Ostreid herpesvirus 1 (OsHV-1), a member of the family Malacoherpesviridae (order Herpesvirales), is a major pathogen of bivalves. However, the molecular details of the malacoherpesvirus infection cycle and its overall similarity to the replication of mammalian herpesviruses (family Orthoherpesviridae) remain obscure. Here, to gain insights into the OsHV-1 biology, we performed long read sequencing of infected blood clams, Anadara broughtonii, which yielded over one million OsHV-1 long reads. This data enabled the annotation of the viral genome with 78 gene units and 274 transcripts, of which 67 were polycistronic mRNAs, 35 ncRNAs and 20 natural antisense transcripts (NATs). Transcriptomics and proteomics data indicate preferential transcription and independent translation of the capsid scaffold protein as an OsHV-1 capsid maturation protease isoform. The conservation of this transcriptional architecture across Herpesvirales likely indicates its functional importance and ancient origin. Moreover, we traced RNA editing events using short read sequencing and supported the presence of inosine nucleotides in native OsHV-1 RNA, consistent with the activity of ADAR1. Our data suggests that, whereas RNA hyper-editing is concentrated in specific regions of the OsHV-1 genome, single nucleotide editing is more dispersed along OsHV-1 transcripts. In conclusion, we revealed the existence of a conserved pan-Herpesvirales transcriptomic architecture of the capsid maturation module and uncovered a transcription-based viral counter defence mechanism presumably facilitating the evasion of the host ADAR antiviral system.