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Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins

Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins L. F. Velicer 1 and H. S. Ginsberg Department of Microbiology, School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104 ABSTRACT During the period between 20 and 24 hr after infection of KB cells with type 5 adenovirus, at a time when approximately 85% of the proteins made were virus-specific, viral proteins were synthesized on polyribosomes with an average sedimentation coefficient of 200 S . The polypeptide chains synthesized during a 1-min period of labeling with 14 C-amino acids had an average sedimentation coefficient of 3.4 S in sucrose gradients containing 1% sodium dodecyl sulfate. Within 1 min after completion, the newly made polypeptide chains were released from polyribosomes, and the majority were transported into the nuclei within 6 min. Meanwhile, the immunological reactivity of the newly synthesized proteins also increased rapidly. During the same 6-min interval after synthesis, the single polypeptide chains assembled into multimeric proteins with average sedimentation coefficients of 6 S , 9 S , and 12 S . The 6 S and 12 S proteins were identified immunologically as the fiber and hexon capsid proteins, respectively. The 9 S protein was trypsin-sensitive and appeared to be the precursor of the penton; it was tentatively identified as the penton base. The penton had a sedimentation coefficient of about 10.5 S and sedimented with the hexon in sucrose gradients. The concomitant migration of nascent proteins into the nuclei, development of the capsid proteins' immunological reactivity, and morphogenesis of the multimeric capsid proteins suggest that the single polypeptide chains or small complexes were transported into the nuclei where they assembled into mature structural proteins of the virion. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Virology American Society For Microbiology

Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins

Journal of Virology , Volume 5 (3): 338 – Mar 1, 1970

Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins

Journal of Virology , Volume 5 (3): 338 – Mar 1, 1970

Abstract

Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins L. F. Velicer 1 and H. S. Ginsberg Department of Microbiology, School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104 ABSTRACT During the period between 20 and 24 hr after infection of KB cells with type 5 adenovirus, at a time when approximately 85% of the proteins made were virus-specific, viral proteins were synthesized on polyribosomes with an average sedimentation coefficient of 200 S . The polypeptide chains synthesized during a 1-min period of labeling with 14 C-amino acids had an average sedimentation coefficient of 3.4 S in sucrose gradients containing 1% sodium dodecyl sulfate. Within 1 min after completion, the newly made polypeptide chains were released from polyribosomes, and the majority were transported into the nuclei within 6 min. Meanwhile, the immunological reactivity of the newly synthesized proteins also increased rapidly. During the same 6-min interval after synthesis, the single polypeptide chains assembled into multimeric proteins with average sedimentation coefficients of 6 S , 9 S , and 12 S . The 6 S and 12 S proteins were identified immunologically as the fiber and hexon capsid proteins, respectively. The 9 S protein was trypsin-sensitive and appeared to be the precursor of the penton; it was tentatively identified as the penton base. The penton had a sedimentation coefficient of about 10.5 S and sedimented with the hexon in sucrose gradients. The concomitant migration of nascent proteins into the nuclei, development of the capsid proteins' immunological reactivity, and morphogenesis of the multimeric capsid proteins suggest that the single polypeptide chains or small complexes were transported into the nuclei where they assembled into mature structural proteins of the virion.

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Publisher
American Society For Microbiology
Copyright
Copyright © 1970 by the American society for Microbiology.
ISSN
0022-538X
eISSN
1098-5514
Publisher site
See Article on Publisher Site

Abstract

Synthesis, Transport, and Morphogenesis of Type 5 Adenovirus Capsid Proteins L. F. Velicer 1 and H. S. Ginsberg Department of Microbiology, School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104 ABSTRACT During the period between 20 and 24 hr after infection of KB cells with type 5 adenovirus, at a time when approximately 85% of the proteins made were virus-specific, viral proteins were synthesized on polyribosomes with an average sedimentation coefficient of 200 S . The polypeptide chains synthesized during a 1-min period of labeling with 14 C-amino acids had an average sedimentation coefficient of 3.4 S in sucrose gradients containing 1% sodium dodecyl sulfate. Within 1 min after completion, the newly made polypeptide chains were released from polyribosomes, and the majority were transported into the nuclei within 6 min. Meanwhile, the immunological reactivity of the newly synthesized proteins also increased rapidly. During the same 6-min interval after synthesis, the single polypeptide chains assembled into multimeric proteins with average sedimentation coefficients of 6 S , 9 S , and 12 S . The 6 S and 12 S proteins were identified immunologically as the fiber and hexon capsid proteins, respectively. The 9 S protein was trypsin-sensitive and appeared to be the precursor of the penton; it was tentatively identified as the penton base. The penton had a sedimentation coefficient of about 10.5 S and sedimented with the hexon in sucrose gradients. The concomitant migration of nascent proteins into the nuclei, development of the capsid proteins' immunological reactivity, and morphogenesis of the multimeric capsid proteins suggest that the single polypeptide chains or small complexes were transported into the nuclei where they assembled into mature structural proteins of the virion.

Journal

Journal of VirologyAmerican Society For Microbiology

Published: Mar 1, 1970

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