Various configurations of interlocking and knotting of ring nucleoli from amphibian oocytes have been identified in material taken from 2 females of Eurycea bislineata and one female of Plethodon cinereus. The simplest configuration is a simple interlock between 2 rings of similar or different lengths. More complex interlocks have been seen, in which 3 rings are linked together in such a way that they cannot be extended into a chain. A third configuration involves complex knotting of single long rings. It is suggested that the interlocked configurations arise through the replication of rings of DNA that have low levels of supercoiling, and that the knotted rings arise by misjoining of the ends of linear molecules that have become wound around one another. Models are suggested in support of these proposals and the significance of interlocking of ring nucleoli in relation to the mechanism of gene amplification is discussed.

Published

1972

26. A fresh look at meiosis and centromeric heterochromatin in the red-backed salamander, Plethodon cinereus cinereus (Green)

Author

H. C. Macgregor and James Kezer

Subjects

Genetics, Cell Nucleus, Male, biology, Heterochromatin, fungi, Urodela, biology.organism_classification, Bivalent (genetics), Chromosomes, Cell biology, Meiosis, Prophase, Plethodon cinereus, Karyotyping, Centromere, Testis, Animals, Interphase, Genetics (clinical), Anaphase

Abstract

Male meiosis, with special regard to the centromeric heterochromatin and to centromeric structure, has been studied in the salamander, Plethodon cinereus cinereus. In this salamander, n = 14. Early meiotic prophase proceeds as described by other authors. Pachytene is followed by a “diffuse” stage in which much of the chromosomal DNA becomes reorganized into fine lateral loops which spring from the bivalent axes. These loops can be seen along the bivalent axes as early as zygotene. Loops are maximally extended in the diffuse stage. The formation of diplotene bivalents involves a return of this extended DNA into the axes of the bivalents. — At leptotone, centromeric heterochromatin is in one or a few large masses. These masses break up during zygotene. At pachytene there is one mass of heterochromatin at the centromeric region of each bivalent. The heterochromatin remains condensed in the diffuse stage. During diplotene, centromeric heterochromatin becomes less conspicuous, and it is possible to see 4 centromere granules in each diplotene bivalent. These observations support the view that centromeres replicate at pre-meiotic S-phase when the associated hetero-chromatin is replicated. In the interphase before the 2nd division, the hetero-chromatin often forms a broken ring corresponding to the positions of the centromeres at the end of anaphase 1. There are 14 masses of heterochromatin in nuclei at prophase of the 2nd division. In spermatids, the heterochromatin appears as a single solid mass or a broken ring.

Published

1971