J. McMillan scite author profile

J. McMillan

4Publications

156Citation Statements Received

98Citation Statements Given

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188

149

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Affiliations

National Cancer Institute, James Cook University, La Trobe University

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Translation of the human LINE-1 element, L1Hs.

McMillan

Singer

1993

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

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Full-length RNA transcribed from the human LINE-1 (Li) element Li Homo sapiens (LlHs) has a 900-nt, G+C-rich, 5'-untranslated region (UTR). The 5' UTR is followed by two long open reading frames, ORF1 and ORF2, which are separated from each other by an inter-ORF region of 33 nt that includes two or three in-frame stop codons. We examine here the mechanism(s) by which the translation of LlHs ORF1 and ORF2 is initiated. A stable hairpin structure (AG = -74.8 kcal/mol), inserted at nt 661 of the 5' UTR, caused a 3-to 8-fold decrease in the in vitro and in vivo translation ofeither a lacZ reporter gene for ORF1 or the ORF1 polypeptide product, p40, but translation of a lacZ reporter gene in ORF2 was increased. The results are compatible with a model for ORF1 translation initiation in which the majority of ribosomes scan from a point 5' of nt 661 but suggest that ORF2 is not translated by attached ribosomes that reinitiate after the termination of ORF1 translation. Our data are compatible with a model whereby the translation of LlHs ORF2 is initiated internally.The human LINE-1 (Li) element (Li Homo sapiens; LiHs) is the only known transposable element that is endogenous to the human genome. The structural features of LlHs (schematically presented in Fig.

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LINE-1: a human transposable element

Singer

Krek

McMillan

et al. 1993

Gene

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Control of DNA synthesis in polyploid mammalian cells

Graves

McMillan

1984

Journal Cellular Physiology

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To test the hypothesis that the duration of DNA synthesis is an inverse function of nuclear size or DNA content, the S phase was calculated from PLM analysis for pseudodiploid, tetraploid, and octaploid lines of Chinese hamster cells growing as a monolayer or in suspension. S phase times were found not to be significantly different between polyploid lines and the diploid lines from which they were derived, regardless of the conformation of the nucleus. There is no evidence, therefore, that would implicate the nuclear membrane, or nuclear surface area/volume relationships, in the control of DNA synthesis.

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Nucleotide sequence of the histone gene cluster in the coral acropora formosa (cnidaria; scleractinia): Features of histone gene structure and organization are common to diploblastic and triploblastic metazoans

et al. 1993

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We report the nucleotide sequence of the core histone gene cluster from the Cnidarian Acropora formosa. This is the first histone gene cluster to be sequenced from a diploblastic organism and the predicted amino acid sequences most resemble those of sea urchin equivalents. Each of the Cnidarian histone genes has two conserved regions 3' of the coding sequences and these closely resemble those of the metazoan alpha-class histone genes. In A. formosa the core histone genes are arranged as opposed (H3/H4 and H2A/H2B) pairs, a pattern common to the nondeuterostome metazoa, and tandem repetition is the predominant pattern of organization in the Cnidarian. With the recent identification of several classes of homeobox genes in Cnidarians these features clearly align the Cnidaria with triploblastic metazoans, supporting a monophyletic origin of the metazoa.

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J. McMillan

Translation of the human LINE-1 element, L1Hs.

LINE-1: a human transposable element

Control of DNA synthesis in polyploid mammalian cells

Nucleotide sequence of the histone gene cluster in the coral acropora formosa (cnidaria; scleractinia): Features of histone gene structure and organization are common to diploblastic and triploblastic metazoans

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