Unlike Ff, the packaging signal (PS) and the mechanism of integrative filamentous phage assembly remains largely unknown. Here we revived two Inoviridae prophage sequences, ϕLf2 and ϕLf-UK, as infectious virions that lysogenize black rot pathogen Xanthomonas campestris pv. campestris. The genomes of ϕLf2 and ϕLf-UK consist of 6363 and 6062 nucleotides each, and share 85.8% and 98.7% identity with ϕLf, respectively. To explore integrative filamentous phage assembly, we first identified 20-26-nucleotide long PS sequences of 10 Xanthomonas phages. These PS consist of a DNA hairpin with the consensus GGX(A/-)CCG(C/T)G sequence in the stem and C/T nucleotides in the loop, both of which are conserved and essential for PS activity. In contrast to Ff, the 5' to 3' orientation of the PS sequence is not conserved or critical for viral competence. This is the first report to offer insights into the structure and function of the integrative phage PS, revealing the diversity of filamentous phage encapsidation.
Keywords: Integrative filamentous phage; Packaging signal (PS); Phage encapsidation/assembly; Xanthomonas campestris pv. campestris.
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