Chromosome aberrations in Vicia faba

McCrary, Ollie Wheeler, 1924-

January 1963

No description available.

Fava bean -- Cytogenetics.

Plant chromosomes.

Genetic and cytological studies of Drosophila nigrospiracula in the Sonoran desert

Cooper, Joy Whitmore, 1940-

January 1964

No description available.

Drosophila -- Cytogenetics.

Ecology -- Southwest, New.

A cytogenetic study of the effects of pesticides.

Wuu, Kuang-Dong

January 1966

A cytogenetic study of the effects of 15 pesticides (herbicides: Alanap-3, Atrazine, Banvel D, Cytrol, Embutox E, Hyvar X, Lorox, Monuron, Simazine; insecticides: Endrin, Phosphamidon, Sevin; insect chemosterilants: ENT-50612, Metepa; fungicide: Botran) has been carried out with Hordeum vulgare and Vicia faba. [...]

Cytogenetics.

Chromosome abnormalities.

Pesticides.

Genetics.

Studies on natural populations of four Melanoplus species (Orthoptera : Acrididae) from Quebec, Canada

Abukashawa, Sumaia Mohamed.

January 1984

No description available.

Grasshoppers.

Locusts -- Québec (Province).

Cytogenetics.

Trisomy 11, 12, and 16 in v-abl/myc-induced murine plasmacytomagenesis

Hagerty, Marlon

14 April 2008

Murine plasmacytoma is induced by plastic implants, injection of paraffin oil or pristane, or through viral infection, and Myc is invariably overexpressed in the tumour cells. Although translocation and juxtaposition of the Myc locus to an immunoglobulin locus is the prominent nonrandom cytogenetic aberration observed, the significance of other karyotypic instabilities in murine plasmacytoma is not clear, including the previously observed occurrence of trisomy 11. As well as identifying new cytogenetic mutations in murine plasmacytomagenesis, this study provides evidence for their combined and sequential accumulation that may offer new parallels to human B-cell malignancies. Plasmacytomas were induced in Balb/c Rb6.15 mice by intraperitoneal (i.p.) pristane injection prior to infection with the ABL-MYC retrovirus, and confirmed by histological examination. Spectral karyotype analysis of tumour samples identified frequent aneuploidy, tetraploidy, and amplification of chromosomes 11, 12 and 16. In contrast, control mice treated by i.p. pristane injection did not develop plasmacytoma, and lipopolysaccharide-stimulated splenocytes from control mice had mainly normal diploid karyotypes. However, karyotypic instability in a minority of splenocytes indicated that control mice showing no signs of plasmacytoma development nevertheless are prone to numerical and structural cytogenetic mutations that may possibly result in plasmacytoma initiation and progression under favourable conditions, such as infection with ABL-MYC virus with the resulting high expression of v-abl and Myc in target cells. These results indicate the possible existence of proto-oncogenes present on murine chromosomes 11, 12, and 16 that are important for plasmacytoma initiation and/or progression. There are also indications that T(1;6) and monosomy of the X chromosome may also play roles in plasmacytomagenesis, and that trisomy 12 may only occur in cells with pre-existing nonrandom mutations, thereby acting as a late mutation event. As other experimental models of murine plasmacytoma have not shown a similar karyotypic etiology, there appears to be several possible redundant cytogenetic mutation events that lead to plasmacytoma. Also, as tumours in this study present various combinations of the aforementioned amplified chromosomes, their combined amplification may serve redundant purposes as well.

plasmacytoma

cytogenetics

myc

abl

trisomy

A cytological study of a sex-linked, semi-dominant, material effect mutant

Bannon, Gary A.

January 1978

The posterior cytoplasm of the Drosophila melanogaster egg and early embryo is very important because it forms pole cells which are the precursors to the germ cells found in the adult gonads. The posterior portion has been irradiated by many investigators to destroy these pole cells and record the types of effects the deletion has on the developing embryo. A St. Margarita Island strain of D. melanogaster contains a naturally occurring mutation on the X chromosome which affects the development of germ cells in the offspring. This mutation is a semi-dominant, maternal effect, temperature sensitive mutant. In this study female offspring from this strain were examined after having their X chromosomes subjected to 15 generations of selection for expression of agametic gonads. The agametic ovaries of these individuals were examined at the dissecting microscope, light microscope, and electron microscope levels and compared with normal ovaries of Oregon-R wild type females. The mutant ovaries examined contained normal mesodermal components but appeared to lack any developing stem cells or egg chambers. It was concluded that the mutant gene(s) morphological effects occur between the time the pole cells are incorporated into the posterior midgut of the embryo during gastrulation and the time they reach the adult gonad.

Drosophila melanogaster.

Mutation (Biology)

Cytogenetics.

