John Stephenson scite author profile

The transforming genes of oncogenic retroviruses are homologous to a group of evolutionary conserved cellular onc genes. The human cellular homologue (c-abl) of the transforming sequence of Abelson murine leukaemia virus (A-MuL V) was recently shown to be located on chromosome 9. The long arm of this chromosome is involved in a specific translocation with chromosome 22, the Philadelphia translocation (Ph1), t(9; 22) (q34, q11), which occurs in patients with chronic myelocytic leukaemia (CML)3-5. Here we investigate whether the c-abl gene is included in this translocation. Using c-abl and v-abl hybridization probes on blots of somatic cell hybrids, positive hybridization is found when the 22q- (the Philadelphia chromosome), and not the 9q+ derivative of the translocation, is present in the cell hybrids. From this we conclude that in CML, c-abl sequences are translocated from chromosome 9 to chromosome 22q-. This finding is a direct demonstration of a reciprocal exchange between the two chromosomes and suggests a role for the c-abl gene in the generation of CML.

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Tick-borne encephalitis virus – a review of an emerging zoonosis

Mansfield

et al. 2009

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During the last 30 years, there has been a continued increase in human cases of tick-borne encephalitis (TBE) in Europe, a disease caused by tick-borne encephalitis virus (TBEV). TBEV is endemic in an area ranging from northern China and Japan, through far-eastern Russia to Europe, and is maintained in cycles involving Ixodid ticks (Ixodes ricinus and Ixodes persulcatus) and wild vertebrate hosts. The virus causes a potentially fatal neurological infection, with thousands of cases reported annually throughout Europe. TBE has a significant mortality rate depending upon the strain of virus or may cause long-term neurological/neuropsychiatric sequelae in people affected. In this review, we comprehensively reviewed TBEV, its epidemiology and pathogenesis, the clinical manifestations of TBE, along with vaccination and prevention. We also discuss the factors which may have influenced an apparent increase in the number of reported human cases each year, despite the availability of effective vaccines.

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Localization of the c-abl oncogene adjacent to a translocation break point in chronic myelocytic leukaemia

Heisterkamp

Stephenson

Groffen

et al. 1983

Nature

807

299

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The human c-ab1 oncogene maps within the region (q34-qter) of chromosome 9 which is translocated to chromosome 22, the Philadelphia (Ph') chromosome, in chronic myelocytic leukaemia (CML). The position of the Ph' chromosomal break point is shown to be variable and, in one CML patient, has been localized immediately 5' of, or within, the c-ab1 oncogene. A DNA restriction fragment corresponding to this site has been molecularly cloned and shown to represent a chimaeric fragment of DNA from chromosomes 9 and 22.

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Translocation of c-abl oncogene correlates with the presence of a Philadelphia chromosome in chronic myelocytic leukaemia

Bartram

Klein

Hagemeijer

et al. 1983

Nature

711

281

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The localization of cellular oncogenes near the break points of tumour-specific chromosomal aberrations suggests an involvement of these genes in the generation of neoplasms. Recently, we demonstrated the translocation of the human cellular homologue (c-ab1) of the transforming sequence of Abelson murine leukaemia virus (A-MuLV) from chromosome 9 to the Philadelphia chromosome (Ph1) in chronic myelocytic leukaemia (CML). In an attempt to investigate the significance of this translocation in the pathogenesis of CML, we have now studied two CML patients with complex translocations, t(9; 11; 22) and t(1; 9; 22), and two CML Ph1-negative patients with apparently normal karyotypes. In addition to using blot hybridization with human c-ab1 probes and DNA from rodent: CML cell hybrids as before, we have used in situ hybridization of these probes directly to metaphase chromosomes of CML patients. These studies show that the c-ab1 gene is translocated in Ph1-positive but not in Ph1-negative CML patients. CML without the Ph1 chromosome seems to be a distinct entity with a different origin, and this view is supported by clinical observations including correlations which reveal a poorer prognosis.

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Structure and biological activity of v-raf, a unique oncogene transduced by a retrovirus.

Rapp¹,

Goldsborough²,

Mark³

et al. 1983

Proc. Natl. Acad. Sci. U.S.A.

441

248

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We have molecularly cloned a unique acutely transforming replication-defective mouse type C virus (3611-MSV) and characterized its acquired oncogene. The viral genome closely resembles Moloney (M) murine leukemia virus (MuLV), except for a substitution in M-MuLV in the middle of p30 and the middle of the polymerase gene (pol). Heteroduplex analysis revealed that 2.4 kilobases of M-MuLV DNA were replaced by 1.2 kilobases of cellular DNA. The junctions between viral and cellular sequences were determined by DNA sequence analysis to be 517 nucleotides into the p30 sequence and 1,920 nucleotides into the polymerase sequence. Comparison of the transforming gene from 3611-MSV, designated v-raf, with previously isolated retrovirus oncogenes either by direct hybridization or by comparison of restriction fragments of their cellular homologs shows it to be unique. Transfection of NIH 3T3 cells with cloned 3611-MSV proviral DNA leads to highly efficient transformation and the recovered virus elicits tumors in mice typical of the 3611-MSV virus. Transfected NIH 3T3 cells express two 3611-MSV-specific polyproteins (P75 and P90), both of which contain NH2-terminal gag gene-encoded components linked to the acquired sequence (v-raf) translational product. The cellular homolog, c-raf, is present in one or two copies per haploid genome in mouse and human DNA.Retroviruses act as natural vectors for the transduction of at least some cellular genes, designated proto-oncogenes (1, 2), which bring about malignant transformation of infected cells. The cellular origin of a retroviral transforming gene (v-onc) was first demonstrated for v-src, the oncogene of Rous sarcoma virus (3, 4). Since then, 14 additional v-onc genes present in different acutely transforming retroviruses of avian and mammalian origin have been described, each similarly derived from cellular genes (c-onc) (1, 2). At least six of the v-onc genes code for functionally related tyrosine-specific protein kinases (5, 6), several of which appear to have a common evolutionary origin (7-9). Although the v-onc genes that do not encode protein kinase make up an evolutionarily more diverse group, some, such as v-kis and v-has, also appear to be members of gene families (10).The significance for human disease of c-onc genes had been purely hypothetical prior to the recent demonstration by DNA transfection that active forms of such genes may be associated with human cancers (11,12). Furthermore, human c-onc genes are associated with specific translocations characteristic of certain types of human cancer (13)(14)(15). These findings emphasize the potential importance of onc genes for an understanding of human malignancy and point to a need for a more complete accounting of such genes in human DNA.The isolation of retroviral oncogenes has in the past been sporadic and limited mainly to isolations from spontaneous tumors. More recently we have designed experiments to generate acutely transforming retroviruses by growth of IdUrd-induced endogenous type C viruses in chemicall...

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John Stephenson

A cellular oncogene is translocated to the Philadelphia chromosome in chronic myelocytic leukaemia

Tick-borne encephalitis virus – a review of an emerging zoonosis

Localization of the c-abl oncogene adjacent to a translocation break point in chronic myelocytic leukaemia

Translocation of c-abl oncogene correlates with the presence of a Philadelphia chromosome in chronic myelocytic leukaemia

Structure and biological activity of v-raf, a unique oncogene transduced by a retrovirus.

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