A TRANSCRIPTIONALLY CONTROLLED TRANS-PROCESSING ASSAY - PUTATIVE IDENTIFICATION OF A VACCINIA VIRUS-ENCODED PROTEINASE WHICH CLEAVES PRECURSOR PROTEIN P25K

被引：27

作者：

WHITEHEAD, SS ^{[1
]}

HRUBY, DE ^{[1
]}

机构：

[1] OREGON STATE UNIV, CTR GENE RES & BIOTECHNOL, DEPT MICROBIOL, CORVALLIS, OR 97331 USA

来源：

JOURNAL OF VIROLOGY | 1994年 / 68卷 / 11期

关键词：

D O I：

10.1128/JVI.68.11.7603-7608.1994

中图分类号：

Q93 [微生物学];

学科分类号：

071005 ; 100705 ;

摘要：

Vaccinia virus maturation into infectious particles appears to be dependent on the proteolytic processing of at least five viral proteins, each containing a conserved AG*X cleavage motif and each requiring proper association with the previrion particle. To identify the responsible proteinase, a transcriptionally controlled trans-processing assay was developed to monitor cleavage at the permissive AG*S site of the P25K core protein precursor. This assay led to the putative identification of a VV proteinase encoded by open reading frame G1L. The predicted protein contains an HXXEH sequence which is a direct inversion of the active site consensus sequence present in thermolysin and other metalloendopeptidases. Site-directed mutation of this consensus sequence suggests that the G1L protein may be a novel, virus-encoded metalloendoproteinase, although confirmation of this activity must await the development of a suitable cell free processing assay.

引用

页码：7603 / 7608

页数：6

共 34 条

[1] HUMAN INSULIN-DEGRADING ENZYME SHARES STRUCTURAL AND FUNCTIONAL HOMOLOGIES WITH ESCHERICHIA-COLI PROTEASE-III [J].

AFFHOLTER, JA ;

FRIED, VA ;

ROTH, RA .

SCIENCE, 1988, 242 (4884) :1415-1418

[2] EVIDENCE FOR AN ALKALINE PROTEASE IN VACCINIA VIRUS [J].

ARZOGLOU, P ;

DRILLIEN, R ;

KIRN, A .

VIROLOGY, 1979, 95 (01) :211-214

[3]

Ausubel F. M., 1993, CURRENT PROTOCOLS MO

[4] AN UNUSUAL ACTIVE-SITE IDENTIFIED IN A FAMILY OF ZINC METALLOENDOPEPTIDASES [J].

BECKER, AB ;

ROTH, RA .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1992, 89 (09) :3835-3839

[5] ISOLATION, CHARACTERIZATION, AND PHYSICAL MAPPING OF TEMPERATURE-SENSITIVE MUTANTS OF VACCINIA VIRUS [J].

CONDIT, RC ;

MOTYCZKA, A ;

SPIZZ, G .

VIROLOGY, 1983, 128 (02) :429-443

[6] INVITRO TRANSLATION OF IMMEDIATE EARLY, EARLY, AND LATE CLASSES OF RNA FROM VACCINIA VIRUS-INFECTED CELLS [J].

COOPER, JA ;

MOSS, B .

VIROLOGY, 1979, 96 (02) :368-380

[7] BIOGENESIS OF VACCINIA - ISOLATION OF CONDITIONAL LETHAL MUTANTS AND ELECTRON-MICROSCOPIC CHARACTERIZATION OF THEIR PHENOTYPICALLY EXPRESSED DEFECTS [J].

DALES, S ;

MILOVANOVITCH, V ;

POGO, BGT ;

WEINTRAUB, SB ;

HUIMA, T ;

WILTON, S ;

MCFADDEN, G .

VIROLOGY, 1978, 84 (02) :403-428

[8] EXPRESSION OF VIRUS-ENCODED PROTEINASES - FUNCTIONAL AND STRUCTURAL SIMILARITIES WITH CELLULAR ENZYMES [J].

DOUGHERTY, WG ;

SEMLER, BL .

MICROBIOLOGICAL REVIEWS, 1993, 57 (04) :781-822

[9] COMPLETE NUCLEOTIDE-SEQUENCE OF THE ESCHERICHIA-COLI PTR GENE ENCODING PROTEASE-III [J].

FINCH, PW ;

WILSON, RE ;

BROWN, K ;

HICKSON, ID ;

EMMERSON, PT .

NUCLEIC ACIDS RESEARCH, 1986, 14 (19) :7695-7703

[10] THE COMPLETE DNA-SEQUENCE OF VACCINIA VIRUS [J].

GOEBEL, SJ ;

JOHNSON, GP ;

PERKUS, ME ;

DAVIS, SW ;

WINSLOW, JP ;

PAOLETTI, E .

VIROLOGY, 1990, 179 (01) :247-266

← 1 2 3 4 →