Trisomy 11, 12, and 16 in v-abl/myc-induced murine plasmacytomagenesis

Hagerty, Marlon

14 April 2008

Murine plasmacytoma is induced by plastic implants, injection of paraffin oil or pristane, or through viral infection, and Myc is invariably overexpressed in the tumour cells. Although translocation and juxtaposition of the Myc locus to an immunoglobulin locus is the prominent nonrandom cytogenetic aberration observed, the significance of other karyotypic instabilities in murine plasmacytoma is not clear, including the previously observed occurrence of trisomy 11. As well as identifying new cytogenetic mutations in murine plasmacytomagenesis, this study provides evidence for their combined and sequential accumulation that may offer new parallels to human B-cell malignancies. Plasmacytomas were induced in Balb/c Rb6.15 mice by intraperitoneal (i.p.) pristane injection prior to infection with the ABL-MYC retrovirus, and confirmed by histological examination. Spectral karyotype analysis of tumour samples identified frequent aneuploidy, tetraploidy, and amplification of chromosomes 11, 12 and 16. In contrast, control mice treated by i.p. pristane injection did not develop plasmacytoma, and lipopolysaccharide-stimulated splenocytes from control mice had mainly normal diploid karyotypes. However, karyotypic instability in a minority of splenocytes indicated that control mice showing no signs of plasmacytoma development nevertheless are prone to numerical and structural cytogenetic mutations that may possibly result in plasmacytoma initiation and progression under favourable conditions, such as infection with ABL-MYC virus with the resulting high expression of v-abl and Myc in target cells. These results indicate the possible existence of proto-oncogenes present on murine chromosomes 11, 12, and 16 that are important for plasmacytoma initiation and/or progression. There are also indications that T(1;6) and monosomy of the X chromosome may also play roles in plasmacytomagenesis, and that trisomy 12 may only occur in cells with pre-existing nonrandom mutations, thereby acting as a late mutation event. As other experimental models of murine plasmacytoma have not shown a similar karyotypic etiology, there appears to be several possible redundant cytogenetic mutation events that lead to plasmacytoma. Also, as tumours in this study present various combinations of the aforementioned amplified chromosomes, their combined amplification may serve redundant purposes as well.

plasmacytoma

cytogenetics

myc

abl

trisomy

Genetic characterization of DiGeorge and related syndromes associated with 22q11.2 deletions

Demczuk, Suzanne

January 1995

DiGeorge syndrome (DGS) is a developmental defect associated with deletions in chromosomal region 22q11.2. Recently, other syndromes (Velo-Cardio-Facial syndrome, Conotruncal Anomaly Face syndrome, isolated conotruncal cardiopathy) with overlapping phenotypes have been found to be associated with deletions of a similar extent in this chromosomal region. All these syndromes have been grouped under the acronym CATCH 22 (Cardiac defect, Abnormal facies, Thymic hypoplasia, Cleft palate, Hypocalcemia, chromosome 22q11.2 deletions). In order to characterize genetically this group of syndromes, we have searched for deletions in the 22q11.2 chromosomal region by fluorescence in situ hybridization (FISH). A set of 6 cosmid probes dispersed within the whole length of the DGS deleted region was used to screen 23 patients. A 22q11.2 deletion was observed in 96% of the patients studied. Furthermore, there does not seem to exist any correlation between the size of the deletion and the phenotype observed, since the majority of patients studied, although widely divergent in their clinical manifestation of DGS, appeared to present the same extent of deletion in this genomic region. / There appears to be a predominance of deletion-bearing mothers in familial CATCH 22 when published pedigrees are examined. Furthermore, our own familial cases and the sporadic cases where the parental origin of the deletion could be deduced using a chromosome 22 short arm heteromorphisms seem to confirm this tendency. Because we had isolated a CA-repeat locus mapping within the DGS deleted region, the parental origin of the deletion in sporadic DGS/VCFS cases was studied by assessing the inheritance pattern of this microsatellite marker. The deleted portion of chromosome 22 was of maternal origin in 16 out of 22 cases (72%). When cases of sporadic, familial and unbalanced translocation inheritance reported in the literature were pooled with these results, there appears to be a net tendency for the deletions to be of maternal origin in CATCH 22 (70 deletions of maternal origin, 21 of paternal origin, X$ sp2$ = 26.4, p $<$ 0.0001). / In order to identify the molecular defect underlying DGS, we embarked on a positional cloning approach. A detailed physical map of the 22q11.2 region was made using one- and two-color FISH on metaphases and G$ sb0$ interphase nuclei, and by hybridization to a chromosome 22 hybrid panel. This permitted delineation of a critical region, within which the breakpoint of a balanced translocation carrier affected with DGS was mapping. This breakpoint was cloned by the construction of cosmid contigs, and a novel gene mapped to this region was isolated. The gene potentially encodes an adhesion receptor, and is not interrupted by the balanced translocation breakpoint. Possible mechanisms through which this gene can be involved in the pathogenesis of DGS are presented. / This research project has contributed toward the understanding of the genetics of DGS and related syndromes. Furthermore, a candidate gene for the CATCH 22 syndromes has been isolated and further work will confirm whether it plays a major role in the pathogenesis of these syndromes.

Human chromosome abnormalities

Human cytogenetics

A cytogenetic study of trisomy in Lotus pedunculatus (Leguminosae) /

Chen, Jichang.

January 1967

No description available.

Cytogenetics.

Trisomy.

Lotus pedunculatus -- Cytology.

Unusual features of post-endosymbiotic evolution in higher plants

Mohammed, Saleem.

January 2008

Thesis (Ph.D.)--University of Nebraska-Lincoln, 2008. / Title from title screen (site viewed Mar. 5, 2009). PDF text: 78 p. : ill. (some col.) ; 8.43 Mb. UMI publication number: AAT 3330302. Includes bibliographical references. Also available in microfilm and microfiche formats.