Inverted repeat regions of Marek's disease virus DNA possess a structure similar to that of the a sequence of herpes simplex virus DNA and contain host cell telomere sequences

Abstract

The genomic structure of Marek's disease virus (MDV) is similar to those of the alphaherpesviruses herpes simplex virus (HSV) types 1 and 2. Sequence analysis of the junction region between the long component (L) and the short component (S) revealed the existence of an a-like sequence, similar in structure to the a sequence of HSV-1. Further study revealed that the MDV genome contains five copies of the a-like sequence within the long terminal repeat region as well as in the short terminal repeat region. The junction between the L and S components was found to contain 10 copies of the a-like sequence. Within the a-like sequence, a structure homologous to the DR2 of HSV was found to contain 17 copies of the telomeric sequence, GGGGTTA. There appears to be little to no sequence homology between the HSV a sequence and the MDV a-like sequence; however, the strong physical homology to its counterpart in HSV-1 suggests that the MDV a-like sequence may have the same functional homology (the domain for cleavage/packaging of the DNA into the viral capsids and for genomic inversion) as well.