Justine A. Levin scite author profile

Justine A. Levin

5Publications

55Citation Statements Received

22Citation Statements Given

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113

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Rockefeller University

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The atypical codon usage of the plant psbA gene may be the remnant of an ancestral bias

Morton

Levin²

1997

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

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The psbA gene of the chloroplast genome has a codon usage that is unusual for plant chloroplast genes. In the present study the evolutionary status of this codon usage is tested by reconstructing putative ancestral psbA sequences to determine the pattern of change in codon bias during angiosperm divergence. It is shown that the codon biases of the ancestral genes are much stronger than all extant f lowering plant psbA genes. This is related to previous work that demonstrated a significant increase in synonymous substitution in psbA relative to other chloroplast genes. It is suggested, based on the two lines of evidence, that the codon bias of this gene currently is not being maintained by selection. Rather, the atypical codon bias simply may be a remnant of an ancestral codon bias that now is being degraded by the mutation bias of the chloroplast genome, in other words, that the psbA gene is not at equilibrium. A model for the evolution of selective pressure on the codon usage of plant chloroplast genes is discussed.

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Human apolipoprotein E allele-specific brain expressing transgenic mice

Smith

Sikes

Levin

1998

Neurobiology of Aging

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Apolipoprotein E deficiency effects on learning in mice are dependent upon the background strain

Lominska

Levin

Wang

et al. 2001

Behavioural Brain Research

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APOE and estrogen in mouse models of Alzheimer disease

Smith¹,

Levin²,

Lominska³

et al. 2000

Neurobiology of Aging

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Brain region specific upregulation of apoliprotein E by estrogen in mice

Levin¹,

McEwen²,

Smith³

2000

Neurobiology of Aging

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Justine A. Levin

The atypical codon usage of the plant psbA gene may be the remnant of an ancestral bias

Human apolipoprotein E allele-specific brain expressing transgenic mice

Apolipoprotein E deficiency effects on learning in mice are dependent upon the background strain

APOE and estrogen in mouse models of Alzheimer disease

Brain region specific upregulation of apoliprotein E by estrogen in mice

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