Accession Number : ADA224109
Title : Molecular Cloning and Sequence Analysis of the Sta58 Major Antigen Gene of Rickettsia tsutsugamushi: Sequence homology and Antigenic Comparison of Sta58 to the 60-Kilodalton Family of Stress Proteins
Descriptive Note : Scientific rept.
Corporate Author : WALTER REED ARMY INST OF RESEARCH WASHINGTON DC DEPT OF RICKETTSIAL DISEASES
Personal Author(s) : Stover, Charles K. ; Marana, David P. ; Dasch, Gregory A. ; Oaks, Edwin V.
Full Text : http://www.dtic.mil/get-tr-doc/pdf?AD=ADA224109
Report Date : MAY 1990
Pagination or Media Count : 10
Abstract : The scrub typhus 58-kilodalton (kDa) antigen (Sta58) of Rickettsia tsutsugamushi is a major protein antigen of often recognized by humans infected with scrub typhus rickettsiae. A 2.9 kilobase HindIII fragment containing a complete sta58 gene was cloned in Escherichia coli and found to express the entire Sta58 antigen and a smaller protein with an apparent molecular mass of 11kDa (Stp11). DNA sequence analysis of the 2.9-kilobase HindIII fragment revealed two adjacent open reading frames encoding proteins of 11 (Stp11) and 60 kDa (Sta58). Comparisons of deduced amino acid sequences disclosed a high degree of homology between the R. tsutsugamushi proteins of primordial heat shock proteins designated Hsp10Hsp60. Although the sequence homology between the Sta58 antigen and the Hsp60 protein family is striking, the Sta58 protein appeared to be antigenically distinct among a sample of other bacterial Hsp60 homologs, including the typhus group of rickettsia. Keywords: Rickettsia tsutsugamushi; Antigens; Molecular cloning; Scrub typhus; Heat-shock proteins; Nucleotide sequence.
Descriptors : *AMINO ACIDS , *ANTIGENS , HUMANS , MOLECULES , MASS , PROTEINS , COMPARISON , DEOXYRIBONUCLEIC ACIDS , SEQUENCES , ESCHERICHIA COLI , SHOCK , GENES , CLONES , GENETIC ENGINEERING , HEAT , MOLECULAR PROPERTIES , RICKETTSIA TSUTSUGAMUSHI , TYPHUS RICKETTSIAE , TYPHUS , NUCLEOTIDES , RICKETTSIA , STRESSES , REPRINTS
Subject Categories : GENETIC ENGINEERING AND MOLECULAR BIOLOGY
Distribution Statement : APPROVED FOR PUBLIC RELEASE