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Tetracistronic minigenomes elucidate a functional promoter for Ghana virus and unveils Cedar virus replicase promiscuity for all henipaviruses
Griffin D. Haas
, Shreyas Kowdle
, Katharina S. Schmitz
, Kristopher D. Azarm
, Kendra N. Johnson
, William R. Klain
,
Alexander N. Freiberg
, Robert M. Cox
, Richard K. Plemper
, Benhur Lee
Pathology
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
Overview
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Dive into the research topics of 'Tetracistronic minigenomes elucidate a functional promoter for Ghana virus and unveils Cedar virus replicase promiscuity for all henipaviruses'. Together they form a unique fingerprint.
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Keyphrases
Henipavirus
100%
Replicase
100%
Minigenome
100%
Cedar Virus
100%
Ghana Virus
100%
Promiscuity
100%
Viral Proteins
33%
Nipah Virus
33%
Hendra Virus
33%
Biocontainment
33%
Emergent Species
33%
Pathogenicity
16%
Receptor Binding
16%
BSL-4
16%
Comprehensive Research
16%
Mandatory Vaccines
16%
Human Host
16%
High Mortality Rate
16%
Replication-competent
16%
Global Health
16%
Virus Polymerase
16%
Viral Life Cycle
16%
Missing Sequence
16%
Life Cycle Modeling System
16%
Therapeutic Work
16%
Immunology and Microbiology
Promoter Region
100%
Henipavirus
100%
Virus
100%
Viral Protein
22%
Replication
22%
Pathogenicity
11%
Mortality Rate
11%
Receptor Binding
11%
Life Cycle
11%
Hendra Virus
11%
Viral Life Cycle
11%
Nipah virus
11%