Angus MacGregor scite author profile

This paper describes the characterisation of a novel chicken homeobox gene, Prh, whose encoded homeodomain sequence differs significantly from those of other factors which have been described. As expected, a portion of the encoded protein, containing the homeodomain, is capable of sequence-specific DNA-binding. Outside the homeodomain, Prh, possesses an N-terminal region extremely rich in proline residues and a C-terminal acidic portion, either of which may function as transcription regulatory domains. Since, among the chicken tissues tested, its transcription is restricted to haematopoietic cells, lung and liver, it may function in tissue-specific patterns of gene regulation. Human and murine Prh homologues have also been identified; so it is likely that such genes are a general feature of vertebrate genomes.

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Exon scrambling of MLL transcripts occur commonly and mimic partial genomic duplication of the gene

Caldas

MacGregor

et al. 1998

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Isolation and characterization of a Pufferfish MLL (Mixed lineage leukemia)-like gene (fMll) reveals evolutionary conservation in vertebrate genes related to Drosophila trithorax

et al. 1998

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The MLL gene is interrupted and fused to a number of partner genes as a result of chromosomal translocations in human leukemias. MLL is a very large protein with a unique domain structure and large regions of homology to Drosophila trx. To de®ne the key structural and functional domains of the MLL protein in vertebrates, we have cloned the genomic region encoding an MLLlike gene in the compact model vertebrate genome of Fugu rubripes. While the similarity between the mouse and human MLL proteins is very high, a lower overall similarity is present between the Fugu and mammalian proteins. Several new highly conserved regions were identi®ed in the portion of the protein included in the MLL leukemia-associated fusion proteins. The conserved nature of regions of similarity between vertebrate forms of MLL and the Drosophila TRX proteins, as well as other domains previously suggested to have a functional role in MLL (including the AT hooks and the DNA methyltransferase domain), was also observed. Therefore, strong evolutionary constraints limited sequence divergence within these domains. The information derived from this comparative analysis will form the basis for the functional study of the MLL protein, particularly as it relates to human leukemogenesis.

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Recruitment of the nuclear receptor corepressor N-CoR by the TEL moiety of the childhood leukemia–associated TEL-AML1 oncoprotein

et al. 2000

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The t(12;21)(p13;q22) chromosomal translocation is the most frequent illegitimate gene recombination in a pediatric cancer and occurs in approximately 25% of common acute lymphoblastic leukemia (cALL) cases. This rearrangement results in the in frame fusion of the 5′-region of the ETS-related gene, TEL(ETV6), to almost the entire acute myeloid leukemia 1 (AML1) (also called CBFA2 orPEBP2AB1) locus and expression of the TEL-AML1 chimeric protein. Although AML1 stimulates transcription, TEL-AML1 functions as a repressor of some AML1 target genes. In contrast to the wild type AML1 protein, both TEL and TEL-AML1 interact with N-CoR, a component of the nuclear receptor corepressor complex with histone deacetylase activity. The interaction between TEL and N-CoR requires the central region of TEL, which is retained in TEL-AML1, and TEL lacking this domain is impaired in transcriptional repression. Taken together, our results suggest that TEL-AML1 may contribute to leukemogenesis by recruiting N-CoR to AML1 target genes and thus imposing an altered pattern of their expression.

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Angus MacGregor

Identification of a novel vertebrate homeobox gene expressed in haematopoietic cells

Exon scrambling of MLL transcripts occur commonly and mimic partial genomic duplication of the gene

Isolation and characterization of a Pufferfish MLL (Mixed lineage leukemia)-like gene (fMll) reveals evolutionary conservation in vertebrate genes related to Drosophila trithorax

Recruitment of the nuclear receptor corepressor N-CoR by the TEL moiety of the childhood leukemia–associated TEL-AML1 oncoprotein

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