Abstract
Excessive replication of Saccharomyces cerevisiae Ty1 retrotransposons is regulated by Copy Number Control, a process requiring the p22/p18 protein produced from a sub-genomic transcript initiated within Ty1 GAG. In retrotransposition, Gag performs the capsid functions required for replication and re-integration. To minimize genomic damage, p22/p18 interrupts virus-like particle function by interaction with Gag. Here, we present structural, biophysical and genetic analyses of p18m, a minimal fragment of Gag that restricts transposition. The 2.8 Å crystal structure of p18m reveals an all α-helical protein related to mammalian and insect ARC proteins. p18m retains the capacity to dimerise in solution and the crystal structures reveal two exclusive dimer interfaces. We probe our findings through biophysical analysis of interface mutants as well as Ty1 transposition and p18m restriction in vivo. Our data provide insight into Ty1 Gag structure and suggest how p22/p18 might function in restriction through a blocking-of-assembly mechanism.
Highlights
Excessive replication of Saccharomyces cerevisiae Ty1 retrotransposons is regulated by Copy Number Control, a process requiring the p22/p18 protein produced from a sub-genomic transcript initiated within Ty1 GAG
Specific CNCR/CA-NTD amino acid substitutions confer resistance to the p22 restriction factor, and UBN2/CA-CTD is within p22
CNCR mutations occur in the UBN2/CA-CTD domain[28]
Summary
Excessive replication of Saccharomyces cerevisiae Ty1 retrotransposons is regulated by Copy Number Control, a process requiring the p22/p18 protein produced from a sub-genomic transcript initiated within Ty1 GAG. Gag performs the capsid functions required for replication and re-integration. P22/p18 interrupts virus-like particle function by interaction with Gag. Here, we present structural, biophysical and genetic analyses of p18m, a minimal fragment of Gag that restricts transposition. After transcription from the 5′- to 3′- LTR, GAG encodes Gag-p49, which is analogous to retroviral Gag and provides both capsid (CA) packaging and nucleocapsid (NC) nucleic acid chaperone functions. After transcription by RNA polymerase II, Ty1 genomic RNA is exported to the cytoplasm and two proteins are translated, Gagp[49] and Gag-Pol-p199, produced from +1 translational frameshift between the GAG and POL genes[8]. PR cleaves Gag-p49 towards the C-terminus producing Gag-p45, the mature capsid and nucleic acid chaperone protein[13,14,15], forming mature Ty1
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