11 |
Genetic control of the survival of trisomy 19 fetuses in miceTrasler, Tessa A. January 1987 (has links)
No description available.
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12 |
Non‐mosaic Trisomy 20 in Amniotic Fluid Cultures With Minor Anomalies in the FetusMyers, T. L., Prouty, L. A. 01 January 1989 (has links)
A non‐mosaic trisomy 20 was discovered in all cells in two separate cultures from an age‐related genetic amniocentesis. Karyotypes of cells obtained via amniocentésis at the time of termination and of cells cultured from the placenta gave the same unambiguous results. However, the fetus, under macro‐ and microscopic analysis, showed only two minor anomalies: left simian crease and low‐set ears. These findings are more suggestive of a normal or at most mosaic trisomy 20 state. The significance of this finding for prenatal diagnosis is discussed.
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13 |
TRISOMICS IN THE PROGENY OF DESYNAPTIC MUTANTS OF HORDEUM VULGARE.Eckhoff, Joyce Lynne Alwine. January 1982 (has links)
No description available.
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14 |
Trisomy 11, 12, and 16 in v-abl/myc-induced murine plasmacytomagenesisHagerty, Marlon 14 April 2008 (has links)
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. / May 2008
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15 |
Trisomy 11, 12, and 16 in v-abl/myc-induced murine plasmacytomagenesisHagerty, Marlon 14 April 2008 (has links)
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.
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16 |
Trisomy 11, 12, and 16 in v-abl/myc-induced murine plasmacytomagenesisHagerty, Marlon 14 April 2008 (has links)
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.
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17 |
A cytogenetic study of trisomy in Lotus pedunculatus (Leguminosae) /Chen, Jichang. January 1967 (has links)
No description available.
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18 |
An analysis of the anatomic variations in human trisomy based on dissections of 21- and 18-trisomiesBersu, Edward Thorwald, January 1976 (has links)
Thesis (Ph. D.)--Wisconsin. / Vita. Includes bibliographical references (leaves 276-292).
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19 |
Spatiotemporal development of the forebrain in the Dp(16)1Yey/+ mouse model of Down syndromeGoodliffe, Joseph White 15 June 2016 (has links)
Down syndrome (DS), or trisomy 21 (Ts21), is the most common genetic developmental disorder with a prevalence of about one in 700 live births. The triplication of human chromosome 21 (Hsa21) that characterizes this disorder results in a constellation of cognitive and physical alterations. The cognitive deficits range from mild to severe, and persist throughout life. Post-mortem studies of individuals with DS have revealed various neuropathologic abnormalities that are thought to underlie cognitive dysfunction, including: disruption of neurogenesis, corticogenesis, synapse formation, and myelination. However, the etiology of these alterations remains largely unknown. In order to elucidate the genetic basis of DS-phenotypes, several mouse models have been developed. The Ts65Dn, Ts1Cje, and Ts16 models, recapitulate DS-related phenotypes and have extended our knowledge of the associated pathological changes. Despite this progress, genetic dissimilarities in mouse models may confound phenotypic comparisons between mouse models and human DS. Specifically, the aforementioned models have a limited subset of triplicated Hsa-21 homologs or contain non-syntenic genes. Recently, a novel mouse model, the Dp(16)1Yey/+ (or Dp16), that has the entire Hsa-21 syntenic region of Mmu16 triplicated and no non-syntenic genes has been developed, suggesting that Dp16 may present phenotypes more closely matching the human disorder. In this study, we present the first comprehensive analysis of Dp16 embryonic, young and adult brains that includes a focus on the proliferative, inhibitory/excitatory neuronal and oligodendrocyte-lineage phenotypes using histological, immunohistochemical, and behavioral assessments. We hypothesize that due to the larger triplicated segment, the Dp16 mouse model better recapitulates DS-related neuropathologies relative to other mouse models. Despite the extended triplication, Dp16 animals lack DS-related embryonic phenotypes, however, behavioral and cellular phenotypes arise during the 2nd week following birth. The Dp16 is the first model of DS to develop postnatal phenotypes in the absence of changes to embryonic brain development, as such, Dp16 may not be a reliable model to further understand brain development in the DS fetus. However, when used in conjuncture with other models, the Dp16 will be a useful tool in understanding the contribution of aneuploidy and gene dosage to DS-phenotypes in mouse models of DS.
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20 |
A cytogenetic study of trisomy in Lotus pedunculatus (Leguminosae) /Chen, Jichang. January 1967 (has links)
No description available.
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