Cathy Phillips scite author profile

Cathy Phillips

3Publications

84Citation Statements Received

48Citation Statements Given

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142

Affiliations

Uppsala University

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The murine IgM secretory poly(A) site contains dual upstream and downstream elements which affect polyadenylation

Phillips

Virtanen

1997

Nucleic Acids Research

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Regulation of polyadenylation efficiency at the secretory poly(A) site plays an essential role in gene expression at the immunoglobulin (IgM) locus. At this poly(A) site the consensus AAUAAA hexanucleotide sequence is embedded in an extended AU-rich region and there are two downstream GU-rich regions which are suboptimally placed. As these sequences are involved in formation of the polyadenylation pre-initiation complex, we examined their function in vivo and in vitro . We show that the upstream AU-rich region can function in the absence of the consensus hexanucleotide sequence both in vivo and in vitro and that both GU-rich regions are necessary for full polyadenylation activity in vivo and for formation of polyadenylation-specific complexes in vitro . Sequence comparisons reveal that: (i) the dual structure is distinct for the IgM secretory poly(A) site compared with other immunoglobulin isotype secretory poly(A) sites; (ii) the presence of an AU-rich region close to the consensus hexanucleotide is evolutionarily conserved for IgM secretory poly(A) sites. We propose that the dual structure of the IgM secretory poly(A) site provides a flexibility to accommodate changes in polyadenylation complex components during regulation of polyadenylation efficiency.

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Identification of a stem-loop structure important for polyadenylation at the murine IgM secretory poly(A) site

Phillips¹,

Kyriakopoulou²,

Virtanen³

1999

Nucleic Acids Research

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We have previously shown that a distal GU-rich downstream element of the mouse IgM secretory poly(A) site is important for polyadenylation in vivo and for polyadenylation specific complex formation in vitro. This element can be predicted to form a stem-loop structure with two asymmetric internal loops. As stem-loop structures commonly define protein RNA binding sites, we have probed the biological activity of the secondary structure of this element. We show that mutations affecting the stem of the structure abolish the biological activity of this element in vivo and in vitro at the level of cleavage and polyadenylation specificity factor/cleavage stimulation factor complex formation and that both internal loops contribute to the enhancing effect of the sequence in vivo. Lead (II) cleavage patterns and RNase H probing of the sequence element in vitro are consistent with the predicted secondary structure. Furthermore, mobility on native PAGE suggests a bent structure. We propose that the secondary structure of this downstream element optimizes its interaction with components of the polyadenylation complex.

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Multiple Sequence Elements Involved in Polyadenylation at The Murine Igm Secretory Poly(A)Site.

Phillips

Virtanen

1997

Nucleosides and Nucleotides

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Cathy Phillips

The murine IgM secretory poly(A) site contains dual upstream and downstream elements which affect polyadenylation

Identification of a stem-loop structure important for polyadenylation at the murine IgM secretory poly(A) site

Multiple Sequence Elements Involved in Polyadenylation at The Murine Igm Secretory Poly(A)Site.

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